{"id":481,"date":"2018-06-07T20:07:29","date_gmt":"2018-06-07T18:07:29","guid":{"rendered":"http:\/\/www.siedenergia.it\/le-centrali\/"},"modified":"2023-01-12T12:31:01","modified_gmt":"2023-01-12T11:31:01","slug":"the-power-plants","status":"publish","type":"page","link":"https:\/\/www.siedenergia.it\/en\/the-power-plants\/","title":{"rendered":"The Power Plants"},"content":{"rendered":"<\/div><\/div><\/div><!-- close content main div --><\/div><\/div><div id='av_section_1' class='avia-section main_color avia-section-default avia-no-border-styling av-section-color-overlay-active avia-bg-style-scroll  ht-section-top ht-page-about ht-page-business-top  av-minimum-height av-minimum-height-100 container_wrap sidebar_right' style = 'background-repeat: no-repeat; background-image: url(https:\/\/www.siedenergia.it\/wp-content\/uploads\/2018\/04\/cartina-fondo.png); background-attachment: scroll; background-position: center right; ' data-section-bg-repeat='no-repeat' ><div class='av-section-color-overlay-wrap'><div class='av-section-color-overlay' style='opacity: 1; background-image: url(https:\/\/www.siedenergia.it\/wp-content\/uploads\/2018\/04\/LE-CENTRALI.png); background-repeat: repeat;'><\/div><div class='container' ><div class='template-page content  av-content-small alpha units'><div class='post-entry post-entry-type-page post-entry-481'><div class='entry-content-wrapper clearfix'>\n<div class=\"flex_column av_one_half  flex_column_div av-zero-column-padding first  \" style='border-radius:0px; '><p><div style='padding-bottom:0px;' class='av-special-heading av-special-heading-h1  blockquote modern-quote   '><h1 class='av-special-heading-tag '  itemprop=\"headline\"  >The Power Plants<\/h1><div class='special-heading-border'><div class='special-heading-inner-border' ><\/div><\/div><\/div><br \/>\n<div style='height:20px' class='hr hr-invisible   '><span class='hr-inner ' ><span class='hr-inner-style'><\/span><\/span><\/div><br \/>\n<section class=\"av_textblock_section \"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><div class='avia_textblock  '   itemprop=\"text\" ><p class=\"p1\"><span class=\"s1\">The Ferrero Group, through the S I E D and its subsidiaries, only in the national territory, manages a park of 17 power plants.<\/span><\/p>\n<\/div><\/section><br \/>\n<div style='height:20px' class='hr hr-invisible   '><span class='hr-inner ' ><span class='hr-inner-style'><\/span><\/span><\/div><br \/>\n<section class=\"av_textblock_section \"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><div class='avia_textblock  '   itemprop=\"text\" ><p>There are 7 currently active plants in Chile through Siedchile. Find out more on <a href=\"http:\/\/www.siedchile.cl\/en\/\" target=\"_blank\" rel=\"noopener\">www.siedchile.cl<\/a><\/p>\n<\/div><\/section><br \/>\n<div style='height:50px' class='hr hr-invisible   '><span class='hr-inner ' ><span class='hr-inner-style'><\/span><\/span><\/div><\/p><\/div><div class=\"flex_column av_one_half  flex_column_div av-zero-column-padding   \" style='border-radius:0px; '><\/div><div style='height:50px' class='hr hr-invisible   '><span class='hr-inner ' ><span class='hr-inner-style'><\/span><\/span><\/div>\n<\/div><\/div><\/div><!-- close content main div --><\/div><\/div><\/div><div id='after_section_1' class='main_color av_default_container_wrap container_wrap sidebar_right'   ><div class='container' ><div class='template-page content  av-content-small alpha units'><div class='post-entry post-entry-type-page post-entry-481'><div class='entry-content-wrapper clearfix'>\n<\/div><\/div><\/div><!-- close content main div --><\/div><\/div><div id='le-centrali' class='avia-section main_color avia-section-no-padding avia-no-border-styling av-section-color-overlay-active avia-bg-style-scroll  section-centrali  av-small-hide av-mini-hide container_wrap sidebar_right'   ><div class='av-section-color-overlay-wrap'><div class='av-section-color-overlay' style='opacity: 1; '><\/div><div class='container' ><div class='template-page content  av-content-small alpha units'><div class='post-entry post-entry-type-page post-entry-481'><div class='entry-content-wrapper clearfix'>\n<div class='av-hotspot-image-container avia_animate_when_almost_visible   av-hotspot-numbered av-mobile-fallback-active    tooltip-centrali av-non-fullwidth-hotspot-image '  itemprop=\"ImageObject\" itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/ImageObject\"  ><div class='av-hotspot-container'><div class='av-hotspot-container-inner-cell'><div class='av-hotspot-container-inner-wrap'><div class='av-image-hotspot' data-avia-tooltip-position='top' data-avia-tooltip-alignment='left' data-avia-tooltip-class='av-tt-default-width av-tt-pos-above av-tt-align-left  av-mobile-fallback-active  main_color av-tt-hotspot' data-avia-tooltip='&lt;div class=&quot;my-container&quot;&gt;\n&lt;p&gt;[layerslider id=&#8221;3&#8243;]&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Forani Hydroelectric Power Plant \u2013 Aisone (CN)&lt;\/strong&gt;&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Concession data&lt;\/strong&gt;:&lt;br \/&gt;\n&lt;strong&gt;Average flow rate, m&lt;span style=&quot;vertical-align: super; font-size: .8em;&quot;&gt;3&lt;\/span&gt;&lt;\/strong&gt;: 6,36 mc\/s&lt;br \/&gt;\n&lt;strong&gt;Jump&lt;\/strong&gt;: 45,65 m&lt;br \/&gt;\n&lt;strong&gt;Average power, P&lt;\/strong&gt;: 2.846 kW&lt;br \/&gt;\n&lt;strong&gt;Main equipment&lt;\/strong&gt;:&lt;br \/&gt;\nNo. 3 turbines of the Francis type\u2028The hydroelectric power plant is located in Forani, Municipality of Aisone (CN), and is on the orographic right side of the Stura di Demonte stream.\u2028The intake structure captures water directly from the discharge channel of the Vinadio hydroelectric power plant.\u2028From the intake structure starts the forced conduit, completely underground , about 3.2 km long with a 3.00 m. diameter \u2013\u2013 which reaches, after a jump of about 45 m, the power plant building which hosts the electromechanical plants.\u2028The water, after having been swirled, are returned to the Stura di Demonte stream through a reinforced concrete discharge channel about 150 m. long, also completely underground.\u2028The electrical energy produced is fed into the 15 KV national distribution network, directly on site.&lt;\/p&gt;\n&lt;\/div&gt;\n' style='top: 84.2%; left: 17.7%; '><div class='av-image-hotspot_inner' style='background-color: #6086e8; color: #ffffff;'>1<\/div><div class='av-image-hotspot-pulse' style='background-color:#a6bdf5;'><\/div><\/div><div class='av-image-hotspot' data-avia-tooltip-position='top' data-avia-tooltip-alignment='left' data-avia-tooltip-class='av-tt-default-width av-tt-pos-above av-tt-align-left  av-mobile-fallback-active  main_color av-tt-hotspot' data-avia-tooltip='&lt;div class=&quot;my-container&quot;&gt;\n&lt;p&gt;[layerslider id=&#8221;12&#8243;]&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt; Venasca Hydroelectric Power Plant \u2013 Venasca (CN) &lt;\/strong&gt;&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Concession data&lt;\/strong&gt;:&lt;br \/&gt;\n&lt;strong&gt;Average flow rate, m&lt;span style=&quot;vertical-align: super; font-size: .8em;&quot;&gt;3&lt;\/span&gt;&lt;\/strong&gt;: 4,526 mc\/s&lt;br \/&gt;\n&lt;strong&gt;Jump&lt;\/strong&gt;: 22,42 m&lt;br \/&gt;\n&lt;strong&gt;Average power, P&lt;\/strong&gt;: 994,83 kW&lt;br \/&gt;\n&lt;strong&gt;Main equipment&lt;\/strong&gt;:&lt;br \/&gt;\nNo. 1 vertical axis Kaplan type turbine and No. 1 vertical axis Francis type turbine\u2028The hydroelectric power plant is in the San Bartolomeo Region \u2013 Municipality of Venasca (CN)\u2028The power plant exploits a derivation of water from the Varaita stream through a reinforced concrete fixed crosspiece, equipped with a sand collector sluice gate and upstream ladder for the ichtyofauna.\u2028The derived water is fed into a predominantly open artificial channel, for a length of about 1,500 m., up to a charge basin.\u2028From the charge basin, a 90 meter long forced conduit starts, which, underpassing the SP 8 Road, enters the power plant to feed the two hydraulic turbines.&lt;br \/&gt;\nThe drainage channel brings the swirled water up to the hydraulic junction called &#8220;Rocca del Pilone&#8221; where it is directed in a channel, owned by third parties, for irrigation and energy use.&lt;br \/&gt;\nThe electricity produced is fed into the national network at a voltage of 15 kV.&lt;\/p&gt;\n&lt;\/div&gt;\n' style='top: 75.1%; left: 18.1%; '><div class='av-image-hotspot_inner' style='background-color: #6086e8; color: #ffffff;'>2<\/div><div class='av-image-hotspot-pulse' style='background-color:#a6bdf5;'><\/div><\/div><div class='av-image-hotspot' data-avia-tooltip-position='top' data-avia-tooltip-alignment='left' data-avia-tooltip-class='av-tt-default-width av-tt-pos-above av-tt-align-left  av-mobile-fallback-active  main_color av-tt-hotspot' data-avia-tooltip='&lt;div class=&quot;my-container&quot;&gt;\n&lt;p&gt;[layerslider id=&#8221;4&#8243;]&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt; Calcinere Hydroelectric Power Plant \u2013 Paesana (CN) &lt;\/strong&gt;&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Concession data&lt;\/strong&gt;:&lt;br \/&gt;\n&lt;strong&gt;Average flow rate, m&lt;span style=&quot;vertical-align: super; font-size: .8em;&quot;&gt;3&lt;\/span&gt;&lt;\/strong&gt;: 2,42 mc\/s&lt;br \/&gt;\n&lt;strong&gt;Jump&lt;\/strong&gt;: 545,75 m&lt;br \/&gt;\n&lt;strong&gt;Average power, P&lt;\/strong&gt;: 13.060 kW&lt;br \/&gt;\n&lt;strong&gt;Main equipment&lt;\/strong&gt;:&lt;br \/&gt;\nNo. 4 horizontal axis single-jet Pelton type turbines.&lt;br \/&gt;\nThe hydroelectric power plant is in the Calcinere hamlet in the Municipality of Paesana (CN). The derivative canal, approx. 10.5 km partly in open air and partly in the tunnel, captures the water of several streams among which the Po and the Lenta.&lt;br \/&gt;\nThe adduction channel feeds the charge chamber called Biatonet from which starts the pressure tunnel that conveys the derived water in the forced conduits, these, made of riveted steel and with a total length of about 1,250 m., feed the No. 4 horizontal axis Pelton turbines of the power plant.&lt;br \/&gt;\nThe swirled water are discharged into a basin adherent to the power plant building and then returned to the valley.&lt;br \/&gt;\nThe energy produced is raised to 70 kV (High Voltage) and transported with an electrical aerial line, about 13 km long, to the delivery point located in the Municipality of Sanfront (CN) joint. In the Sanfront substation there is a 70\/132 kV elevator transformer for the final delivery of energy to Terna&#8217;s national network.&lt;\/p&gt;\n&lt;p style=&quot;text-align: center; width: 100%;&quot;&gt;&lt;a style=&quot;color: #4e71e5; font-size: 18px;&quot; href=&quot;\/wp-content\/uploads\/2019\/03\/Codice_Etico_Calcinere.pdf&quot; target=&quot;_blank&quot; rel=&quot;noopener&quot;&gt;Ethical code (IT)&lt;\/a&gt; &#8211; &lt;a style=&quot;color: #4e71e5; font-size: 18px;&quot; href=&quot;\/wp-content\/uploads\/2019\/03\/Politica_SGSL_Calcinere.pdf&quot; target=&quot;_blank&quot; rel=&quot;noopener&quot;&gt;SGSL Policy (IT)&lt;\/a&gt;&lt;\/p&gt;\n&lt;\/div&gt;\n' style='top: 72%; left: 17.5%; '><div class='av-image-hotspot_inner' style='background-color: #6086e8; color: #ffffff;'>3<\/div><div class='av-image-hotspot-pulse' style='background-color:#a6bdf5;'><\/div><\/div><div class='av-image-hotspot' data-avia-tooltip-position='top' data-avia-tooltip-alignment='left' data-avia-tooltip-class='av-tt-default-width av-tt-pos-above av-tt-align-left  av-mobile-fallback-active  main_color av-tt-hotspot' data-avia-tooltip='&lt;div class=&quot;my-container&quot;&gt;\n&lt;p&gt;[layerslider id=&#8221;9&#8243;]&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt; Tre Ponti Hydroelectric Power Plant \u2013 Prali (TO) &lt;\/strong&gt;&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Concession data&lt;\/strong&gt;:&lt;br \/&gt;\n&lt;strong&gt;Average flow rate, m&lt;span style=&quot;vertical-align: super; font-size: .8em;&quot;&gt;3&lt;\/span&gt;&lt;\/strong&gt;: 8,00 mc\/s&lt;br \/&gt;\n&lt;strong&gt;Jump h&lt;\/strong&gt;: 122,50 m&lt;br \/&gt;\n&lt;strong&gt;Average power, P&lt;\/strong&gt;: 961 kW&lt;br \/&gt;\n&lt;strong&gt;Main equipment&lt;\/strong&gt;:&lt;br \/&gt;\nNo. 1 vertical axis Pelton type 6-jets turbine.&lt;br \/&gt;\nThe hydroelectric power plant is located along the SP 169 Road at Km 13+770 \u2013 Municipality of Prali (TO).\u2028The power plant is located in the Salza di Pinerolo (intake structure) and Prali (power plant) areas, in the Turin Province.&lt;br \/&gt;\nThe intake structure is located on the left orographic bank of the Germanasca stream through a fixed embankment equipped with a sand collector sluice gate and upstream ladder for the ichtyofauna.&lt;br \/&gt;\nFrom the charge basin, the forced conduit starts, made of steel and completely underground, with a 1,100 mm diameter and a length of 1,540 m.&lt;br \/&gt;\nThe power plant building contains the machinery for the production of electricity and the delivery cabin of the produced energy to the national distribution network at a voltage of 15 kV.