Establishment of photovoltaic power plants in the area of ELMŰ-ÉMÁSZ (Q3943632): Difference between revisions
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1. Brief presentation of the organisation implementing the project, previous developments of the project owner MVM Hungarowind Kft. (the 100 % state-owned MVM Zrt. From October 2015 until March 2016, the Pécs Heat Plant had invested in the construction of a photovoltaic power plant with a capacity of 10 MWp in the former, abandoned and fully recultivated tailpit. The Company therefore has sufficient experience to carry out the photovoltaic plant investment according to the present feasibility study. The project management tasks arising in connection with the investment are performed by internal experts (the narrowest internal project management team is made up of the project manager, the deputy project manager and the professional manager), their work is also supported by internally involved administrative staff and by an external project management expert company. The internal project management organisation ensures continuous communication between the investor, the contractor, the technical inspector and other experts, the external expert company is responsible for liaising with the Managing Authority, as well as preparing reports, reports and accounts related to KEHOP support. 2. Description of the initial situation, identification of the project location(s) The project is carried out in several locations, the planned installation areas of the photovoltaic power plants are located in the territory of selected municipalities belonging to the distribution licensees Elmü Networki Kft. and Émász Networki Kft. The properties concerned are owned by the respective municipalities. MVM Hungarowind Kft. leases the properties necessary for the implementation of the project from the owners. There is currently no economic activity in the areas, including energy production. 3. The planned solar power plants can reduce the CO2 emissions of Hungarian electricity production, thereby contributing significantly to the achievement of the objectives set out in the National Energy Strategy and the KEHOP — increasing the share of decentralised, environmentally friendly renewable energy sources in electricity production, reducing greenhouse gas emissions — and contributing significantly to the achievement of climate protection objectives. The primary objective of KEHOP is to reduce greenhouse gas emissions and the planned photovoltaic investment is fully consistent with this objective. The project results in an average of 51 104.42 GJ/year of energy from renewable sources and an average reduction in greenhouse gases of 13 849.30 tCO2/year. 4. Description of the project’s characteristic data a. Project title: Installation of photovoltaic power plants in the field of ELMŰ-ÉMÁSZ b. Total net cost (Total investment costs): HUF 6 510 067 200 Project net eligible cost: HUF 6 098 392 675 d. amount of aid requested: HUF 2 299 996 601 e. Rate of aid requested: 37.71 % f. Average annual reduction of greenhouse gases (tonnes of CO2 equivalent/year): 13 849.30 g. Average sales of energy from renewable sources (GJ/year): 51 104,42 h Installed capacity for renewable energy generation (MWp): 13,5626 o Nominative capacity of electricity generation system (MW): 11,477 o Related heat production system nominal heat output (MWt): 0 i. Total net cost of annual greenhouse gas reductions (HUF 000/tonne CO2 equivalent/year): 470,064 j. Financial rate of return on the investment claimed (BMR): 2.03 % 5. According to the technical content of the planned development, the construction of a 589,68 kWp installed photovoltaic (PV) power plant with a nominal capacity of 499 kW (the planned power plants and the project — a total nominal capacity of 11.477 MW — corresponds to the Call and point 3.4.1.1 “b” of the Call, because its capacity is between 8 and 20 MW). The photovoltaic power plant uses solar energy to generate electricity, which is fed into the national public network. The solar photovoltaic power plant consists of one field and each field has its own medium voltage/0.4 transformer through which it is connected to the public network. Solar panels with a capacity of 270 Wp each, placed in the south direction at an angle of 35° on a steel support, generate direct current electricity under the influence of solar radiation or scattered light. The electricity generated by each panel is summed up by serial-parallel switching. First, a limited number of solar panels are connected with DC cables, these so-called strings. Each string is directly connected to the string inverters placed on the steel support structure, which are the DC energy alternating (English) | |||||||||||||||
