Investment in energy efficiency development at CORECOMM SI Kft. (Q3911895): Difference between revisions
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In March 2020, we put into operation our new laminator equipment, which is a world-class equipment that meets all needs, the capacity and other parameters of which we were able to use 3x our production capacity, so that the laminators used so far are placed in the production line only as a backup. However, the electrical power supply of this equipment is currently insurmountable, since the electrical power demand of the site significantly exceeds the available electrical capacity of the site. we have continuous shutdowns and monitor the operation of other customers, and we have to make sure that no additional loads appear on the network at the start of the laminator.Of course, this type of operation is not a solution in the long term, and we consider it necessary to purchase a special uninterrupted power supply to solve peak consumption control, which is attached to the laminator machine.Energy stored in battery batteries attached to the equipment is instantaneous, with its simultaneous use, it is possible to push the available energy for a short load time parallel to the available network.In the framework of the project, a 100 kW additional energy,un.peak power control system is installed with 183 kWh li-ion battery battery and control.The entire equipment consists of 3 parts:1. SOCOMEC SUNSYS PCS 100kVA bidirectional inverter and,2. LG Li-ion from 183 kWh battery, 3. SOCOMEC On Grid Control Module, which provides control.(Our company is the exclusive distributor and specialist body of Socomec Ltd.(manufacturer)for certain products in Hungary.In the framework of this project, we also wish to acquire the tools from the manufacturing company to increase the capacity of our manufacturing activities, as the specific special equipment cannot be purchased from other manufacturers.Our production line is compatible with these devices.For the distribution of devices to be procured in the framework of the tender, we are not entitled to service)Current 3x315A network feed-in.The above-mentioned laminator, when heating up, requires 3x210A, a time interval of about 3-5 minutes, after which 3x100Are.In addition, the air conditionings used for heating and cooling operate continuously, which take up approx.3x50A.The stringers(3pcs)(scaling machines for solar cell soldering) also use 3x3x30A continuously.The rest of fogyasztó:PC-k, lighting, laser cutters, network devices, etc. require 3x30A. This shows that the continuous current is about 3x270A. At the start of lamination, 3x380A is required for about 3-5 minutes every 30 minutes. The above-mentioned energy storage would solve our additional energy demand for these periods, so that the maximum amount of electricity that can be used for about 2 hours would be almost 3x460A. Our production capacity would increase from 400-450 pcs laminated products per day to 750-800 laminated products. In addition, within the framework of the project, 1 Phenom L 3D printer is also purchased, because during the development of our production, the high cost of machining parts and tools sets the limit for the implementation and testing of a huge number of new innovative ideas. In many cases, 3D printing parts meet these test functions, sometimes even for final use. Thanks to the fast and precise machining speed of resining 3D printers, machine station and repair times can be significantly reduced in maintenance use. With the introduction of 3D printing as rapid prototyping technology, our development work can be accelerated. The equipment purchased in the framework of the project increases the production efficiency of solar panels manufactured in the current BIPV technology solar roof tiles, thereby increasing our competitiveness. Our aim is to acquire technology for continuous and trouble-free production. In order to meet demand, it is essential to increase the efficiency of the production line(currently 13,000 products/months).The development will enable a unique production technology to meet the specific needs of the European market in a more cost-effective and dynamic way, and to establish the production of solar cells that maximise the potential of renewable energy use. In parallel with the implementation of the investment, the production capacity could increase by almost double, so we will need more storage space, and it is expected that we will also be able to grow in intellectual stock. The total area of the currently used property is 3800nm, but the company does not use more than about 220nm.The aim is to operate the existing capacity more efficiently, which will result in an increase in production capacity. This is why it is necessary to expand our currently available 1200nm storage capacity with at least 600nm storage capacity.The condition of taking possession of a new warehouse is to modernise it, as its current state of affairs does not allow us to store finished products or sensitive materials here (English) | |||||||||||||||