&lt;\/p&gt;\n&lt;\/div&gt;\n' style='top: 67.9%; left: 15.9%; '><div class='av-image-hotspot_inner' style='background-color: #6086e8; color: #ffffff;'>4<\/div><div class='av-image-hotspot-pulse' style='background-color:#a6bdf5;'><\/div><\/div><div class='av-image-hotspot' data-avia-tooltip-position='top' data-avia-tooltip-alignment='left' data-avia-tooltip-class='av-tt-default-width av-tt-pos-above av-tt-align-left  av-mobile-fallback-active  main_color av-tt-hotspot' data-avia-tooltip='&lt;div class=&quot;my-container&quot;&gt;\n&lt;p&gt;[layerslider id=&#8221;8&#8243;]&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt; Meano Hydroelectric Power Plant \u2013 Pomaretto (TO) &lt;\/strong&gt;&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Concession data&lt;\/strong&gt;:&lt;br \/&gt;\n&lt;strong&gt;Average flow rate, m&lt;span style=&quot;vertical-align: super; font-size: .8em;&quot;&gt;3&lt;\/span&gt;&lt;\/strong&gt;: 2,70 mc\/s&lt;br \/&gt;\n&lt;strong&gt;Jump&lt;\/strong&gt;: 90,5 m&lt;br \/&gt;\n&lt;strong&gt;Average power, P&lt;\/strong&gt;: 2395,58 kW&lt;br \/&gt;\n&lt;strong&gt;Main equipment&lt;\/strong&gt;:&lt;br \/&gt;\nNo. 3 vertical axis Francis type turbines.&lt;br \/&gt;\nThe hydroelectric power plant is located in the Municipality of Pomaretto (TO)\u2028The intake structure, in part with a fixed embankment and in part with a sector sluice gate and upstream ladder for the ichtyofauna., is located in the Municipality of Perosa Argentina (TO) and derives the water from the Chisone stream, conveying the water on the orographic right of the stream.\u2028The derived water are fed into the Jartousiere artificial basin, with a total capacity of about 25,000 meters&lt;span style=&quot;vertical-align: super;&quot;&gt;3&lt;\/span&gt;, and then into the adduction channel, all in the tunnel, which extends for a length of about 2,150 m. At the end of the tunnel, the derived water is fed into a small charge basin from which the steel conduit, 585 m long with a diameter of 1,300 mm, starts, which brings the water to the power plant.&lt;br \/&gt;\nThe power plant building houses the 3 vertical axis Francis type hydroelectric units and the machinery used to transform the produced electrical energy.&lt;br \/&gt;\nThe discharge of the hydroelectric turbines conveys the swirled water into the charge channel of another hydroelectric power station of another property.&lt;br \/&gt;\nTo complete the production of electricity from renewable sources, a photovoltaic system with a power of 19.78 kWp has been installed on the roof of the plant.&lt;\/p&gt;\n&lt;\/div&gt;\n' style='top: 64.9%; left: 17.7%; '><div class='av-image-hotspot_inner' style='background-color: #6086e8; color: #ffffff;'>5<\/div><div class='av-image-hotspot-pulse' style='background-color:#a6bdf5;'><\/div><\/div><div class='av-image-hotspot' data-avia-tooltip-position='top' data-avia-tooltip-alignment='left' data-avia-tooltip-class='av-tt-default-width av-tt-pos-above av-tt-align-left  av-mobile-fallback-active  main_color av-tt-hotspot' data-avia-tooltip='&lt;div class=&quot;my-container&quot;&gt;\n&lt;p&gt;[layerslider id=&#8221;7&#8243;]&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Germagnano Hydroelectric Power Plant \u2013 Lanzo Torinese (TO)&lt;\/strong&gt;&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Concession data&lt;\/strong&gt;:&lt;br \/&gt;\n&lt;strong&gt;Average flow rate, m&lt;span style=&quot;vertical-align: super; font-size: .8em;&quot;&gt;3&lt;\/span&gt;&lt;\/strong&gt;: 6,22 mc\/s&lt;br \/&gt;\n&lt;strong&gt;Jump&lt;\/strong&gt;: 39,45 m&lt;br \/&gt;\n&lt;strong&gt;Average power, P&lt;\/strong&gt;: 2406 kW&lt;br \/&gt;\n&lt;strong&gt;Main equipment&lt;\/strong&gt;:&lt;br \/&gt;\nNo. 2 vertical axis Francis type turbines&lt;br \/&gt;\nThe hydroelectric power plant is located in Colombaro in the Municipality of Lanzo Torinese (TO). \u2028The intake structure, on the left bank, derives the water from the Stura di Lanzo stream through an embankment with mobile sluice gates. At the embankment on the right bank, there is the upstream ladder for the ichtyofauna.\u2028At about 100 m. from the crossbeam the water derived from the stream joins the water discharged from the power plant owned by third parties located in Funghera to be fed into the adduction channel.\u2028The adduction channel, about 1,700 m. long, part in tunnel and part in open air, ends in a charge chamber which feeds the steel forced conduit of 1,900 mm diameter and equal to about 260 m. long.\u2028The power plant building contains the electromechanical equipment used for the production and transformation of the produced electrical energy.\u2028The discharge channel, about 130 m. long, returns the swirled water to the Stura di Lanzo stream.&lt;\/p&gt;\n&lt;\/div&gt;\n' style='top: 55.8%; left: 19.6%; '><div class='av-image-hotspot_inner' style='background-color: #6086e8; color: #ffffff;'>6<\/div><div class='av-image-hotspot-pulse' style='background-color:#a6bdf5;'><\/div><\/div><div class='av-image-hotspot' data-avia-tooltip-position='top' data-avia-tooltip-alignment='left' data-avia-tooltip-class='av-tt-default-width av-tt-pos-above av-tt-align-left  av-mobile-fallback-active  main_color av-tt-hotspot' data-avia-tooltip='&lt;div class=&quot;my-container&quot;&gt;\n&lt;p&gt;[layerslider id=&#8221;5&#8243;]&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt; Ceres Hydroelectric Power Plant \u2013 Ceres (TO) &lt;\/strong&gt;&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Concession data&lt;\/strong&gt;:&lt;br \/&gt;\n&lt;strong&gt;Average flow rate, m&lt;span style=&quot;vertical-align: super; font-size: .8em;&quot;&gt;3&lt;\/span&gt;&lt;\/strong&gt;: 3,87 mc\/s&lt;br \/&gt;\n&lt;strong&gt;Jump&lt;\/strong&gt;: 69,41 m&lt;br \/&gt;\n&lt;strong&gt;Average power, P&lt;\/strong&gt;: 2.633 kW&lt;br \/&gt;\n&lt;strong&gt;Main equipment&lt;\/strong&gt;:&lt;br \/&gt;\nNo. 3 Francis type turbines&lt;br \/&gt;\nThe hydroelectric power plant is located in the Gran Pr\u00e0 Region, in the Municipality of Ceres (TO), and is located on the left orographic side of the Stura di Ala stream.&lt;br \/&gt;\nThe derivation consists of two water intake structures, one deriving from the Stura di Val Grande (Cantoira intake) and one deriving from the Stura di Ala (Rusi\u00e0 intake). A tunnel channel transports water from the Cantoira intake to the Rusi\u00e0 derivation. In both intakes the upstream ladders for the ichtyofauna were constructed.&lt;br \/&gt;\nFrom the Rusi\u00e0 intake is developed, on the right side of the Valle di Ala, the derivation channel for a length of about 2,200 m., partially covered, which conveys the derived water to the charge basin from where the 1,800 mm. diameter steel conduit departs. The forced conduit crosses the Stura di Ala stream through a channel bridge and is inlet into the power plant to feed the three hydroelectric groups.&lt;br \/&gt;\nThe discharged water are then directed towards the intake of another hydraulic power plant owned by third parties.&lt;br \/&gt;\nThe produced energy is fed into the local distribution network at 30 kV.&lt;\/p&gt;\n&lt;\/div&gt;\n' style='top: 51.4%; left: 19.4%; '><div class='av-image-hotspot_inner' style='background-color: #6086e8; color: #ffffff;'>7<\/div><div class='av-image-hotspot-pulse' style='background-color:#a6bdf5;'><\/div><\/div><div class='av-image-hotspot' data-avia-tooltip-position='top' data-avia-tooltip-alignment='left' data-avia-tooltip-class='av-tt-default-width av-tt-pos-above av-tt-align-left  av-mobile-fallback-active  main_color av-tt-hotspot' data-avia-tooltip='&lt;div class=&quot;my-container&quot;&gt;\n&lt;p&gt;[layerslider id=&#8221;14&#8243;]&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Vert Hydroelectric Power Plant \u2013 Donnas (AO)&lt;\/strong&gt;&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Concession data&lt;\/strong&gt;:&lt;br \/&gt;\n&lt;strong&gt;Average flow rate, m&lt;span style=&quot;vertical-align: super; font-size: .8em;&quot;&gt;3&lt;\/span&gt;&lt;\/strong&gt;: 46,00 mc\/s&lt;br \/&gt;\n&lt;strong&gt;Jump&lt;\/strong&gt;: 12,18 m&lt;br \/&gt;\n&lt;strong&gt;Average power, P&lt;\/strong&gt;: 5492,94 kW&lt;br \/&gt;\n&lt;strong&gt;Main equipment&lt;\/strong&gt;:&lt;br \/&gt;\nNo. 2 vertical axis bi-regulating Kaplan type turbines&lt;br \/&gt;\nThe hydroelectric power plant is located in No. 150, via Grand Vert, &#8211; in the Municipality of Donnas (AO).&lt;br \/&gt;\nThe power plant derives the water from the Dora Baltea River through a fixed-threshold intake structure and mobile sluice gates, feeding of the adduction channel, about 1,500 m. long in part in the tunnel and in part in the open air, takes place on the right orographic bank of the river.&lt;br \/&gt;\nIn the power plant, electricity is produced by 2 Kaplan turbines; delivery to the national electricity network takes place in an adjacent external area. The produced electricity is raised to a voltage of 132 kV (High Voltage) and has the possibility of being fed, not simultaneously, on two different transport lines owned by Terna.&lt;br \/&gt;\nThe power plant returns the water just upstream from the confluence of the Dora Baltea River with the Lys stream, through an 800 m. long channel.&lt;\/p&gt;\n&lt;\/div&gt;\n' style='top: 47.3%; left: 23.2%; '><div class='av-image-hotspot_inner' style='background-color: #6086e8; color: #ffffff;'>8<\/div><div class='av-image-hotspot-pulse' style='background-color:#a6bdf5;'><\/div><\/div><div class='av-image-hotspot' data-avia-tooltip-position='top' data-avia-tooltip-alignment='left' data-avia-tooltip-class='av-tt-default-width av-tt-pos-above av-tt-align-left  av-mobile-fallback-active  main_color av-tt-hotspot' data-avia-tooltip='&lt;div class=&quot;my-container&quot;&gt;\n&lt;p&gt;[layerslider id=&#8221;13&#8243;]&lt;strong&gt;Donnas Hydroelectric Power Plant \u2013 Donnas (AO)&lt;\/strong&gt;&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Concession data&lt;\/strong&gt;:&lt;br \/&gt;\n&lt;strong&gt;Average flow rate, m&lt;span style=&quot;vertical-align: super; font-size: .8em;&quot;&gt;3&lt;\/span&gt;&lt;\/strong&gt;: 18,00 mc\/s&lt;br \/&gt;\n&lt;strong&gt;Jump&lt;\/strong&gt;: 5,49 m&lt;br \/&gt;\n&lt;strong&gt;Average power, P&lt;\/strong&gt;: 968,82 kW&lt;br \/&gt;\n&lt;strong&gt;Main equipment&lt;\/strong&gt;:&lt;br \/&gt;\nNo. 1 vertical axis bi-regulating Kaplan type turbine&lt;br \/&gt;\nNo. 1 vertical axis electrical current generator&lt;br \/&gt;\nNo. 1 power transformer&lt;br \/&gt;\nNo. 1 auxiliary services transformer&lt;br \/&gt;\nThe hydraulic power plant is located in No. 1, via Roma \u2013 Municipality of Donnas (AO)\u2028The Donnas power plant is a flowing water plant that takes the discharge water from the Bard C.V.A. power plant. The intake structure, called &#8220;San Giovanni&#8221;, is located about 50 m. from the discharge of the upstream power plant and intercepts the water through the opening of the channel entrance sluice gates and the consequent closure of the discharge sluice gates in the riverbed of the Dora Baltea River.&lt;br \/&gt;\nFrom the San Giovanni junction an open air channel starts, about 700 m. long, which leads the water to the power plant for the production of electricity.&lt;br \/&gt;\nDownstream of the turbine, the water is returned to the Dora Baltea natural riverbed through a covered channel of about 100 m., where, at a short distance, meets the embankment of the power plant called &#8220;Vert&#8221; owned by SIED.&lt;br \/&gt;\nThe produced energy is delivered to the local distribution network at 300 m. from the place of production.&lt;\/p&gt;\n&lt;\/div&gt;\n' style='top: 43.1%; left: 23.4%; '><div class='av-image-hotspot_inner' style='background-color: #6086e8; color: #ffffff;'>9<\/div><div class='av-image-hotspot-pulse' style='background-color:#a6bdf5;'><\/div><\/div><div class='av-image-hotspot' data-avia-tooltip-position='top' data-avia-tooltip-alignment='left' data-avia-tooltip-class='av-tt-default-width av-tt-pos-above av-tt-align-left  av-mobile-fallback-active  main_color av-tt-hotspot' data-avia-tooltip='&lt;div class=&quot;my-container&quot;&gt;\n&lt;p&gt;[layerslider id=&#8221;11&#8243;]&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;MORA Hydroelectric Power Plant \u2013 Romagnano Sesia (NO)&lt;\/strong&gt;&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Concession data&lt;\/strong&gt;:&lt;br \/&gt;\n&lt;strong&gt;Average flow rate, m&lt;span style=&quot;vertical-align: super; font-size: .8em;&quot;&gt;3&lt;\/span&gt;&lt;\/strong&gt;: 8,30 mc\/s&lt;br \/&gt;\n&lt;strong&gt;Jump&lt;\/strong&gt;: 5,25 m&lt;br \/&gt;\n&lt;strong&gt;Average power, P&lt;\/strong&gt;: 433,25 kW&lt;br \/&gt;\n&lt;strong&gt;Main equipment&lt;\/strong&gt;:&lt;br \/&gt;\nNo. 1 vertical axis Kaplan type turbine&lt;br \/&gt;\nThe hydroelectric power plant is in the Municipality of Romagnano Sesia (NO)\u2028The power plant is on a historic canal called &#8220;Roggia Mora&#8221; dating back to the fifteenth century for irrigation purposes, derived from the Sesia River, about 1,500 m. upstream of the Mora power plant, in which there are 6 other hydroelectric units owned by third parties.&lt;br \/&gt;\nThe power plant building partially occupies the Roggia Mora riverbed and in the power plant building there is a vertical axis Kaplan turbine and the machinery used for the transformation of the produced electric energy.&lt;br \/&gt;\nThe swirled water continues in the &#8220;Roggia Mora&#8221; canal towards the other power plants owned by third parties.&lt;br \/&gt;\nThe energy produced is fed into the national 15 kV electricity network directly in the hydraulic power plant.