| Property / summary: 1. Brief presentation of the organisation implementing the project, previous developments of the project owner MVM Hungarowind Kft. (the 100 % state-owned MVM Zrt. From October 2015 until March 2016, the Pécs Heat Plant had invested in the construction of a photovoltaic power plant with a capacity of 10 MWp in the former, abandoned and fully recultivated tailpit. The Company therefore has sufficient experience to carry out the photovoltaic plant investment according to the present feasibility study. The project management tasks arising in connection with the investment are performed by internal experts (the narrowest internal project management team is made up of the project manager, the deputy project manager and the professional manager), their work is also supported by internally involved administrative staff and by an external project management expert company. The internal project management organisation ensures continuous communication between the investor, the contractor, the technical inspector and other experts, the external expert company is responsible for liaising with the Managing Authority, as well as preparing reports, reports and accounts related to KEHOP support. 2. Description of the initial situation, identification of the project location(s) The project is carried out in several locations, the planned installation areas of the photovoltaic power plants are located in the territory of selected municipalities belonging to the distribution licensees Elmü Networki Kft. and Émász Networki Kft. The properties concerned are owned by the respective municipalities. MVM Hungarowind Kft. leases the properties necessary for the implementation of the project from the owners. There is currently no economic activity in the areas, including energy production. 3. The planned solar power plants can reduce the CO2 emissions of Hungarian electricity production, thereby contributing significantly to the achievement of the objectives set out in the National Energy Strategy and the KEHOP — increasing the share of decentralised, environmentally friendly renewable energy sources in electricity production, reducing greenhouse gas emissions — and contributing significantly to the achievement of climate protection objectives. The primary objective of KEHOP is to reduce greenhouse gas emissions and the planned photovoltaic investment is fully consistent with this objective. The project results in an average of 51 104.42 GJ/year of energy from renewable sources and an average reduction in greenhouse gases of 13 849.30 tCO2/year. 4. Description of the project’s characteristic data a. Project title: Installation of photovoltaic power plants in the field of ELMŰ-ÉMÁSZ b. Total net cost (Total investment costs): HUF 6 510 067 200 Project net eligible cost: HUF 6 098 392 675 d. amount of aid requested: HUF 2 299 996 601 e. Rate of aid requested: 37.71 % f. Average annual reduction of greenhouse gases (tonnes of CO2 equivalent/year): 13 849.30 g. Average sales of energy from renewable sources (GJ/year): 51 104,42 h Installed capacity for renewable energy generation (MWp): 13,5626 o Nominative capacity of electricity generation system (MW): 11,477 o Related heat production system nominal heat output (MWt): 0 i. Total net cost of annual greenhouse gas reductions (HUF 000/tonne CO2 equivalent/year): 470,064 j. Financial rate of return on the investment claimed (BMR): 2.03 % 5. According to the technical content of the planned development, the construction of a 589,68 kWp installed photovoltaic (PV) power plant with a nominal capacity of 499 kW (the planned power plants and the project — a total nominal capacity of 11.477 MW — corresponds to the Call and point 3.4.1.1 “b” of the Call, because its capacity is between 8 and 20 MW). The photovoltaic power plant uses solar energy to generate electricity, which is fed into the national public network. The solar photovoltaic power plant consists of one field and each field has its own medium voltage/0.4 transformer through which it is connected to the public network. Solar panels with a capacity of 270 Wp each, placed in the south direction at an angle of 35° on a steel support, generate direct current electricity under the influence of solar radiation or scattered light. The electricity generated by each panel is summed up by serial-parallel switching. First, a limited number of solar panels are connected with DC cables, these so-called strings. Each string is directly connected to the string inverters placed on the steel support structure, which are the DC energy alternating (English) / rank | |||||||||||||||