| Property / summary: In March 2020, we put into operation our new laminator equipment, which is a world-class equipment that meets all needs, the capacity and other parameters of which we were able to use 3x our production capacity, so that the laminators used so far are placed in the production line only as a backup. However, the electrical power supply of this equipment is currently insurmountable, since the electrical power demand of the site significantly exceeds the available electrical capacity of the site. we have continuous shutdowns and monitor the operation of other customers, and we have to make sure that no additional loads appear on the network at the start of the laminator.Of course, this type of operation is not a solution in the long term, and we consider it necessary to purchase a special uninterrupted power supply to solve peak consumption control, which is attached to the laminator machine.Energy stored in battery batteries attached to the equipment is instantaneous, with its simultaneous use, it is possible to push the available energy for a short load time parallel to the available network.In the framework of the project, a 100 kW additional energy,un.peak power control system is installed with 183 kWh li-ion battery battery and control.The entire equipment consists of 3 parts:1. SOCOMEC SUNSYS PCS 100kVA bidirectional inverter and,2. LG Li-ion from 183 kWh battery, 3. SOCOMEC On Grid Control Module, which provides control.(Our company is the exclusive distributor and specialist body of Socomec Ltd.(manufacturer)for certain products in Hungary.In the framework of this project, we also wish to acquire the tools from the manufacturing company to increase the capacity of our manufacturing activities, as the specific special equipment cannot be purchased from other manufacturers.Our production line is compatible with these devices.For the distribution of devices to be procured in the framework of the tender, we are not entitled to service)Current 3x315A network feed-in.The above-mentioned laminator, when heating up, requires 3x210A, a time interval of about 3-5 minutes, after which 3x100Are.In addition, the air conditionings used for heating and cooling operate continuously, which take up approx.3x50A.The stringers(3pcs)(scaling machines for solar cell soldering) also use 3x3x30A continuously.The rest of fogyasztó:PC-k, lighting, laser cutters, network devices, etc. require 3x30A. This shows that the continuous current is about 3x270A. At the start of lamination, 3x380A is required for about 3-5 minutes every 30 minutes. The above-mentioned energy storage would solve our additional energy demand for these periods, so that the maximum amount of electricity that can be used for about 2 hours would be almost 3x460A. Our production capacity would increase from 400-450 pcs laminated products per day to 750-800 laminated products. In addition, within the framework of the project, 1 Phenom L 3D printer is also purchased, because during the development of our production, the high cost of machining parts and tools sets the limit for the implementation and testing of a huge number of new innovative ideas. In many cases, 3D printing parts meet these test functions, sometimes even for final use. Thanks to the fast and precise machining speed of resining 3D printers, machine station and repair times can be significantly reduced in maintenance use. With the introduction of 3D printing as rapid prototyping technology, our development work can be accelerated. The equipment purchased in the framework of the project increases the production efficiency of solar panels manufactured in the current BIPV technology solar roof tiles, thereby increasing our competitiveness. Our aim is to acquire technology for continuous and trouble-free production. In order to meet demand, it is essential to increase the efficiency of the production line(currently 13,000 products/months).The development will enable a unique production technology to meet the specific needs of the European market in a more cost-effective and dynamic way, and to establish the production of solar cells that maximise the potential of renewable energy use. In parallel with the implementation of the investment, the production capacity could increase by almost double, so we will need more storage space, and it is expected that we will also be able to grow in intellectual stock. The total area of the currently used property is 3800nm, but the company does not use more than about 220nm.The aim is to operate the existing capacity more efficiently, which will result in an increase in production capacity. This is why it is necessary to expand our currently available 1200nm storage capacity with at least 600nm storage capacity.The condition of taking possession of a new warehouse is to modernise it, as its current state of affairs does not allow us to store finished products or sensitive materials here (English) / rank | |||||||||||||||
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| Property / summary: In March 2020, we put into operation our new laminator equipment, which is a world-class equipment that meets all needs, the capacity and other parameters of which we were able to use 3x our production capacity, so that the laminators used so far are placed in the production line only as a backup. However, the electrical power supply of this equipment is currently insurmountable, since the electrical power demand of the site significantly exceeds the available electrical capacity of the site. we have continuous shutdowns and monitor the operation of other customers, and we have to make sure that no additional loads appear on the network at the start of the laminator.Of course, this type of operation is not a solution in the long term, and we consider it necessary to purchase a special uninterrupted power supply to solve peak consumption control, which is attached to the laminator machine.Energy stored in battery batteries attached to the equipment is instantaneous, with its simultaneous use, it is possible to push the available energy for a short load time parallel to the available network.In the framework of the project, a 100 kW additional energy,un.peak power control system is installed with 183 kWh li-ion battery battery and control.The entire equipment consists of 3 parts:1. SOCOMEC SUNSYS PCS 100kVA bidirectional inverter and,2. LG Li-ion from 183 kWh battery, 3. SOCOMEC On Grid Control Module, which provides control.