&lt;\/p&gt;\n&lt;\/div&gt;\n' style='top: 40.2%; left: 29.4%; '><div class='av-image-hotspot_inner' style='background-color: #6086e8; color: #ffffff;'>10<\/div><div class='av-image-hotspot-pulse' style='background-color:#a6bdf5;'><\/div><\/div><div class='av-image-hotspot' data-avia-tooltip-position='top' data-avia-tooltip-alignment='left' data-avia-tooltip-class='av-tt-default-width av-tt-pos-above av-tt-align-left  av-mobile-fallback-active  main_color av-tt-hotspot' data-avia-tooltip='&lt;div class=&quot;my-container&quot;&gt;\n&lt;p&gt;[layerslider id=&#8221;6&#8243;]&lt;strong&gt;Giarola Hydroelectric Power Plant \u2013 Grignasco (NO)&lt;\/strong&gt;&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Concession data&lt;\/strong&gt;:&lt;br \/&gt;\n&lt;strong&gt;Average flow rate, m&lt;span style=&quot;vertical-align: super; font-size: .8em;&quot;&gt;3&lt;\/span&gt;&lt;\/strong&gt;: 10,00 mc\/s&lt;br \/&gt;\n&lt;strong&gt;Jump&lt;\/strong&gt;: 9,99 m&lt;br \/&gt;\n&lt;strong&gt;Average power, P&lt;\/strong&gt;: 979,41 kW&lt;br \/&gt;\n&lt;strong&gt;Main equipment&lt;\/strong&gt;:&lt;br \/&gt;\nNo. 2 vertical axis bi-regulating Kaplan type turbines&lt;br \/&gt;\nThe hydraulic power plant is located in the Municipality of Grignasco (NO), and is on an artificial canal, which derives water from the Sesia River, called &#8220;Canale della Filatura&#8221;. This canal is also used by another SIED-owned power plant and by other third-party power plants.&lt;br \/&gt;\nThe produced energy is conveyed to the delivery point of the local distribution network through an approximately 500 m. long underground line.&lt;\/p&gt;\n&lt;\/div&gt;\n' style='top: 43.1%; left: 31%; '><div class='av-image-hotspot_inner' style='background-color: #6086e8; color: #ffffff;'>11<\/div><div class='av-image-hotspot-pulse' style='background-color:#a6bdf5;'><\/div><\/div><div class='av-image-hotspot' data-avia-tooltip-position='top' data-avia-tooltip-alignment='left' data-avia-tooltip-class='av-tt-default-width av-tt-pos-above av-tt-align-left  av-mobile-fallback-active  main_color av-tt-hotspot' data-avia-tooltip='&lt;div class=&quot;my-container&quot;&gt;\n&lt;p&gt;[layerslider id=&#8221;10&#8243;]&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Isola Hydroelectric Power Plant \u2013 Prato Sesia (NO)&lt;\/strong&gt;&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Concession data&lt;\/strong&gt;:&lt;br \/&gt;\n&lt;strong&gt;Average flow rate, m&lt;span style=&quot;vertical-align: super; font-size: .8em;&quot;&gt;3&lt;\/span&gt;&lt;\/strong&gt;: 10,00 mc\/s&lt;br \/&gt;\n&lt;strong&gt;Jump&lt;\/strong&gt;: 4,89 m&lt;br \/&gt;\n&lt;strong&gt;Average power, P&lt;\/strong&gt;: 479,41 kW&lt;br \/&gt;\n&lt;strong&gt;Main equipment&lt;\/strong&gt;:&lt;br \/&gt;\nNo. 1 vertical axis Kaplan type turbine&lt;br \/&gt;\nThe hydraulic power plant is located in the Municipality of Prato Sesia (NO)\u2028The power plant is located on the \u201cCanale della Filatura\u201d canal in cascade to the Giarola power plant.\u2028In the power plant building there is a vertical axis Kaplan turbine and the equipment used for the transformation of the produced electricity. \u2028The produced electricity is transported from the hydraulic power plant to the delivery cabin through an aerial helicoid line about 900 m. long and an underground line approx. 500 m. long.&lt;\/p&gt;\n&lt;\/div&gt;\n' style='top: 41.3%; left: 32.6%; '><div class='av-image-hotspot_inner' style='background-color: #6086e8; color: #ffffff;'>12<\/div><div class='av-image-hotspot-pulse' style='background-color:#a6bdf5;'><\/div><\/div><div class='av-image-hotspot' data-avia-tooltip-position='top' data-avia-tooltip-alignment='left' data-avia-tooltip-class='av-tt-default-width av-tt-pos-above av-tt-align-left  av-mobile-fallback-active  main_color av-tt-hotspot' data-avia-tooltip='&lt;div class=&quot;my-container&quot;&gt;\n&lt;p&gt;[layerslider id=&#8221;15&#8243;]&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Oliero Hydroelectric Power Plant \u2013 Campolongo sul Brenta (VI)&lt;\/strong&gt;&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Concession data&lt;\/strong&gt;:&lt;br \/&gt;\n&lt;strong&gt;Average flow rate, m&lt;span style=&quot;vertical-align: super; font-size: .8em;&quot;&gt;3&lt;\/span&gt;&lt;\/strong&gt;: 7,50 mc\/s&lt;br \/&gt;\n&lt;strong&gt;Jump&lt;\/strong&gt;: 13,78 m&lt;br \/&gt;\n&lt;strong&gt;Average power, P&lt;\/strong&gt;: 1013,86 kW&lt;br \/&gt;\n&lt;strong&gt;Main equipment&lt;\/strong&gt;:&lt;br \/&gt;\nNo. 2 horizontal axis Francis type turbines&lt;br \/&gt;\nThe hydroelectric power plant is located in No. 17, via Giusti, &#8211; Municipality of Campolongo sul Brenta (VI).&lt;br \/&gt;\nThe intake structure of the power plant is located at the &#8220;Grotte di Oliero&#8221;, where the water is derived from the gushing out of these caves.&lt;br \/&gt;\nA control system combined with a series of automatic sluice gates keeps the water level constant in the basin.&lt;br \/&gt;\nThe derived water is fed into a masonry channel, in part in the tunnel and in part in the open air about 2,000 m. long, which reaches the power plant hugging along the Municipal road on the right orographic bank of the Brenta River.&lt;br \/&gt;\nIn the power plant the production of electric energy takes place by means of 2 Francis turbines; the swirled water is returned to the Brenta River through a short artificial canal.&lt;br \/&gt;\nThe produced electricity is fed into the local 15 kV distribution network directly on site.&lt;\/p&gt;\n&lt;\/div&gt;\n' style='top: 37.2%; left: 70.1%; '><div class='av-image-hotspot_inner' style='background-color: #6086e8; color: #ffffff;'>13<\/div><div class='av-image-hotspot-pulse' style='background-color:#a6bdf5;'><\/div><\/div><div class='av-image-hotspot' data-avia-tooltip-position='top' data-avia-tooltip-alignment='left' data-avia-tooltip-class='av-tt-default-width av-tt-pos-above av-tt-align-left  av-mobile-fallback-active  main_color av-tt-hotspot' data-avia-tooltip='&lt;div class=&quot;my-container&quot;&gt;\n&lt;p&gt;[layerslider id=&#8221;17&#8243;]&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Ponte della Gobba Hydroelectric Power Plant \u2013 Treviso (TV)&lt;\/strong&gt;&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Concession data&lt;\/strong&gt;:&lt;br \/&gt;\n&lt;strong&gt;Average flow rate, m&lt;span style=&quot;vertical-align: super; font-size: .8em;&quot;&gt;3&lt;\/span&gt;&lt;\/strong&gt;: 37,00 mc\/s&lt;br \/&gt;\n&lt;strong&gt;Jump&lt;\/strong&gt;: 2,41 m&lt;br \/&gt;\n&lt;strong&gt;Average power, P&lt;\/strong&gt;: 874 KW&lt;br \/&gt;\n&lt;strong&gt;Main equipment&lt;\/strong&gt;:&lt;br \/&gt;\nNo. 2 horizontal axis bi-regulating Kaplan type turbines&lt;br \/&gt;\nThe hydraulic power plant is located in No. 2, via Alzaia, in the central area of the city of Treviso.&lt;br \/&gt;\nThe power plant is constructed directly on the Sile River and exploits a jump of 2.4 meters without resorting to forced conduits and returns immediately downstream the swirled water.&lt;br \/&gt;\nThe embankment is equipped with an automatic sluice gate for river level regulation.&lt;br \/&gt;\nAdjacent to the power plant there is the upstream ladder for the ichtyofauna.&lt;br \/&gt;\nThe produced electricity is fed into the local 15 kV distribution network directly on site.&lt;\/p&gt;\n&lt;\/div&gt;\n' style='top: 43.1%; left: 77.7%; '><div class='av-image-hotspot_inner' style='background-color: #6086e8; color: #ffffff;'>14<\/div><div class='av-image-hotspot-pulse' style='background-color:#a6bdf5;'><\/div><\/div><div class='av-image-hotspot' data-avia-tooltip-position='top' data-avia-tooltip-alignment='left' data-avia-tooltip-class='av-tt-default-width av-tt-pos-above av-tt-align-left  av-mobile-fallback-active  main_color av-tt-hotspot' data-avia-tooltip='&lt;div class=&quot;my-container&quot;&gt;\n&lt;p&gt;[layerslider id=&#8221;16&#8243;]&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Silea Hydroelectric Power Plant \u2013 Silea (TV)&lt;\/strong&gt;&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Concession data&lt;\/strong&gt;:&lt;br \/&gt;\n&lt;strong&gt;Average flow rate, m&lt;span style=&quot;vertical-align: super; font-size: .8em;&quot;&gt;3&lt;\/span&gt;&lt;\/strong&gt;: 46,50 mc\/s&lt;br \/&gt;\n&lt;strong&gt;Jump&lt;\/strong&gt;: 3,8 m&lt;br \/&gt;\n&lt;strong&gt;Average power, P&lt;\/strong&gt;: 1.732 kW&lt;br \/&gt;\n&lt;strong&gt;Main equipment&lt;\/strong&gt;:&lt;br \/&gt;\nNo. 2 vertical-axis bi-regulating Kaplan type turbines.&lt;br \/&gt;\nThe hydraulic power plant is located in No. 50, via dei Tappi, &#8211; Municipality of Silea (TV)&lt;br \/&gt;\nThe power plant is constructed directly on the Sile River and exploits a jump of 3.8 meters without resorting to forced conduits.&lt;br \/&gt;\nAt the side of the power plan and the embankment, on the left bank of the river, there is a navigation basin that allows small boats to go downstream or upstream the river; on the right orographic side of the power plant there are automatic sluice gates to lighten the hydraulic charge.&lt;br \/&gt;\nThe power plant returns immediately the swirled water to the Sile River.&lt;br \/&gt;\nDownstream of the power plant there is an upstream ladder for the ichtyofauna specific for eels and lampreys.&lt;br \/&gt;\nThe produced electricity is fed into the local 15 kV distribution network directly on site.&lt;\/p&gt;\n&lt;\/div&gt;\n' style='top: 46.3%; left: 79.5%; '><div class='av-image-hotspot_inner' style='background-color: #6086e8; color: #ffffff;'>15<\/div><div class='av-image-hotspot-pulse' style='background-color:#a6bdf5;'><\/div><\/div><div class='av-image-hotspot' data-avia-tooltip-position='top' data-avia-tooltip-alignment='left' data-avia-tooltip-class='av-tt-default-width av-tt-pos-above av-tt-align-left  av-mobile-fallback-active  main_color av-tt-hotspot' data-avia-tooltip='&lt;div class=&quot;my-container&quot;&gt;\n&lt;div class=&quot;my-container&quot;&gt;\n&lt;p&gt;[layerslider id=&#8221;18&#8243;]&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;Magnanins Hydroelectric Power Plant \u2013 Rigolato (UD)&lt;br \/&gt;\n&lt;\/strong&gt;&lt;br \/&gt;\n&lt;strong&gt;Concession data&lt;\/strong&gt;:&lt;br \/&gt;\n&lt;strong&gt;Average flow rate, m&lt;span style=&quot;vertical-align: super; font-size: .8em;&quot;&gt;3&lt;\/span&gt;&lt;\/strong&gt;: 1,91 mc\/s&lt;br \/&gt;\n&lt;strong&gt;Jump&lt;\/strong&gt;: 158,8 m&lt;br \/&gt;\n&lt;strong&gt;Average power, P&lt;\/strong&gt;: 2.974 KW&lt;br \/&gt;\n&lt;strong&gt;Main equipment&lt;\/strong&gt;:&lt;br \/&gt;\nNo. 2 horizontal axis Francis turbines&lt;\/p&gt;\n&lt;p&gt;The hydraulic power plant is located in Magnanins &#8211; Municipality of Rigolato (UD). The power plant uses the water of the Degano stream derived from the fixed-threshold embankment in the Ponte Coperto location, on the orographic right-hand side, and through a reinforced concrete channel of about 2,000 m. in length, in part in tunnels and in part in open-air, it reaches the charge basin; from here, through a forced conduit, part in reinforced concrete and part in steel diameter 1,200 mm., and length of about 550 m., it reaches the turbines.&lt;br \/&gt;\nThe power plant building, containing the electromechanical machinery for the production of electricity, is located on the right bank of the Degano stream where it discharges the swirled water through a short channel.&lt;br \/&gt;\nThe produced energy is fed into the network at the common delivery point of Ovaro (UD) through an aerial line of about 13 km long.&lt;\/p&gt;\n&lt;\/div&gt;\n&lt;\/div&gt;\n' style='top: 17.7%; left: 86.4%; '><div class='av-image-hotspot_inner' style='background-color: #6086e8; color: #ffffff;'>16<\/div><div class='av-image-hotspot-pulse' style='background-color:#a6bdf5;'><\/div><\/div><div class='av-image-hotspot' data-avia-tooltip-position='top' data-avia-tooltip-alignment='left' data-avia-tooltip-class='av-tt-default-width av-tt-pos-above av-tt-align-left  av-mobile-fallback-active  main_color av-tt-hotspot' data-avia-tooltip='&lt;div class=&quot;my-container&quot;&gt;\n&lt;p&gt;[layerslider id=&#8221;2&#8243;]&lt;\/p&gt;\n&lt;p&gt;&lt;strong&gt;San Antonio Hydroelectric Power Plant \u2013 Tarvisio (UD)&lt;br \/&gt;\n&lt;\/strong&gt;&lt;br \/&gt;\n&lt;strong&gt;Concession data&lt;\/strong&gt;:&lt;br \/&gt;\n&lt;strong&gt;Average flow rate, m&lt;span style=&quot;vertical-align: super; font-size: .8em;&quot;&gt;3&lt;\/span&gt;&lt;\/strong&gt;: 1,76 mc\/s&lt;br \/&gt;\n&lt;strong&gt;Jump&lt;\/strong&gt;: 43,38 m&lt;br \/&gt;\n&lt;strong&gt;Average power, P&lt;\/strong&gt;: 749 KW&lt;br \/&gt;\n&lt;strong&gt;Main equipment&lt;\/strong&gt;:&lt;br \/&gt;\nNo. 2 Francis type turbines&lt;br \/&gt;\nThe hydraulic power plant is located in San Antonio &#8211; Municipality of Tarvisio (UD)&lt;br \/&gt;\nThe power plant derives the water at the confluence of the Rio Lago and the Rio Bianco through a fixed threshold embankment equipped with a sand collector sluice gate and upstream ladder for the ichtyofauna.&lt;br \/&gt;\nFrom here starts the underground channel, about 1,100 m. long, from which starts the forced conduit, constructed in the initial stretch in reinforced concrete and in the final stretch in steel, for a total length of about 900 m.&lt;br \/&gt;\nThe swirled water is discharged through a short covered channel into the Rio Bianco stream.&lt;br \/&gt;\nThe power plant building houses the two Francis groups and the delivery cabin of the produced electricity to the local distribution network in Medium Voltage.&lt;\/p&gt;\n&lt;\/div&gt;\n' style='top: 18.5%; left: 92.2%; '><div class='av-image-hotspot_inner' style='background-color: #6086e8; color: #ffffff;'>17<\/div><div class='av-image-hotspot-pulse' style='background-color:#a6bdf5;'><\/div><\/div><img class='avia_image ' src='https:\/\/www.siedenergia.it\/wp-content\/uploads\/2018\/07\/cartina-sied-italia.png' alt='' title='cartina-sied-italia'   itemprop=\"thumbnailUrl\"  \/><\/div><\/div><\/div><div class='av-hotspot-fallback-tooltip'><div class='av-hotspot-fallback-tooltip-count'>1<div class='avia-arrow'><\/div><\/div><div class='av-hotspot-fallback-tooltip-inner clearfix'><div class=\"my-container\">\n<p>[layerslider id=&#8221;3&#8243;]<\/p>\n<p><strong>Forani Hydroelectric Power Plant \u2013 Aisone (CN)<\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 6,36 mc\/s<br \/>\n<strong>Jump<\/strong>: 45,65 m<br \/>\n<strong>Average power, P<\/strong>: 2.846 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 3 turbines of the Francis type\u2028The hydroelectric power plant is located in Forani, Municipality of Aisone (CN), and is on the orographic right side of the Stura di Demonte stream.