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| Property / summary: 1. Brief presentation of the organisation implementing the project, previous developments of the project owner MVM Hungarowind Kft. (the 100 % state-owned MVM Zrt. From October 2015 until March 2016, the Pécs Heat Plant had invested in the construction of a photovoltaic power plant with a capacity of 10 MWp in the former, abandoned and fully recultivated tailpit. The Company therefore has sufficient experience to carry out the photovoltaic plant investment according to the present feasibility study. The project management tasks arising in connection with the investment are performed by internal experts (the narrowest internal project management team is made up of the project manager, the deputy project manager and the professional manager), their work is also supported by internally involved administrative staff and by an external project management expert company. The internal project management organisation ensures continuous communication between the investor, the contractor, the technical inspector and other experts, the external expert company is responsible for liaising with the Managing Authority, as well as preparing reports, reports and accounts related to KEHOP support. 2. Description of the initial situation, identification of the project location(s) The project is carried out in several locations, the planned installation areas of the photovoltaic power plants are located in the territory of selected municipalities belonging to the distribution licensees Elmü Networki Kft. and Émász Networki Kft. The properties concerned are owned by the respective municipalities. MVM Hungarowind Kft. leases the properties necessary for the implementation of the project from the owners. There is currently no economic activity in the areas, including energy production. 3. The planned solar power plants can reduce the CO2 emissions of Hungarian electricity production, thereby contributing significantly to the achievement of the objectives set out in the National Energy Strategy and the KEHOP — increasing the share of decentralised, environmentally friendly renewable energy sources in electricity production, reducing greenhouse gas emissions — and contributing significantly to the achievement of climate protection objectives. The primary objective of KEHOP is to reduce greenhouse gas emissions and the planned photovoltaic investment is fully consistent with this objective. The project results in an average of 51 104.42 GJ/year of energy from renewable sources and an average reduction in greenhouse gases of 13 849.30 tCO2/year. 4. Description of the project’s characteristic data a. Project title: Installation of photovoltaic power plants in the field of ELMŰ-ÉMÁSZ b. Total net cost (Total investment costs): HUF 6 510 067 200 Project net eligible cost: HUF 6 098 392 675 d. amount of aid requested: HUF 2 299 996 601 e. Rate of aid requested: 37.71 % f. Average annual reduction of greenhouse gases (tonnes of CO2 equivalent/year): 13 849.30 g. Average sales of energy from renewable sources (GJ/year): 51 104,42 h Installed capacity for renewable energy generation (MWp): 13,5626 o Nominative capacity of electricity generation system (MW): 11,477 o Related heat production system nominal heat output (MWt): 0 i. Total net cost of annual greenhouse gas reductions (HUF 000/tonne CO2 equivalent/year): 470,064 j. Financial rate of return on the investment claimed (BMR): 2.03 % 5. According to the technical content of the planned development, the construction of a 589,68 kWp installed photovoltaic (PV) power plant with a nominal capacity of 499 kW (the planned power plants and the project — a total nominal capacity of 11.477 MW — corresponds to the Call and point 3.4.1.1 “b” of the Call, because its capacity is between 8 and 20 MW). The photovoltaic power plant uses solar energy to generate electricity, which is fed into the national public network. The solar photovoltaic power plant consists of one field and each field has its own medium voltage/0.4 transformer through which it is connected to the public network. Solar panels with a capacity of 270 Wp each, placed in the south direction at an angle of 35° on a steel support, generate direct current electricity under the influence of solar radiation or scattered light. The electricity generated by each panel is summed up by serial-parallel switching. First, a limited number of solar panels are connected with DC cables, these so-called strings. Each string is directly connected to the string inverters placed on the steel support structure, which are the DC energy alternating (English) / qualifier | |||||||||||||||
point in time: 9 February 2022
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Revision as of 10:36, 9 February 2022
Project Q3943632 in Hungary
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Establishment of photovoltaic power plants in the area of ELMŰ-ÉMÁSZ |
Project Q3943632 in Hungary |
Statements
6,098,392,675 forint
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49,665,501.803 Euro
0.0027336256 Euro
15 December 2021
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18,168,362,852.291 forint
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33.566172 percent
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1 May 2017
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7 September 2020
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MVM ZG Solar Korlátolt Felelősségű Társaság