\u2028The intake structure captures water directly from the discharge channel of the Vinadio hydroelectric power plant.\u2028From the intake structure starts the forced conduit, completely underground , about 3.2 km long with a 3.00 m. diameter \u2013\u2013 which reaches, after a jump of about 45 m, the power plant building which hosts the electromechanical plants.\u2028The water, after having been swirled, are returned to the Stura di Demonte stream through a reinforced concrete discharge channel about 150 m. long, also completely underground.\u2028The electrical energy produced is fed into the 15 KV national distribution network, directly on site.<\/p>\n<\/div>\n<\/div><\/div><div class='av-hotspot-fallback-tooltip'><div class='av-hotspot-fallback-tooltip-count'>2<div class='avia-arrow'><\/div><\/div><div class='av-hotspot-fallback-tooltip-inner clearfix'><div class=\"my-container\">\n<p>[layerslider id=&#8221;12&#8243;]<\/p>\n<p><strong> Venasca Hydroelectric Power Plant \u2013 Venasca (CN) <\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 4,526 mc\/s<br \/>\n<strong>Jump<\/strong>: 22,42 m<br \/>\n<strong>Average power, P<\/strong>: 994,83 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 1 vertical axis Kaplan type turbine and No. 1 vertical axis Francis type turbine\u2028The hydroelectric power plant is in the San Bartolomeo Region \u2013 Municipality of Venasca (CN)\u2028The power plant exploits a derivation of water from the Varaita stream through a reinforced concrete fixed crosspiece, equipped with a sand collector sluice gate and upstream ladder for the ichtyofauna.\u2028The derived water is fed into a predominantly open artificial channel, for a length of about 1,500 m., up to a charge basin.\u2028From the charge basin, a 90 meter long forced conduit starts, which, underpassing the SP 8 Road, enters the power plant to feed the two hydraulic turbines.<br \/>\nThe drainage channel brings the swirled water up to the hydraulic junction called &#8220;Rocca del Pilone&#8221; where it is directed in a channel, owned by third parties, for irrigation and energy use.<br \/>\nThe electricity produced is fed into the national network at a voltage of 15 kV.<\/p>\n<\/div>\n<\/div><\/div><div class='av-hotspot-fallback-tooltip'><div class='av-hotspot-fallback-tooltip-count'>3<div class='avia-arrow'><\/div><\/div><div class='av-hotspot-fallback-tooltip-inner clearfix'><div class=\"my-container\">\n<p>[layerslider id=&#8221;4&#8243;]<\/p>\n<p><strong> Calcinere Hydroelectric Power Plant \u2013 Paesana (CN) <\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 2,42 mc\/s<br \/>\n<strong>Jump<\/strong>: 545,75 m<br \/>\n<strong>Average power, P<\/strong>: 13.060 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 4 horizontal axis single-jet Pelton type turbines.<br \/>\nThe hydroelectric power plant is in the Calcinere hamlet in the Municipality of Paesana (CN). The derivative canal, approx. 10.5 km partly in open air and partly in the tunnel, captures the water of several streams among which the Po and the Lenta.<br \/>\nThe adduction channel feeds the charge chamber called Biatonet from which starts the pressure tunnel that conveys the derived water in the forced conduits, these, made of riveted steel and with a total length of about 1,250 m., feed the No. 4 horizontal axis Pelton turbines of the power plant.<br \/>\nThe swirled water are discharged into a basin adherent to the power plant building and then returned to the valley.<br \/>\nThe energy produced is raised to 70 kV (High Voltage) and transported with an electrical aerial line, about 13 km long, to the delivery point located in the Municipality of Sanfront (CN) joint. In the Sanfront substation there is a 70\/132 kV elevator transformer for the final delivery of energy to Terna&#8217;s national network.<\/p>\n<p style=\"text-align: center; width: 100%;\"><a style=\"color: #4e71e5; font-size: 18px;\" href=\"\/wp-content\/uploads\/2019\/03\/Codice_Etico_Calcinere.pdf\" target=\"_blank\" rel=\"noopener\">Ethical code (IT)<\/a> &#8211; <a style=\"color: #4e71e5; font-size: 18px;\" href=\"\/wp-content\/uploads\/2019\/03\/Politica_SGSL_Calcinere.pdf\" target=\"_blank\" rel=\"noopener\">SGSL Policy (IT)<\/a><\/p>\n<\/div>\n<\/div><\/div><div class='av-hotspot-fallback-tooltip'><div class='av-hotspot-fallback-tooltip-count'>4<div class='avia-arrow'><\/div><\/div><div class='av-hotspot-fallback-tooltip-inner clearfix'><div class=\"my-container\">\n<p>[layerslider id=&#8221;9&#8243;]<\/p>\n<p><strong> Tre Ponti Hydroelectric Power Plant \u2013 Prali (TO) <\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 8,00 mc\/s<br \/>\n<strong>Jump h<\/strong>: 122,50 m<br \/>\n<strong>Average power, P<\/strong>: 961 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 1 vertical axis Pelton type 6-jets turbine.<br \/>\nThe hydroelectric power plant is located along the SP 169 Road at Km 13+770 \u2013 Municipality of Prali (TO).\u2028The power plant is located in the Salza di Pinerolo (intake structure) and Prali (power plant) areas, in the Turin Province.<br \/>\nThe intake structure is located on the left orographic bank of the Germanasca stream through a fixed embankment equipped with a sand collector sluice gate and upstream ladder for the ichtyofauna.<br \/>\nFrom the charge basin, the forced conduit starts, made of steel and completely underground, with a 1,100 mm diameter and a length of 1,540 m.<br \/>\nThe power plant building contains the machinery for the production of electricity and the delivery cabin of the produced energy to the national distribution network at a voltage of 15 kV.<\/p>\n<\/div>\n<\/div><\/div><div class='av-hotspot-fallback-tooltip'><div class='av-hotspot-fallback-tooltip-count'>5<div class='avia-arrow'><\/div><\/div><div class='av-hotspot-fallback-tooltip-inner clearfix'><div class=\"my-container\">\n<p>[layerslider id=&#8221;8&#8243;]<\/p>\n<p><strong> Meano Hydroelectric Power Plant \u2013 Pomaretto (TO) <\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 2,70 mc\/s<br \/>\n<strong>Jump<\/strong>: 90,5 m<br \/>\n<strong>Average power, P<\/strong>: 2395,58 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 3 vertical axis Francis type turbines.<br \/>\nThe hydroelectric power plant is located in the Municipality of Pomaretto (TO)\u2028The intake structure, in part with a fixed embankment and in part with a sector sluice gate and upstream ladder for the ichtyofauna., is located in the Municipality of Perosa Argentina (TO) and derives the water from the Chisone stream, conveying the water on the orographic right of the stream.\u2028The derived water are fed into the Jartousiere artificial basin, with a total capacity of about 25,000 meters<span style=\"vertical-align: super;\">3<\/span>, and then into the adduction channel, all in the tunnel, which extends for a length of about 2,150 m. At the end of the tunnel, the derived water is fed into a small charge basin from which the steel conduit, 585 m long with a diameter of 1,300 mm, starts, which brings the water to the power plant.<br \/>\nThe power plant building houses the 3 vertical axis Francis type hydroelectric units and the machinery used to transform the produced electrical energy.<br \/>\nThe discharge of the hydroelectric turbines conveys the swirled water into the charge channel of another hydroelectric power station of another property.<br \/>\nTo complete the production of electricity from renewable sources, a photovoltaic system with a power of 19.78 kWp has been installed on the roof of the plant.<\/p>\n<\/div>\n<\/div><\/div><div class='av-hotspot-fallback-tooltip'><div class='av-hotspot-fallback-tooltip-count'>6<div class='avia-arrow'><\/div><\/div><div class='av-hotspot-fallback-tooltip-inner clearfix'><div class=\"my-container\">\n<p>[layerslider id=&#8221;7&#8243;]<\/p>\n<p><strong>Germagnano Hydroelectric Power Plant \u2013 Lanzo Torinese (TO)<\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 6,22 mc\/s<br \/>\n<strong>Jump<\/strong>: 39,45 m<br \/>\n<strong>Average power, P<\/strong>: 2406 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 2 vertical axis Francis type turbines<br \/>\nThe hydroelectric power plant is located in Colombaro in the Municipality of Lanzo Torinese (TO). \u2028The intake structure, on the left bank, derives the water from the Stura di Lanzo stream through an embankment with mobile sluice gates. At the embankment on the right bank, there is the upstream ladder for the ichtyofauna.\u2028At about 100 m. from the crossbeam the water derived from the stream joins the water discharged from the power plant owned by third parties located in Funghera to be fed into the adduction channel.\u2028The adduction channel, about 1,700 m. long, part in tunnel and part in open air, ends in a charge chamber which feeds the steel forced conduit of 1,900 mm diameter and equal to about 260 m. long.\u2028The power plant building contains the electromechanical equipment used for the production and transformation of the produced electrical energy.\u2028The discharge channel, about 130 m. long, returns the swirled water to the Stura di Lanzo stream.<\/p>\n<\/div>\n<\/div><\/div><div class='av-hotspot-fallback-tooltip'><div class='av-hotspot-fallback-tooltip-count'>7<div class='avia-arrow'><\/div><\/div><div class='av-hotspot-fallback-tooltip-inner clearfix'><div class=\"my-container\">\n<p>[layerslider id=&#8221;5&#8243;]<\/p>\n<p><strong> Ceres Hydroelectric Power Plant \u2013 Ceres (TO) <\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 3,87 mc\/s<br \/>\n<strong>Jump<\/strong>: 69,41 m<br \/>\n<strong>Average power, P<\/strong>: 2.633 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 3 Francis type turbines<br \/>\nThe hydroelectric power plant is located in the Gran Pr\u00e0 Region, in the Municipality of Ceres (TO), and is located on the left orographic side of the Stura di Ala stream.<br \/>\nThe derivation consists of two water intake structures, one deriving from the Stura di Val Grande (Cantoira intake) and one deriving from the Stura di Ala (Rusi\u00e0 intake). A tunnel channel transports water from the Cantoira intake to the Rusi\u00e0 derivation. In both intakes the upstream ladders for the ichtyofauna were constructed.<br \/>\nFrom the Rusi\u00e0 intake is developed, on the right side of the Valle di Ala, the derivation channel for a length of about 2,200 m., partially covered, which conveys the derived water to the charge basin from where the 1,800 mm. diameter steel conduit departs. The forced conduit crosses the Stura di Ala stream through a channel bridge and is inlet into the power plant to feed the three hydroelectric groups.<br \/>\nThe discharged water are then directed towards the intake of another hydraulic power plant owned by third parties.<br \/>\nThe produced energy is fed into the local distribution network at 30 kV.<\/p>\n<\/div>\n<\/div><\/div><div class='av-hotspot-fallback-tooltip'><div class='av-hotspot-fallback-tooltip-count'>8<div class='avia-arrow'><\/div><\/div><div class='av-hotspot-fallback-tooltip-inner clearfix'><div class=\"my-container\">\n<p>[layerslider id=&#8221;14&#8243;]<\/p>\n<p><strong>Vert Hydroelectric Power Plant \u2013 Donnas (AO)<\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 46,00 mc\/s<br \/>\n<strong>Jump<\/strong>: 12,18 m<br \/>\n<strong>Average power, P<\/strong>: 5492,94 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 2 vertical axis bi-regulating Kaplan type turbines<br \/>\nThe hydroelectric power plant is located in No. 150, via Grand Vert, &#8211; in the Municipality of Donnas (AO).<br \/>\nThe power plant derives the water from the Dora Baltea River through a fixed-threshold intake structure and mobile sluice gates, feeding of the adduction channel, about 1,500 m. long in part in the tunnel and in part in the open air, takes place on the right orographic bank of the river.<br \/>\nIn the power plant, electricity is produced by 2 Kaplan turbines; delivery to the national electricity network takes place in an adjacent external area. The produced electricity is raised to a voltage of 132 kV (High Voltage) and has the possibility of being fed, not simultaneously, on two different transport lines owned by Terna.<br \/>\nThe power plant returns the water just upstream from the confluence of the Dora Baltea River with the Lys stream, through an 800 m. long channel.<\/p>\n<\/div>\n<\/div><\/div><div class='av-hotspot-fallback-tooltip'><div class='av-hotspot-fallback-tooltip-count'>9<div class='avia-arrow'><\/div><\/div><div class='av-hotspot-fallback-tooltip-inner clearfix'><div class=\"my-container\">\n<p>[layerslider id=&#8221;13&#8243;]<strong>Donnas Hydroelectric Power Plant \u2013 Donnas (AO)<\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 18,00 mc\/s<br \/>\n<strong>Jump<\/strong>: 5,49 m<br \/>\n<strong>Average power, P<\/strong>: 968,82 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 1 vertical axis bi-regulating Kaplan type turbine<br \/>\nNo. 1 vertical axis electrical current generator<br \/>\nNo. 1 power transformer<br \/>\nNo. 1 auxiliary services transformer<br \/>\nThe hydraulic power plant is located in No. 1, via Roma \u2013 Municipality of Donnas (AO)\u2028The Donnas power plant is a flowing water plant that takes the discharge water from the Bard C.V.A. power plant. The intake structure, called &#8220;San Giovanni&#8221;, is located about 50 m. from the discharge of the upstream power plant and intercepts the water through the opening of the channel entrance sluice gates and the consequent closure of the discharge sluice gates in the riverbed of the Dora Baltea River.<br \/>\nFrom the San Giovanni junction an open air channel starts, about 700 m. long, which leads the water to the power plant for the production of electricity.<br \/>\nDownstream of the turbine, the water is returned to the Dora Baltea natural riverbed through a covered channel of about 100 m., where, at a short distance, meets the embankment of the power plant called &#8220;Vert&#8221; owned by SIED.<br \/>\nThe produced energy is delivered to the local distribution network at 300 m. from the place of production.<\/p>\n<\/div>\n<\/div><\/div><div class='av-hotspot-fallback-tooltip'><div class='av-hotspot-fallback-tooltip-count'>10<div class='avia-arrow'><\/div><\/div><div class='av-hotspot-fallback-tooltip-inner clearfix'><div class=\"my-container\">\n<p>[layerslider id=&#8221;11&#8243;]<\/p>\n<p><strong>MORA Hydroelectric Power Plant \u2013 Romagnano Sesia (NO)<\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 8,30 mc\/s<br \/>\n<strong>Jump<\/strong>: 5,25 m<br \/>\n<strong>Average power, P<\/strong>: 433,25 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 1 vertical axis Kaplan type turbine<br \/>\nThe hydroelectric power plant is in the Municipality of Romagnano Sesia (NO)\u2028The power plant is on a historic canal called &#8220;Roggia Mora&#8221; dating back to the fifteenth century for irrigation purposes, derived from the Sesia River, about 1,500 m. upstream of the Mora power plant, in which there are 6 other hydroelectric units owned by third parties.<br \/>\nThe power plant building partially occupies the Roggia Mora riverbed and in the power plant building there is a vertical axis Kaplan turbine and the machinery used for the transformation of the produced electric energy.<br \/>\nThe swirled water continues in the &#8220;Roggia Mora&#8221; canal towards the other power plants owned by third parties.<br \/>\nThe energy produced is fed into the national 15 kV electricity network directly in the hydraulic power plant.<\/p>\n<\/div>\n<\/div><\/div><div class='av-hotspot-fallback-tooltip'><div class='av-hotspot-fallback-tooltip-count'>11<div class='avia-arrow'><\/div><\/div><div class='av-hotspot-fallback-tooltip-inner clearfix'><div class=\"my-container\">\n<p>[layerslider id=&#8221;6&#8243;]<strong>Giarola Hydroelectric Power Plant \u2013 Grignasco (NO)<\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 10,00 mc\/s<br \/>\n<strong>Jump<\/strong>: 9,99 m<br \/>\n<strong>Average power, P<\/strong>: 979,41 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 2 vertical axis bi-regulating Kaplan type turbines<br \/>\nThe hydraulic power plant is located in the Municipality of Grignasco (NO), and is on an artificial canal, which derives water from the Sesia River, called &#8220;Canale della Filatura&#8221;. This canal is also used by another SIED-owned power plant and by other third-party power plants.<br \/>\nThe produced energy is conveyed to the delivery point of the local distribution network through an approximately 500 m. long underground line.<\/p>\n<\/div>\n<\/div><\/div><div class='av-hotspot-fallback-tooltip'><div class='av-hotspot-fallback-tooltip-count'>12<div class='avia-arrow'><\/div><\/div><div class='av-hotspot-fallback-tooltip-inner clearfix'><div class=\"my-container\">\n<p>[layerslider id=&#8221;10&#8243;]<\/p>\n<p><strong>Isola Hydroelectric Power Plant \u2013 Prato Sesia (NO)<\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 10,00 mc\/s<br \/>\n<strong>Jump<\/strong>: 4,89 m<br \/>\n<strong>Average power, P<\/strong>: 479,41 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 1 vertical axis Kaplan type turbine<br \/>\nThe hydraulic power plant is located in the Municipality of Prato Sesia (NO)\u2028The power plant is located on the \u201cCanale della Filatura\u201d canal in cascade to the Giarola power plant.\u2028In the power plant building there is a vertical axis Kaplan turbine and the equipment used for the transformation of the produced electricity. \u2028The produced electricity is transported from the hydraulic power plant to the delivery cabin through an aerial helicoid line about 900 m. long and an underground line approx. 500 m. long.<\/p>\n<\/div>\n<\/div><\/div><div class='av-hotspot-fallback-tooltip'><div class='av-hotspot-fallback-tooltip-count'>13<div class='avia-arrow'><\/div><\/div><div class='av-hotspot-fallback-tooltip-inner clearfix'><div class=\"my-container\">\n<p>[layerslider id=&#8221;15&#8243;]<\/p>\n<p><strong>Oliero Hydroelectric Power Plant \u2013 Campolongo sul Brenta (VI)<\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 7,50 mc\/s<br \/>\n<strong>Jump<\/strong>: 13,78 m<br \/>\n<strong>Average power, P<\/strong>: 1013,86 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 2 horizontal axis Francis type turbines<br \/>\nThe hydroelectric power plant is located in No. 17, via Giusti, &#8211; Municipality of Campolongo sul Brenta (VI).<br \/>\nThe intake structure of the power plant is located at the &#8220;Grotte di Oliero&#8221;, where the water is derived from the gushing out of these caves.<br \/>\nA control system combined with a series of automatic sluice gates keeps the water level constant in the basin.<br \/>\nThe derived water is fed into a masonry channel, in part in the tunnel and in part in the open air about 2,000 m. long, which reaches the power plant hugging along the Municipal road on the right orographic bank of the Brenta River.<br \/>\nIn the power plant the production of electric energy takes place by means of 2 Francis turbines; the swirled water is returned to the Brenta River through a short artificial canal.<br \/>\nThe produced electricity is fed into the local 15 kV distribution network directly on site.<\/p>\n<\/div>\n<\/div><\/div><div class='av-hotspot-fallback-tooltip'><div class='av-hotspot-fallback-tooltip-count'>14<div class='avia-arrow'><\/div><\/div><div class='av-hotspot-fallback-tooltip-inner clearfix'><div class=\"my-container\">\n<p>[layerslider id=&#8221;17&#8243;]<\/p>\n<p><strong>Ponte della Gobba Hydroelectric Power Plant \u2013 Treviso (TV)<\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 37,00 mc\/s<br \/>\n<strong>Jump<\/strong>: 2,41 m<br \/>\n<strong>Average power, P<\/strong>: 874 KW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 2 horizontal axis bi-regulating Kaplan type turbines<br \/>\nThe hydraulic power plant is located in No. 2, via Alzaia, in the central area of the city of Treviso.<br \/>\nThe power plant is constructed directly on the Sile River and exploits a jump of 2.4 meters without resorting to forced conduits and returns immediately downstream the swirled water.<br \/>\nThe embankment is equipped with an automatic sluice gate for river level regulation.<br \/>\nAdjacent to the power plant there is the upstream ladder for the ichtyofauna.<br \/>\nThe produced electricity is fed into the local 15 kV distribution network directly on site.<\/p>\n<\/div>\n<\/div><\/div><div class='av-hotspot-fallback-tooltip'><div class='av-hotspot-fallback-tooltip-count'>15<div class='avia-arrow'><\/div><\/div><div class='av-hotspot-fallback-tooltip-inner clearfix'><div class=\"my-container\">\n<p>[layerslider id=&#8221;16&#8243;]<\/p>\n<p><strong>Silea Hydroelectric Power Plant \u2013 Silea (TV)<\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 46,50 mc\/s<br \/>\n<strong>Jump<\/strong>: 3,8 m<br \/>\n<strong>Average power, P<\/strong>: 1.732 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 2 vertical-axis bi-regulating Kaplan type turbines.<br \/>\nThe hydraulic power plant is located in No. 50, via dei Tappi, &#8211; Municipality of Silea (TV)<br \/>\nThe power plant is constructed directly on the Sile River and exploits a jump of 3.8 meters without resorting to forced conduits.<br \/>\nAt the side of the power plan and the embankment, on the left bank of the river, there is a navigation basin that allows small boats to go downstream or upstream the river; on the right orographic side of the power plant there are automatic sluice gates to lighten the hydraulic charge.<br \/>\nThe power plant returns immediately the swirled water to the Sile River.<br \/>\nDownstream of the power plant there is an upstream ladder for the ichtyofauna specific for eels and lampreys.<br \/>\nThe produced electricity is fed into the local 15 kV distribution network directly on site.<\/p>\n<\/div>\n<\/div><\/div><div class='av-hotspot-fallback-tooltip'><div class='av-hotspot-fallback-tooltip-count'>16<div class='avia-arrow'><\/div><\/div><div class='av-hotspot-fallback-tooltip-inner clearfix'><div class=\"my-container\">\n<div class=\"my-container\">\n<p>[layerslider id=&#8221;18&#8243;]<\/p>\n<p><strong>Magnanins Hydroelectric Power Plant \u2013 Rigolato (UD)<br \/>\n<\/strong><br \/>\n<strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 1,91 mc\/s<br \/>\n<strong>Jump<\/strong>: 158,8 m<br \/>\n<strong>Average power, P<\/strong>: 2.974 KW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 2 horizontal axis Francis turbines<\/p>\n<p>The hydraulic power plant is located in Magnanins &#8211; Municipality of Rigolato (UD). The power plant uses the water of the Degano stream derived from the fixed-threshold embankment in the Ponte Coperto location, on the orographic right-hand side, and through a reinforced concrete channel of about 2,000 m. in length, in part in tunnels and in part in open-air, it reaches the charge basin; from here, through a forced conduit, part in reinforced concrete and part in steel diameter 1,200 mm., and length of about 550 m., it reaches the turbines.<br \/>\nThe power plant building, containing the electromechanical machinery for the production of electricity, is located on the right bank of the Degano stream where it discharges the swirled water through a short channel.<br \/>\nThe produced energy is fed into the network at the common delivery point of Ovaro (UD) through an aerial line of about 13 km long.<\/p>\n<\/div>\n<\/div>\n<\/div><\/div><div class='av-hotspot-fallback-tooltip'><div class='av-hotspot-fallback-tooltip-count'>17<div class='avia-arrow'><\/div><\/div><div class='av-hotspot-fallback-tooltip-inner clearfix'><div class=\"my-container\">\n<p>[layerslider id=&#8221;2&#8243;]<\/p>\n<p><strong>San Antonio Hydroelectric Power Plant \u2013 Tarvisio (UD)<br \/>\n<\/strong><br \/>\n<strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 1,76 mc\/s<br \/>\n<strong>Jump<\/strong>: 43,38 m<br \/>\n<strong>Average power, P<\/strong>: 749 KW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 2 Francis type turbines<br \/>\nThe hydraulic power plant is located in San Antonio &#8211; Municipality of Tarvisio (UD)<br \/>\nThe power plant derives the water at the confluence of the Rio Lago and the Rio Bianco through a fixed threshold embankment equipped with a sand collector sluice gate and upstream ladder for the ichtyofauna.<br \/>\nFrom here starts the underground channel, about 1,100 m. long, from which starts the forced conduit, constructed in the initial stretch in reinforced concrete and in the final stretch in steel, for a total length of about 900 m.<br \/>\nThe swirled water is discharged through a short covered channel into the Rio Bianco stream.<br \/>\nThe power plant building houses the two Francis groups and the delivery cabin of the produced electricity to the local distribution network in Medium Voltage.<\/p>\n<\/div>\n<\/div><\/div><\/div>\n<div style='height:50px' class='hr hr-invisible   '><span class='hr-inner ' ><span class='hr-inner-style'><\/span><\/span><\/div>\n<\/div><\/div><\/div><!-- close content main div --><\/div><\/div><\/div><div id='after_section_2' class='main_color av_default_container_wrap container_wrap sidebar_right'   ><div class='container' ><div class='template-page content  av-content-small alpha units'><div class='post-entry post-entry-type-page post-entry-481'><div class='entry-content-wrapper clearfix'>\n<\/div><\/div><\/div><!-- close content main div --><\/div><\/div><div id='av_section_3' class='avia-section main_color avia-section-no-padding avia-no-border-styling av-section-color-overlay-active avia-bg-style-scroll  section-centrali  av-desktop-hide av-medium-hide container_wrap sidebar_right'   ><div class='av-section-color-overlay-wrap'><div class='av-section-color-overlay' style='opacity: 1; background-image: url(https:\/\/www.siedenergia.it\/wp-content\/uploads\/2018\/04\/LE-CENTRALI2.png); background-repeat: repeat;'><\/div><div class='container' ><div class='template-page content  av-content-small alpha units'><div class='post-entry post-entry-type-page post-entry-481'><div class='entry-content-wrapper clearfix'>\n<div class=\"togglecontainer   toggle_close_all  mobile-accordion\" >\n<section class=\"av_toggle_section\"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\"  >    <div class=\"single_toggle\" data-tags=\"{All} \"  >        <p data-fake-id=\"#toggle-id-1\" class=\"toggler  av-inherit-border-color \"  itemprop=\"headline\"  style='background-color: #ffffff; border-color: #e8e8e8; '>Forani Hydroelectric Power Plant \u2013 Aisone (CN)<span class=\"toggle_icon\" >        <span class=\"vert_icon\"><\/span><span class=\"hor_icon\"><\/span><\/span><\/p>        <div id=\"toggle-id-1-container\" class=\"toggle_wrap \"  >            <div class=\"toggle_content invers-color  av-inherit-border-color \"  itemprop=\"text\"  style='background-color: #ffffff; border-color: #e8e8e8; ' ><div class=\"my-container\">\n<p>[layerslider id=&#8221;3&#8243;]<\/p>\n<p><strong>Forani Hydroelectric Power Plant \u2013 Aisone (CN)<\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 6,36 mc\/s<br \/>\n<strong>Jump<\/strong>: 45,65 m<br \/>\n<strong>Average power, P<\/strong>: 2.846 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 3 turbines of the Francis type<br \/>\nThe hydroelectric power plant is located in Forani, Municipality of Aisone (CN), and is on the orographic right side of the Stura di Demonte stream.