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47°31'2.57"N, 20°28'40.48"E
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1. A projektet megvalósító szervezet tömör bemutatása, projektgazda korábbi fejlesztései Az MVM Hungarowind Kft. (a 100% állami tulajdonú MVM Zrt. 100%-os tulajdonában lévő társaság) 2015 októberétől 2016 márciusáig a Pécsi Hőerőmű egykori, már felhagyott és teljes mértékben rekultivált zagyterének területén 10 MWp teljesítményű fotovoltaikus erőmű létesítésére irányuló beruházást valósított meg. A Társaság tehát megfelelő tapasztalatokkal rendelkezik a jelen megvalósíthatósági tanulmány szerinti fotovoltaikus erőművi beruházás megvalósításához. A beruházással kapcsolatosan felmerülő projektmenedzsment feladatok belső szakértők által kerülnek ellátásra (a legszűkebb belső projektmenedzsment teamet a projektmenedzser, a projektmenedzser-helyettes és a szakmai vezető alkotja), az ő munkájukat szintén belső szereplő adminisztratív munkatársak, valamint külső projektmenedzsment szakértő társaság támogatja. A belső projektmenedzsment szervezet biztosítja a folyamatos kommunikációt a beruházó, a kivitelező, a műszaki ellenőr és az egyéb szakértők között, a külső szakértő társaság feladata az Irányító Hatósággal való kapcsolattartás, valamint a KEHOP támogatáshoz kapcsolódó beszámolók, jelentések elkészítése és az elszámolások gördülékeny ügyintézése. 2. A kiinduló helyzet ismertetése, a projekt helyszín/helyszínek megjelölése A projekt több helyszínen valósul meg, a fotovoltaikus erőművek tervezett telepítési területei az Elmü Hálózati Kft. és az Émász Hálózati Kft. elosztói engedélyesekhez tartozó, kiválasztásra került önkormányzatok területén helyezkednek el. Az érintett ingatlanok az adott önkormányzatok tulajdonában vannak. Az MVM Hungarowind Kft. a projekt megvalósításához szükséges ingatlanokat bérbe veszi a tulajdonosoktól. A területeken jelenleg nem folyik gazdasági tevékenység, így energiatermelés sem. 3. A projekt célkitűzéseinek, indokoltságának alátámasztása és a tervezett eredmények, hatások bemutatása A tervezett naperőművekkel a magyar villamosenergia-termelés CO2-kibocsátása csökkenthető, ezzel mind a Nemzeti Energiastratégiában, mind a KEHOP-ban meghatározott célok – a villamosenergia-termelésben decentralizált, környezetbarát megújuló energiaforrások arányának növelése, az üvegházhatású gázok kibocsátásának csökkentése –, továbbá a klímavédelmi célkitűzések eléréséhez is jelentősen hozzájárul. A KEHOP elsődleges célkitűzése az üvegházhatású gázok kibocsátásának csökkentése, ehhez a célhoz a tervezett fotovoltaikus beruházás teljes mértékben illeszkedik. A projekt eredményeként a megújuló energiaforrásból előállított energiamennyiség átlagos értéke 51 104,42 GJ/év, az üvegházhatást okozó gázok csökkenése átlagosan 13 849,30 tCO2/év. 4. A projekt jellemző adatainak ismertetése a. A projekt címe: Fotovoltaikus erőművek létesítése az ELMŰ-ÉMÁSZ területén b. Teljes nettó költség (Beruházási összköltség): 6 510 067 200 Ft c. Projekt nettó elszámolható költsége: 6 098 392 675 Ft d. Igényelt támogatás összege: 2 299 996 601 Ft e. Igényelt támogatás aránya: 37,71% f. Üvegházhatást okozó gázok átlagos éves csökkenése (tonna CO2 egyenérték/év): 13 849,30 g. Megújuló energiaforrásból előállított értékesített energiamennyiség átlaga (GJ/év): 51 104,42 h. A megújuló energia előállítására vonatkozó beépített kapacitás (MWp): 13,5626 o Villamos energia termelő rendszer névleges teljesítőképessége (MW): 11,477 o Kapcsolt hőtermelő rendszer névleges hőteljesítménye (MWt): 0 i. Az üvegházhatást okozó gázok éves csökkenésére vetített teljes nettó költség (ezer Ft/tonna CO2 egyenérték/év): 470,064 j. A támogatás igénylés szerinti beruházás pénzügyi megtérülési rátája (BMR): 2,03% 5. A projekt keretében tervezett megújuló energiát hasznosító fejlesztés műszaki tartalmának rövid összefoglalása A tervezett fejlesztés műszaki tartalma szerint a telephelyek mindegyikén egy 589,68 kWp beépített teljesítményű, 499 kW névleges teljesítőképességű fotovoltaikus (PV) erőmű létesítése (a tervezett erőművek és a projekt – 11,477 MW összesített névleges teljesítőképesség – megfelel a Felhívásnak, illetve a Felhívás 3.4.1.1 „b” pontjának, mert teljesítőképessége 8-20 MW közötti). A fotovoltaikus erőmű a nap energiáját felhasználva villamos energiát állít elő, amely az országos közcélú hálózatba kerül betáplálásra. A fotovoltaikus naperőmű egy-egy mezőből áll és minden mező rendelkezik egy saját középfeszültség/0,4 transzformátorral, amelyeken keresztül csatlakoznak a közcélú hálózathoz. A napsugárzás, ill. a szórt fény hatására a déli irányban, 35°-os szögben, acél tartószerkezeten elhelyezett, egyenként 270 Wp teljesítményű napelem panelek egyenáramú villamos energiát termelnek. Az egyes panelek által megtermelt villamos energia összegzése soros-párhuzamos kapcsolással történik. Először meghatározott számú napelem panel kerül sorba kötésre DC kábelekkel, ezek az ún. sztringek. Az egyes sztringek közvetlenül csatlakoznak az acél tartószerkezeten elhelyezett sztring inverterekhez, melyek az egyenáramú energia váltakozó á (Hungarian)