\u2028The intake structure captures water directly from the discharge channel of the Vinadio hydroelectric power plant.\u2028From the intake structure starts the forced conduit, completely underground , about 3.2 km long with a 3.00 m. diameter \u2013\u2013 which reaches, after a jump of about 45 m, the power plant building which hosts the electromechanical plants.\u2028The water, after having been swirled, are returned to the Stura di Demonte stream through a reinforced concrete discharge channel about 150 m. long, also completely underground.\u2028The electrical energy produced is fed into the 15 KV national distribution network, directly on site.<\/p>\n<\/div>\n            <\/div>        <\/div>    <\/div><\/section>\n<section class=\"av_toggle_section\"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\"  >    <div class=\"single_toggle\" data-tags=\"{All} \"  >        <p data-fake-id=\"#toggle-id-2\" class=\"toggler  av-inherit-border-color \"  itemprop=\"headline\"  style='background-color: #ffffff; border-color: #e8e8e8; '>Venasca Hydroelectric Power Plant \u2013 Venasca (CN)<span class=\"toggle_icon\" >        <span class=\"vert_icon\"><\/span><span class=\"hor_icon\"><\/span><\/span><\/p>        <div id=\"toggle-id-2-container\" class=\"toggle_wrap \"  >            <div class=\"toggle_content invers-color  av-inherit-border-color \"  itemprop=\"text\"  style='background-color: #ffffff; border-color: #e8e8e8; ' ><div class=\"my-container\">\n<p>[layerslider id=&#8221;12&#8243;]<\/p>\n<p><strong>Venasca Hydroelectric Power Plant \u2013 Venasca (CN)<\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 4,526 mc\/s<br \/>\n<strong>Jump<\/strong>: 22,42 m<br \/>\n<strong>Average power, P<\/strong>: 994,83 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 1 vertical axis Kaplan type turbine and No. 1 vertical axis Francis type turbine<br \/>\nThe hydroelectric power plant is in the San Bartolomeo Region \u2013 Municipality of Venasca (CN)\u2028The power plant exploits a derivation of water from the Varaita stream through a reinforced concrete fixed crosspiece, equipped with a sand collector sluice gate and upstream ladder for the ichtyofauna.\u2028The derived water is fed into a predominantly open artificial channel, for a length of about 1,500 m., up to a charge basin.\u2028From the charge basin, a 90 meter long forced conduit starts, which, underpassing the SP 8 Road, enters the power plant to feed the two hydraulic turbines.<br \/>\nThe drainage channel brings the swirled water up to the hydraulic junction called &#8220;Rocca del Pilone&#8221; where it is directed in a channel, owned by third parties, for irrigation and energy use.<br \/>\nThe electricity produced is fed into the national network at a voltage of 15 kV.<\/p>\n<\/div>\n            <\/div>        <\/div>    <\/div><\/section>\n<section class=\"av_toggle_section\"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\"  >    <div class=\"single_toggle\" data-tags=\"{All} \"  >        <p data-fake-id=\"#toggle-id-3\" class=\"toggler  av-inherit-border-color \"  itemprop=\"headline\"  style='background-color: #ffffff; border-color: #e8e8e8; '>Calcinere Hydroelectric Power Plant \u2013 Paesana (CN)<span class=\"toggle_icon\" >        <span class=\"vert_icon\"><\/span><span class=\"hor_icon\"><\/span><\/span><\/p>        <div id=\"toggle-id-3-container\" class=\"toggle_wrap \"  >            <div class=\"toggle_content invers-color  av-inherit-border-color \"  itemprop=\"text\"  style='background-color: #ffffff; border-color: #e8e8e8; ' ><div class=\"my-container\">\n<p>[layerslider id=&#8221;4&#8243;]<\/p>\n<p><strong>Calcinere Hydroelectric Power Plant \u2013 Paesana (CN)<\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 2,42 mc\/s<br \/>\n<strong>Jump<\/strong>: 545,75 m<br \/>\n<strong>Average power, P<\/strong>: 13.060 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 4 horizontal axis single-jet Pelton type turbines.<br \/>\nThe hydroelectric power plant is in the Calcinere hamlet in the Municipality of Paesana (CN). The derivative canal, approx. 10.5 km partly in open air and partly in the tunnel, captures the water of several streams among which the Po and the Lenta.<br \/>\nThe adduction channel feeds the charge chamber called Biatonet from which starts the pressure tunnel that conveys the derived water in the forced conduits, these, made of riveted steel and with a total length of about 1,250 m., feed the No. 4 horizontal axis Pelton turbines of the power plant.<br \/>\nThe swirled water are discharged into a basin adherent to the power plant building and then returned to the valley.<br \/>\nThe energy produced is raised to 70 kV (High Voltage) and transported with an electrical aerial line, about 13 km long, to the delivery point located in the Municipality of Sanfront (CN) joint. In the Sanfront substation there is a 70\/132 kV elevator transformer for the final delivery of energy to Terna&#8217;s national network.<\/p>\n<div style=\"text-align: center;\"><a style=\"color: #4e71e5;\" href=\"\/wp-content\/uploads\/2019\/03\/Codice_Etico_Calcinere.pdf\" target=\"_blank\" rel=\"noopener\">Ethical code (IT)<\/a> &#8211; <a style=\"color: #4e71e5;\" href=\"\/wp-content\/uploads\/2019\/03\/Politica_SGSL_Calcinere.pdf\" target=\"_blank\" rel=\"noopener\">SGSL Policy (IT)<\/a><\/div>\n<\/div>\n            <\/div>        <\/div>    <\/div><\/section>\n<section class=\"av_toggle_section\"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\"  >    <div class=\"single_toggle\" data-tags=\"{All} \"  >        <p data-fake-id=\"#toggle-id-4\" class=\"toggler  av-inherit-border-color \"  itemprop=\"headline\"  style='background-color: #ffffff; border-color: #e8e8e8; '>Tre Ponti Hydroelectric Power Plant \u2013 Prali (TO)<span class=\"toggle_icon\" >        <span class=\"vert_icon\"><\/span><span class=\"hor_icon\"><\/span><\/span><\/p>        <div id=\"toggle-id-4-container\" class=\"toggle_wrap \"  >            <div class=\"toggle_content invers-color  av-inherit-border-color \"  itemprop=\"text\"  style='background-color: #ffffff; border-color: #e8e8e8; ' ><div class=\"my-container\">\n<p>[layerslider id=&#8221;9&#8243;]<\/p>\n<p><strong> Tre Ponti Hydroelectric Power Plant \u2013 Prali (TO) <\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 8,00 mc\/s<br \/>\n<strong>Jump<\/strong>: 122,50 m<br \/>\n<strong>Average power, P<\/strong>: 961 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 1 vertical axis Pelton type 6-jets turbine.<br \/>\nThe hydroelectric power plant is located along the SP 169 Road at Km 13+770 \u2013 Municipality of Prali (TO).\u2028The power plant is located in the Salza di Pinerolo (intake structure) and Prali (power plant) areas, in the Turin Province.<br \/>\nThe intake structure is located on the left orographic bank of the Germanasca stream through a fixed embankment equipped with a sand collector sluice gate and upstream ladder for the ichtyofauna.<br \/>\nFrom the charge basin, the forced conduit starts, made of steel and completely underground, with a 1,100 mm diameter and a length of 1,540 m.<br \/>\nThe power plant building contains the machinery for the production of electricity and the delivery cabin of the produced energy to the national distribution network at a voltage of 15 kV.<\/p>\n<\/div>\n            <\/div>        <\/div>    <\/div><\/section>\n<section class=\"av_toggle_section\"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\"  >    <div class=\"single_toggle\" data-tags=\"{All} \"  >        <p data-fake-id=\"#toggle-id-5\" class=\"toggler  av-inherit-border-color \"  itemprop=\"headline\"  style='background-color: #ffffff; border-color: #e8e8e8; '>Meano Hydroelectric Power Plant \u2013 Pomaretto (TO)<span class=\"toggle_icon\" >        <span class=\"vert_icon\"><\/span><span class=\"hor_icon\"><\/span><\/span><\/p>        <div id=\"toggle-id-5-container\" class=\"toggle_wrap \"  >            <div class=\"toggle_content invers-color  av-inherit-border-color \"  itemprop=\"text\"  style='background-color: #ffffff; border-color: #e8e8e8; ' ><div class=\"my-container\">\n<p>[layerslider id=&#8221;8&#8243;]<\/p>\n<p><strong> Meano Hydroelectric Power Plant \u2013 Pomaretto (TO) <\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 2,70 mc\/s<br \/>\n<strong>Jump<\/strong>: 90,5 m<br \/>\n<strong>Average power, P<\/strong>: 2395,58 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 3 vertical axis Francis type turbines.<br \/>\nThe hydroelectric power plant is located in the Municipality of Pomaretto (TO)\u2028The intake structure, in part with a fixed embankment and in part with a sector sluice gate and upstream ladder for the ichtyofauna., is located in the Municipality of Perosa Argentina (TO) and derives the water from the Chisone stream, conveying the water on the orographic right of the stream.\u2028The derived water are fed into the Jartousiere artificial basin, with a total capacity of about 25,000 meters3, and then into the adduction channel, all in the tunnel, which extends for a length of about 2,150 m. At the end of the tunnel, the derived water is fed into a small charge basin from which the steel conduit, 585 m long with a diameter of 1,300 mm, starts, which brings the water to the power plant.<br \/>\nThe power plant building houses the 3 vertical axis Francis type hydroelectric units and the machinery used to transform the produced electrical energy.<br \/>\nThe discharge of the hydroelectric turbines conveys the swirled water into the charge channel of another hydroelectric power station of another property.<br \/>\nTo complete the production of electricity from renewable sources, a photovoltaic system with a power of 19.78 kWp has been installed on the roof of the plant.<\/p>\n<\/div>\n            <\/div>        <\/div>    <\/div><\/section>\n<section class=\"av_toggle_section\"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\"  >    <div class=\"single_toggle\" data-tags=\"{All} \"  >        <p data-fake-id=\"#toggle-id-6\" class=\"toggler  av-inherit-border-color \"  itemprop=\"headline\"  style='background-color: #ffffff; border-color: #e8e8e8; '>Germagnano Hydroelectric Power Plant \u2013 Lanzo Torinese (TO)<span class=\"toggle_icon\" >        <span class=\"vert_icon\"><\/span><span class=\"hor_icon\"><\/span><\/span><\/p>        <div id=\"toggle-id-6-container\" class=\"toggle_wrap \"  >            <div class=\"toggle_content invers-color  av-inherit-border-color \"  itemprop=\"text\"  style='background-color: #ffffff; border-color: #e8e8e8; ' ><div class=\"my-container\">\n<p>[layerslider id=&#8221;7&#8243;]<\/p>\n<p><strong>Germagnano Hydroelectric Power Plant \u2013 Lanzo Torinese (TO)<\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 6,22 mc\/s<br \/>\n<strong>Jump<\/strong>: 39,45 m<br \/>\n<strong>Average power, P<\/strong>: 2406 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 2 vertical axis Francis type turbines\u2028The hydroelectric power plant is located in Colombaro in the Municipality of Lanzo Torinese (TO). \u2028The intake structure, on the left bank, derives the water from the Stura di Lanzo stream through an embankment with mobile sluice gates. At the embankment on the right bank, there is the upstream ladder for the ichtyofauna.\u2028At about 100 m. from the crossbeam the water derived from the stream joins the water discharged from the power plant owned by third parties located in Funghera to be fed into the adduction channel.\u2028The adduction channel, about 1,700 m. long, part in tunnel and part in open air, ends in a charge chamber which feeds the steel forced conduit of 1,900 mm diameter and equal to about 260 m. long.\u2028The power plant building contains the electromechanical equipment used for the production and transformation of the produced electrical energy.\u2028The discharge channel, about 130 m. long, returns the swirled water to the Stura di Lanzo stream.<\/p>\n<\/div>\n            <\/div>        <\/div>    <\/div><\/section>\n<section class=\"av_toggle_section\"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\"  >    <div class=\"single_toggle\" data-tags=\"{All} \"  >        <p data-fake-id=\"#toggle-id-7\" class=\"toggler  av-inherit-border-color \"  itemprop=\"headline\"  style='background-color: #ffffff; border-color: #e8e8e8; '>Ceres Hydroelectric Power Plant \u2013 Ceres (TO)<span class=\"toggle_icon\" >        <span class=\"vert_icon\"><\/span><span class=\"hor_icon\"><\/span><\/span><\/p>        <div id=\"toggle-id-7-container\" class=\"toggle_wrap \"  >            <div class=\"toggle_content invers-color  av-inherit-border-color \"  itemprop=\"text\"  style='background-color: #ffffff; border-color: #e8e8e8; ' ><div class=\"my-container\">\n<p>[layerslider id=&#8221;4&#8243;]<\/p>\n<p><strong>Ceres Hydroelectric Power Plant \u2013 Ceres (TO)<\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 3,87 mc\/s<br \/>\n<strong>Jump<\/strong>: 69,41 m<br \/>\n<strong>Average power, P<\/strong>: 2.633 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 3 Francis type turbines<br \/>\nThe hydroelectric power plant is located in the Gran Pr\u00e0 Region, in the Municipality of Ceres (TO), and is located on the left orographic side of the Stura di Ala stream.<br \/>\nThe derivation consists of two water intake structures, one deriving from the Stura di Val Grande (Cantoira intake) and one deriving from the Stura di Ala (Rusi\u00e0 intake). A tunnel channel transports water from the Cantoira intake to the Rusi\u00e0 derivation. In both intakes the upstream ladders for the ichtyofauna were constructed.<br \/>\nFrom the Rusi\u00e0 intake is developed, on the right side of the Valle di Ala, the derivation channel for a length of about 2,200 m., partially covered, which conveys the derived water to the charge basin from where the 1,800 mm. diameter steel conduit departs. The forced conduit crosses the Stura di Ala stream through a channel bridge and is inlet into the power plant to feed the three hydroelectric groups.<br \/>\nThe discharged water are then directed towards the intake of another hydraulic power plant owned by third parties.<br \/>\nThe produced energy is fed into the local distribution network at 30 kV.<\/p>\n<\/div>\n            <\/div>        <\/div>    <\/div><\/section>\n<section class=\"av_toggle_section\"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\"  >    <div class=\"single_toggle\" data-tags=\"{All} \"  >        <p data-fake-id=\"#toggle-id-8\" class=\"toggler  av-inherit-border-color \"  itemprop=\"headline\"  style='background-color: #ffffff; border-color: #e8e8e8; '>Vert Hydroelectric Power Plant \u2013 Donnas (AO)<span class=\"toggle_icon\" >        <span class=\"vert_icon\"><\/span><span class=\"hor_icon\"><\/span><\/span><\/p>        <div id=\"toggle-id-8-container\" class=\"toggle_wrap \"  >            <div class=\"toggle_content invers-color  av-inherit-border-color \"  itemprop=\"text\"  style='background-color: #ffffff; border-color: #e8e8e8; ' ><div class=\"my-container\">\n<p>[layerslider id=&#8221;14&#8243;]<\/p>\n<p><strong>Vert Hydroelectric Power Plant \u2013 Donnas (AO)<\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 46,00 mc\/s<br \/>\n<strong>Jump<\/strong>: 12,18 m<br \/>\n<strong>Average power, P<\/strong>: 5492,94 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 2 vertical axis bi-regulating Kaplan type turbines<br \/>\nThe hydroelectric power plant is located in No. 150, via Grand Vert, &#8211; in the Municipality of Donnas (AO)<br \/>\nThe power plant derives the water from the Dora Baltea River through a fixed-threshold intake structure and mobile sluice gates, feeding of the adduction channel, about 1,500 m. long in part in the tunnel and in part in the open air, takes place on the right orographic bank of the river.<br \/>\nIn the power plant, electricity is produced by 2 Kaplan turbines; delivery to the national electricity network takes place in an adjacent external area. The produced electricity is raised to a voltage of 132 kV (High Voltage) and has the possibility of being fed, not simultaneously, on two different transport lines owned by Terna.<br \/>\nThe power plant returns the water just upstream from the confluence of the Dora Baltea River with the Lys stream, through an 800 m. long channel.<\/p>\n<\/div>\n            <\/div>        <\/div>    <\/div><\/section>\n<section class=\"av_toggle_section\"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\"  >    <div class=\"single_toggle\" data-tags=\"{All} \"  >        <p data-fake-id=\"#toggle-id-9\" class=\"toggler  av-inherit-border-color \"  itemprop=\"headline\"  style='background-color: #ffffff; border-color: #e8e8e8; '>Donnas Hydroelectric Power Plant \u2013 Donnas (AO)<span class=\"toggle_icon\" >        <span class=\"vert_icon\"><\/span><span class=\"hor_icon\"><\/span><\/span><\/p>        <div id=\"toggle-id-9-container\" class=\"toggle_wrap \"  >            <div class=\"toggle_content invers-color  av-inherit-border-color \"  itemprop=\"text\"  style='background-color: #ffffff; border-color: #e8e8e8; ' ><div class=\"my-container\">\n<p>[layerslider id=&#8221;13&#8243;]<strong>Donnas Hydroelectric Power Plant \u2013 Donnas (AO)<\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 18,00 mc\/s<br \/>\n<strong>Jump<\/strong>: 5,49 m<br \/>\n<strong>Average power, P<\/strong>: 968,82 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 1 vertical axis bi-regulating Kaplan type turbine<br \/>\nNo. 1 vertical axis electrical current generator<br \/>\nNo. 1 power transformer<br \/>\nNo. 1 auxiliary services transformer<br \/>\nThe hydraulic power plant is located in No. 1, via Roma \u2013 Municipality of Donnas (AO)\u2028The Donnas power plant is a flowing water plant that takes the discharge water from the Bard C.V.A. power plant. The intake structure, called &#8220;San Giovanni&#8221;, is located about 50 m. from the discharge of the upstream power plant and intercepts the water through the opening of the channel entrance sluice gates and the consequent closure of the discharge sluice gates in the riverbed of the Dora Baltea River.<br \/>\nFrom the San Giovanni junction an open air channel starts, about 700 m. long, which leads the water to the power plant for the production of electricity.<br \/>\nDownstream of the turbine, the water is returned to the Dora Baltea natural riverbed through a covered channel of about 100 m., where, at a short distance, meets the embankment of the power plant called &#8220;Vert&#8221; owned by SIED.<br \/>\nThe produced energy is delivered to the local distribution network at 300 m. from the place of production.<\/p>\n<\/div>\n            <\/div>        <\/div>    <\/div><\/section>\n<section class=\"av_toggle_section\"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\"  >    <div class=\"single_toggle\" data-tags=\"{All} \"  >        <p data-fake-id=\"#toggle-id-10\" class=\"toggler  av-inherit-border-color \"  itemprop=\"headline\"  style='background-color: #ffffff; border-color: #e8e8e8; '>MORA Hydroelectric Power Plant \u2013 Romagnano Sesia (NO)<span class=\"toggle_icon\" >        <span class=\"vert_icon\"><\/span><span class=\"hor_icon\"><\/span><\/span><\/p>        <div id=\"toggle-id-10-container\" class=\"toggle_wrap \"  >            <div class=\"toggle_content invers-color  av-inherit-border-color \"  itemprop=\"text\"  style='background-color: #ffffff; border-color: #e8e8e8; ' ><div class=\"my-container\">\n<p>[layerslider id=&#8221;11&#8243;]<\/p>\n<p><strong>MORA Hydroelectric Power Plant \u2013 Romagnano Sesia (NO)<\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 8,30 mc\/s<br \/>\n<strong>Jump<\/strong>: 5,25 m<br \/>\n<strong>Average power, P<\/strong>: 433,25 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 1 vertical axis Kaplan type turbine<br \/>\nThe hydroelectric power plant is in the Municipality of Romagnano Sesia (NO)\u2028The power plant is on a historic canal called &#8220;Roggia Mora&#8221; dating back to the fifteenth century for irrigation purposes, derived from the Sesia River, about 1,500 m. upstream of the Mora power plant, in which there are 6 other hydroelectric units owned by third parties.<br \/>\nThe power plant building partially occupies the Roggia Mora riverbed and in the power plant building there is a vertical axis Kaplan turbine and the machinery used for the transformation of the produced electric energy.<br \/>\nThe swirled water continues in the &#8220;Roggia Mora&#8221; canal towards the other power plants owned by third parties.<br \/>\nThe energy produced is fed into the national 15 kV electricity network directly in the hydraulic power plant.<\/p>\n<\/div>\n            <\/div>        <\/div>    <\/div><\/section>\n<section class=\"av_toggle_section\"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\"  >    <div class=\"single_toggle\" data-tags=\"{All} \"  >        <p data-fake-id=\"#toggle-id-11\" class=\"toggler  av-inherit-border-color \"  itemprop=\"headline\"  style='background-color: #ffffff; border-color: #e8e8e8; '>Giarola Hydroelectric Power Plant \u2013 Grignasco (NO)<span class=\"toggle_icon\" >        <span class=\"vert_icon\"><\/span><span class=\"hor_icon\"><\/span><\/span><\/p>        <div id=\"toggle-id-11-container\" class=\"toggle_wrap \"  >            <div class=\"toggle_content invers-color  av-inherit-border-color \"  itemprop=\"text\"  style='background-color: #ffffff; border-color: #e8e8e8; ' ><div class=\"my-container\">\n<p>[layerslider id=&#8221;6&#8243;]<strong>Giarola Hydroelectric Power Plant \u2013 Grignasco (NO)<\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 10,00 mc\/s<br \/>\n<strong>Jump<\/strong>: 9,99 m<br \/>\n<strong>Average power, P<\/strong>: 979,41 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 2 vertical axis bi-regulating Kaplan type turbines<br \/>\nThe hydraulic power plant is located in the Municipality of Grignasco (NO), and is on an artificial canal, which derives water from the Sesia River, called &#8220;Canale della Filatura&#8221;. This canal is also used by another SIED-owned power plant and by other third-party power plants.<br \/>\nThe produced energy is conveyed to the delivery point of the local distribution network through an approximately 500 m. long underground line.<\/p>\n<\/div>\n            <\/div>        <\/div>    <\/div><\/section>\n<section class=\"av_toggle_section\"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\"  >    <div class=\"single_toggle\" data-tags=\"{All} \"  >        <p data-fake-id=\"#toggle-id-12\" class=\"toggler  av-inherit-border-color \"  itemprop=\"headline\"  style='background-color: #ffffff; border-color: #e8e8e8; '>Isola Hydroelectric Power Plant \u2013 Prato Sesia (NO)<span class=\"toggle_icon\" >        <span class=\"vert_icon\"><\/span><span class=\"hor_icon\"><\/span><\/span><\/p>        <div id=\"toggle-id-12-container\" class=\"toggle_wrap \"  >            <div class=\"toggle_content invers-color  av-inherit-border-color \"  itemprop=\"text\"  style='background-color: #ffffff; border-color: #e8e8e8; ' ><div class=\"my-container\">\n<p>[layerslider id=&#8221;10&#8243;]<\/p>\n<p><strong> Isola Hydroelectric Power Plant \u2013 Prato Sesia (NO) <\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 10,00 mc\/s<br \/>\n<strong>Jump<\/strong>: 4,89 m<br \/>\n<strong>Average power, P<\/strong>: 479,41 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 1 vertical axis Kaplan type turbine<br \/>\nThe hydraulic power plant is located in the Municipality of Prato Sesia (NO)<br \/>\nThe power plant is located on the \u201cCanale della Filatura\u201d canal in cascade to the Giarola power plant.\u2028In the power plant building there is a vertical axis Kaplan turbine and the equipment used for the transformation of the produced electricity. \u2028The produced electricity is transported from the hydraulic power plant to the delivery cabin through an aerial helicoid line about 900 m. long and an underground line approx. 500 m. long.<\/p>\n<\/div>\n            <\/div>        <\/div>    <\/div><\/section>\n<section class=\"av_toggle_section\"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\"  >    <div class=\"single_toggle\" data-tags=\"{All} \"  >        <p data-fake-id=\"#toggle-id-13\" class=\"toggler  av-inherit-border-color \"  itemprop=\"headline\"  style='background-color: #ffffff; border-color: #e8e8e8; '>Oliero Hydroelectric Power Plant \u2013 Campolongo sul Brenta (VI)<span class=\"toggle_icon\" >        <span class=\"vert_icon\"><\/span><span class=\"hor_icon\"><\/span><\/span><\/p>        <div id=\"toggle-id-13-container\" class=\"toggle_wrap \"  >            <div class=\"toggle_content invers-color  av-inherit-border-color \"  itemprop=\"text\"  style='background-color: #ffffff; border-color: #e8e8e8; ' ><div class=\"my-container\">\n<p>[layerslider id=&#8221;15&#8243;]<\/p>\n<p><strong>Oliero Hydroelectric Power Plant \u2013 Campolongo sul Brenta (VI)<br \/>\n<\/strong><br \/>\n<strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 7.50 mc\/s<br \/>\n<strong>Jump<\/strong>: 13.78 m<br \/>\n<strong>Average power, P<\/strong>: 1,013.86 KW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nn. 2 turbine tipo Francis ad asse orizzontale<\/p>\n<p>No. 2 horizontal axis Francis type turbines<br \/>\nThe hydroelectric power plant is located in No. 17, via Giusti, &#8211; Municipality of Campolongo sul Brenta (VI)<br \/>\nThe intake structure of the power plant is located at the &#8220;Grotte di Oliero&#8221;, where the water is derived from the gushing out of these caves.<br \/>\nA control system combined with a series of automatic sluice gates keeps the water level constant in the basin.<br \/>\nThe derived water is fed into a masonry channel, in part in the tunnel and in part in the open air about 2,000 m. long, which reaches the power plant hugging along the Municipal road on the right orographic bank of the Brenta River.<br \/>\nIn the power plant the production of electric energy takes place by means of 2 Francis turbines; the swirled water is returned to the Brenta River through a short artificial canal.<br \/>\nThe produced electricity is fed into the local 15 kV distribution network directly on site.<\/p>\n<\/div>\n            <\/div>        <\/div>    <\/div><\/section>\n<section class=\"av_toggle_section\"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\"  >    <div class=\"single_toggle\" data-tags=\"{All} \"  >        <p data-fake-id=\"#toggle-id-14\" class=\"toggler  av-inherit-border-color \"  itemprop=\"headline\"  style='background-color: #ffffff; border-color: #e8e8e8; '>Silea Hydroelectric Power Plant \u2013 Silea (TV)<span class=\"toggle_icon\" >        <span class=\"vert_icon\"><\/span><span class=\"hor_icon\"><\/span><\/span><\/p>        <div id=\"toggle-id-14-container\" class=\"toggle_wrap \"  >            <div class=\"toggle_content invers-color  av-inherit-border-color \"  itemprop=\"text\"  style='background-color: #ffffff; border-color: #e8e8e8; ' ><div class=\"my-container\">\n<p>[layerslider id=&#8221;16&#8243;]<\/p>\n<p><strong>Silea Hydroelectric Power Plant \u2013 Silea (TV)<\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 46,50 mc\/s<br \/>\n<strong>Jump<\/strong>: 3,8 m<br \/>\n<strong>Average power, P<\/strong>: 1.732 kW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 2 vertical-axis bi-regulating Kaplan type turbines.