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1. Brief presentation of the organisation implementing the project, previous developments of the project owner MVM Hungarowind Kft. (the 100 % state-owned MVM Zrt. From October 2015 until March 2016, the Pécs Heat Plant had invested in the construction of a photovoltaic power plant with a capacity of 10 MWp in the former, abandoned and fully recultivated tailpit. The Company therefore has sufficient experience to carry out the photovoltaic plant investment according to the present feasibility study. The project management tasks arising in connection with the investment are performed by internal experts (the narrowest internal project management team is made up of the project manager, the deputy project manager and the professional manager), their work is also supported by internally involved administrative staff and by an external project management expert company. The internal project management organisation ensures continuous communication between the investor, the contractor, the technical inspector and other experts, the external expert company is responsible for liaising with the Managing Authority, as well as preparing reports, reports and accounts related to KEHOP support. 2. Description of the initial situation, identification of the project location(s) The project is carried out in several locations, the planned installation areas of the photovoltaic power plants are located in the territory of selected municipalities belonging to the distribution licensees Elmü Networki Kft. and Émász Networki Kft. The properties concerned are owned by the respective municipalities. MVM Hungarowind Kft. leases the properties necessary for the implementation of the project from the owners. There is currently no economic activity in the areas, including energy production. 3. The planned solar power plants can reduce the CO2 emissions of Hungarian electricity production, thereby contributing significantly to the achievement of the objectives set out in the National Energy Strategy and the KEHOP — increasing the share of decentralised, environmentally friendly renewable energy sources in electricity production, reducing greenhouse gas emissions — and contributing significantly to the achievement of climate protection objectives. The primary objective of KEHOP is to reduce greenhouse gas emissions and the planned photovoltaic investment is fully consistent with this objective. The project results in an average of 51 104.42 GJ/year of energy from renewable sources and an average reduction in greenhouse gases of 13 849.30 tCO2/year. 4. Description of the project’s characteristic data a. Project title: Installation of photovoltaic power plants in the field of ELMŰ-ÉMÁSZ b. Total net cost (Total investment costs): HUF 6 510 067 200 Project net eligible cost: HUF 6 098 392 675 d. amount of aid requested: HUF 2 299 996 601 e. Rate of aid requested: 37.71 % f. Average annual reduction of greenhouse gases (tonnes of CO2 equivalent/year): 13 849.30 g. Average sales of energy from renewable sources (GJ/year): 51 104,42 h Installed capacity for renewable energy generation (MWp): 13,5626 o Nominative capacity of electricity generation system (MW): 11,477 o Related heat production system nominal heat output (MWt): 0 i. Total net cost of annual greenhouse gas reductions (HUF 000/tonne CO2 equivalent/year): 470,064 j. Financial rate of return on the investment claimed (BMR): 2.03 % 5. According to the technical content of the planned development, the construction of a 589,68 kWp installed photovoltaic (PV) power plant with a nominal capacity of 499 kW (the planned power plants and the project — a total nominal capacity of 11.477 MW — corresponds to the Call and point 3.4.1.1 “b” of the Call, because its capacity is between 8 and 20 MW). The photovoltaic power plant uses solar energy to generate electricity, which is fed into the national public network. The solar photovoltaic power plant consists of one field and each field has its own medium voltage/0.4 transformer through which it is connected to the public network. Solar panels with a capacity of 270 Wp each, placed in the south direction at an angle of 35° on a steel support, generate direct current electricity under the influence of solar radiation or scattered light. The electricity generated by each panel is summed up by serial-parallel switching. First, a limited number of solar panels are connected with DC cables, these so-called strings. Each string is directly connected to the string inverters placed on the steel support structure, which are the DC energy alternating (English)
9 February 2022
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Kisköre, Heves
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Identifiers
KEHOP-5.1.2-17-2017-00002
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