<br \/>\nThe hydraulic power plant is located in No. 50, via dei Tappi, &#8211; Municipality of Silea (TV)<br \/>\nThe power plant is constructed directly on the Sile River and exploits a jump of 3.8 meters without resorting to forced conduits.<br \/>\nAt the side of the power plan and the embankment, on the left bank of the river, there is a navigation basin that allows small boats to go downstream or upstream the river; on the right orographic side of the power plant there are automatic sluice gates to lighten the hydraulic charge.<br \/>\nThe power plant returns immediately the swirled water to the Sile River.<br \/>\nDownstream of the power plant there is an upstream ladder for the ichtyofauna specific for eels and lampreys.<br \/>\nThe produced electricity is fed into the local 15 kV distribution network directly on site.<\/p>\n<\/div>\n            <\/div>        <\/div>    <\/div><\/section>\n<section class=\"av_toggle_section\"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\"  >    <div class=\"single_toggle\" data-tags=\"{All} \"  >        <p data-fake-id=\"#toggle-id-15\" class=\"toggler  av-inherit-border-color \"  itemprop=\"headline\"  style='background-color: #ffffff; border-color: #e8e8e8; '>Ponte della Gobba Hydroelectric Power Plant \u2013 Treviso (TV)<span class=\"toggle_icon\" >        <span class=\"vert_icon\"><\/span><span class=\"hor_icon\"><\/span><\/span><\/p>        <div id=\"toggle-id-15-container\" class=\"toggle_wrap \"  >            <div class=\"toggle_content invers-color  av-inherit-border-color \"  itemprop=\"text\"  style='background-color: #ffffff; border-color: #e8e8e8; ' ><div class=\"my-container\">\n<p>[layerslider id=&#8221;17&#8243;]<\/p>\n<p><strong>Ponte della Gobba Hydroelectric Power Plant \u2013 Treviso (TV)<\/strong><\/p>\n<p><strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 37,00 mc\/s<br \/>\n<strong>Jump<\/strong>: 2,41 m<br \/>\n<strong>Average power, P<\/strong>: 874 KW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 2 horizontal axis bi-regulating Kaplan type turbines<br \/>\nThe hydraulic power plant is located in No. 2, via Alzaia, in the central area of the city of Treviso.<br \/>\nThe power plant is constructed directly on the Sile River and exploits a jump of 2.4 meters without resorting to forced conduits and returns immediately downstream the swirled water.<br \/>\nThe embankment is equipped with an automatic sluice gate for river level regulation.<br \/>\nAdjacent to the power plant there is the upstream ladder for the ichtyofauna.<br \/>\nThe produced electricity is fed into the local 15 kV distribution network directly on site.<\/p>\n<\/div>\n            <\/div>        <\/div>    <\/div><\/section>\n<section class=\"av_toggle_section\"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\"  >    <div class=\"single_toggle\" data-tags=\"{All} \"  >        <p data-fake-id=\"#toggle-id-16\" class=\"toggler  av-inherit-border-color \"  itemprop=\"headline\"  style='background-color: #ffffff; border-color: #e8e8e8; '>Magnanins Hydroelectric Power Plant \u2013 Rigolato (UD)<span class=\"toggle_icon\" >        <span class=\"vert_icon\"><\/span><span class=\"hor_icon\"><\/span><\/span><\/p>        <div id=\"toggle-id-16-container\" class=\"toggle_wrap \"  >            <div class=\"toggle_content invers-color  av-inherit-border-color \"  itemprop=\"text\"  style='background-color: #ffffff; border-color: #e8e8e8; ' ><div class=\"my-container\">\n<p>[layerslider id=&#8221;4&#8243;]<\/p>\n<p><strong>Magnanins Hydroelectric Power Plant \u2013 Rigolato (UD)<\/strong><br \/>\n<strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 1,91 mc\/s<br \/>\n<strong>Jump<\/strong>: 158,8 m<br \/>\n<strong>Average power, P<\/strong>: 2.974 KW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 2 horizontal axis Francis turbines<br \/>\nThe hydraulic power plant is located in Magnanins &#8211; Municipality of Rigolato (UD). The power plant uses the water of the Degano stream derived from the fixed-threshold embankment in the Ponte Coperto location, on the orographic right-hand side, and through a reinforced concrete channel of about 2,000 m. in length, in part in tunnels and in part in open-air, it reaches the charge basin; from here, through a forced conduit, part in reinforced concrete and part in steel diameter 1,200 mm., and length of about 550 m., it reaches the turbines.<br \/>\nThe power plant building, containing the electromechanical machinery for the production of electricity, is located on the right bank of the Degano stream where it discharges the swirled water through a short channel.<br \/>\nThe produced energy is fed into the network at the common delivery point of Ovaro (UD) through an aerial line of about 13 km long.<\/p>\n<\/div>\n            <\/div>        <\/div>    <\/div><\/section>\n<section class=\"av_toggle_section\"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\"  >    <div class=\"single_toggle\" data-tags=\"{All} \"  >        <p data-fake-id=\"#toggle-id-17\" class=\"toggler  av-inherit-border-color \"  itemprop=\"headline\"  style='background-color: #ffffff; border-color: #e8e8e8; '>San Antonio Hydroelectric Power Plant \u2013 Tarvisio (UD)<span class=\"toggle_icon\" >        <span class=\"vert_icon\"><\/span><span class=\"hor_icon\"><\/span><\/span><\/p>        <div id=\"toggle-id-17-container\" class=\"toggle_wrap \"  >            <div class=\"toggle_content invers-color  av-inherit-border-color \"  itemprop=\"text\"  style='background-color: #ffffff; border-color: #e8e8e8; ' ><div class=\"my-container\">\n<p>[layerslider id=&#8221;4&#8243;]<\/p>\n<p><strong>San Antonio Hydroelectric Power Plant \u2013 Tarvisio (UD)<\/strong><br \/>\n<strong>Concession data<\/strong>:<br \/>\n<strong>Average flow rate, m<span style=\"vertical-align: super; font-size: .8em;\">3<\/span><\/strong>: 1,76 mc\/s<br \/>\n<strong>Jump<\/strong>: 43,38 m<br \/>\n<strong>Average power, P<\/strong>: 749 KW<br \/>\n<strong>Main equipment<\/strong>:<br \/>\nNo. 2 Francis type turbines<br \/>\nThe hydraulic power plant is located in San Antonio &#8211; Municipality of Tarvisio (UD)<br \/>\nThe power plant derives the water at the confluence of the Rio Lago and the Rio Bianco through a fixed threshold embankment equipped with a sand collector sluice gate and upstream ladder for the ichtyofauna.<br \/>\nFrom here starts the underground channel, about 1,100 m. long, from which starts the forced conduit, constructed in the initial stretch in reinforced concrete and in the final stretch in steel, for a total length of about 900 m.<br \/>\nThe swirled water is discharged through a short covered channel into the Rio Bianco stream.<br \/>\nThe power plant building houses the two Francis groups and the delivery cabin of the produced electricity to the local distribution network in Medium Voltage.<\/p>\n<\/div>\n            <\/div>        <\/div>    <\/div><\/section>\n<\/div>\n<\/div><\/div><\/div><!-- close content main div --><\/div><\/div><\/div><div id='after_section_3' class='main_color av_default_container_wrap container_wrap sidebar_right'   ><div class='container' ><div class='template-page content  av-content-small alpha units'><div class='post-entry post-entry-type-page post-entry-481'><div class='entry-content-wrapper clearfix'>\n<\/div><\/div><\/div><!-- close content main div --><\/div><\/div><div id='le-centrali' class='avia-section main_color avia-section-no-padding avia-no-border-styling av-section-color-overlay-active avia-bg-style-scroll  section-centrali  container_wrap sidebar_right'   ><div class='av-section-color-overlay-wrap'><div class='av-section-color-overlay' style='opacity: 1; '><\/div><div class='container' ><div class='template-page content  av-content-small alpha units'><div class='post-entry post-entry-type-page post-entry-481'><div class='entry-content-wrapper clearfix'>\n<div class='avia-image-container  av-styling-     avia-align-center '  itemprop=\"ImageObject\" itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/ImageObject\"  ><div class='avia-image-container-inner'><img class='avia_image ' src='https:\/\/www.siedenergia.it\/wp-content\/uploads\/2022\/12\/BannerPaci.png' alt='' title='BannerPaci'   itemprop=\"thumbnailUrl\"  \/><\/div><\/div>\n<\/div><\/div><\/div><!-- close content main div --><\/div><\/div><\/div><div id='after_section_4' class='main_color av_default_container_wrap container_wrap sidebar_right'   ><div class='container' ><div class='template-page content  av-content-small alpha units'><div class='post-entry post-entry-type-page post-entry-481'><div class='entry-content-wrapper clearfix'>\n<\/div><\/div><\/div><!-- close content main div --><\/div><\/div><div id='le-centrali' class='avia-section main_color avia-section-default avia-no-shadow avia-full-stretch avia-bg-style-scroll  section-centrali  container_wrap sidebar_right' style = 'background-repeat: no-repeat; background-image: url(https:\/\/www.siedenergia.it\/wp-content\/uploads\/2023\/01\/LE-CENTRALI2.png); background-attachment: scroll; background-position: center center; ' data-section-bg-repeat='stretch' ><div class='container' ><div class='template-page content  av-content-small alpha units'><div class='post-entry post-entry-type-page post-entry-481'><div class='entry-content-wrapper clearfix'>\n<section class=\"av_textblock_section \"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><div class='avia_textblock  '   itemprop=\"text\" ><p><center>The P.A.C.I. 4.0 project is the technological challenge to preserve, renew and manage in an innovative way its hydroelectric heritage.<\/center><\/p>\n<\/div><\/section>\n<div class=\"flex_column av_three_fifth  flex_column_div av-zero-column-padding first  \" style='border-radius:0px; '><div  class='avia-video avia-video-16-9   '  itemprop=\"video\" itemtype=\"https:\/\/schema.org\/VideoObject\" ><div class='avia-iframe-wrap'><iframe src=\"https:\/\/player.vimeo.com\/video\/511039267?h=bd0fe69079&amp;dnt=1&amp;app_id=122963\" width=\"1500\" height=\"844\" frameborder=\"0\" allow=\"autoplay; fullscreen; picture-in-picture\" allowfullscreen title=\"VideoProgettoPACI40_Divulgativa\"><\/iframe><\/div><\/div><\/div><div class=\"flex_column av_two_fifth  flex_column_div av-zero-column-padding   \" style='border-radius:0px; '><section class=\"av_textblock_section \"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><div class='avia_textblock  '  style='font-size:16px; '  itemprop=\"text\" ><p>Defining an advanced knowledge database from digital twin models is the critical element enabling multidimensional scenarios and more efficient collaborative procedures among the different actors of the supply chain. Drones, BIM, and virtual and augmented reality technologies open new horizons of information accessibility to meet dynamic needs. This transition results from a multidisciplinary participatory process involving internal and external resources (<a href=\"http:\/\/www.drawingtothefuture.polito.it\/\">Politecnico di Torino<\/a>, I.S.I.R.E.S.,\u00a0<a href=\"http:\/\/www.studio74.eu\/\">Studio74<\/a>). The standardized and systematic approach adopted allows the replicability of the management model for all power plants and its enrichment over time through integrating connected objects and computational systems for control and monitoring activities more and more performing.<\/p>\n<\/div><\/section><\/div><\/div><\/div><\/div><!-- close content main div --><\/div><\/div><div id='after_section_5' class='main_color av_default_container_wrap container_wrap sidebar_right'   ><div class='container' ><div class='template-page content  av-content-small alpha units'><div class='post-entry post-entry-type-page post-entry-481'><div class='entry-content-wrapper clearfix'><div class=\"flex_column av_one_full  flex_column_div av-zero-column-padding first  \" style='border-radius:0px; '><section class=\"av_textblock_section \"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><div class='avia_textblock  '   itemprop=\"text\" ><p style=\"text-align: center;\">The innovative use of BIM for this sector, the high quality of the data collected, and the mutidisciplinary approach were awarded the special recognition of Clust-ER BUILD, which rewards companies that contribute to the digital transformation of the construction sector.<\/p>\n<\/div><\/section><\/div><\/p>\n<div class=\"flex_column av_one_full  flex_column_div av-zero-column-padding first  \" style='border-radius:0px; '><div class='avia-image-container  av-styling-     avia-align-center '  itemprop=\"ImageObject\" itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/ImageObject\"  ><div class='avia-image-container-inner'><img class='avia_image ' src='https:\/\/www.siedenergia.it\/wp-content\/uploads\/2023\/01\/CentraliAttestato.png' alt='' title='CentraliAttestato'   itemprop=\"thumbnailUrl\"  \/><\/div><\/div><\/div>\n","protected":false},"excerpt":{"rendered":"","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"_links":{"self":[{"href":"https:\/\/www.siedenergia.it\/en\/wp-json\/wp\/v2\/pages\/481\/"}],"collection":[{"href":"https:\/\/www.siedenergia.it\/en\/wp-json\/wp\/v2\/pages\/"}],"about":[{"href":"https:\/\/www.siedenergia.it\/en\/wp-json\/wp\/v2\/types\/page\/"}],"author":[{"embeddable":true,"href":"https:\/\/www.siedenergia.it\/en\/wp-json\/wp\/v2\/users\/1\/"}],"replies":[{"embeddable":true,"href":"https:\/\/www.siedenergia.it\/en\/wp-json\/wp\/v2\/comments\/?post=481"}],"version-history":[{"count":40,"href":"https:\/\/www.siedenergia.it\/en\/wp-json\/wp\/v2\/pages\/481\/revisions\/"}],"predecessor-version":[{"id":937,"href":"https:\/\/www.siedenergia.it\/en\/wp-json\/wp\/v2\/pages\/481\/revisions\/937\/"}],"wp:attachment":[{"href":"https:\/\/www.siedenergia.it\/en\/wp-json\/wp\/v2\/media\/?parent=481"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}