(Our company is the exclusive distributor and specialist body of Socomec Ltd.(manufacturer)for certain products in Hungary.In the framework of this project, we also wish to acquire the tools from the manufacturing company to increase the capacity of our manufacturing activities, as the specific special equipment cannot be purchased from other manufacturers.Our production line is compatible with these devices.For the distribution of devices to be procured in the framework of the tender, we are not entitled to service)Current 3x315A network feed-in.The above-mentioned laminator, when heating up, requires 3x210A, a time interval of about 3-5 minutes, after which 3x100Are.In addition, the air conditionings used for heating and cooling operate continuously, which take up approx.3x50A.The stringers(3pcs)(scaling machines for solar cell soldering) also use 3x3x30A continuously.The rest of fogyasztó:PC-k, lighting, laser cutters, network devices, etc. require 3x30A. This shows that the continuous current is about 3x270A. At the start of lamination, 3x380A is required for about 3-5 minutes every 30 minutes. The above-mentioned energy storage would solve our additional energy demand for these periods, so that the maximum amount of electricity that can be used for about 2 hours would be almost 3x460A. Our production capacity would increase from 400-450 pcs laminated products per day to 750-800 laminated products. In addition, within the framework of the project, 1 Phenom L 3D printer is also purchased, because during the development of our production, the high cost of machining parts and tools sets the limit for the implementation and testing of a huge number of new innovative ideas. In many cases, 3D printing parts meet these test functions, sometimes even for final use. Thanks to the fast and precise machining speed of resining 3D printers, machine station and repair times can be significantly reduced in maintenance use. With the introduction of 3D printing as rapid prototyping technology, our development work can be accelerated. The equipment purchased in the framework of the project increases the production efficiency of solar panels manufactured in the current BIPV technology solar roof tiles, thereby increasing our competitiveness. Our aim is to acquire technology for continuous and trouble-free production. In order to meet demand, it is essential to increase the efficiency of the production line(currently 13,000 products/months).The development will enable a unique production technology to meet the specific needs of the European market in a more cost-effective and dynamic way, and to establish the production of solar cells that maximise the potential of renewable energy use. In parallel with the implementation of the investment, the production capacity could increase by almost double, so we will need more storage space, and it is expected that we will also be able to grow in intellectual stock. The total area of the currently used property is 3800nm, but the company does not use more than about 220nm.The aim is to operate the existing capacity more efficiently, which will result in an increase in production capacity. This is why it is necessary to expand our currently available 1200nm storage capacity with at least 600nm storage capacity.The condition of taking possession of a new warehouse is to modernise it, as its current state of affairs does not allow us to store finished products or sensitive materials here (English) / qualifier | |||||||||||||||
point in time: 8 February 2022
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Revision as of 14:11, 8 February 2022
Project Q3911895 in Hungary
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Investment in energy efficiency development at CORECOMM SI Kft. |
Project Q3911895 in Hungary |
Statements
69,583,330 forint
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422,699.494 Euro
0.0027336256 Euro
14 December 2021
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154,629,622.222 forint
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44.999999 percent
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15 October 2020
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18 May 2021
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"CoreComm SI" Szolgáltató és Kereskedelmi Korlátolt Felelősségű Társaság
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47°5'34.12"N, 17°54'50.44"E
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2020 márciusban állítottuk üzembe új laminátor berendezésünket, amely egy minden igényt kielégítő olyan világszínvonalú berendezés, melynek kapacitását és egyéb paramétereit kihasználva a gyártási kapacitásunkat 3x-ozni tudtuk úgy,hogy az eddig használt laminátorok csak tartalékként vannak elhelyezve a gyártósorban.Ennek a berendezésnek a villamos tápellátása azonban jelenleg megoldhatatlan feladat elé állít minket,ugyanis bekapcsolási és induló áramigénye jelentősen meghaladja a telephely rendelkezésre álló villamos kapacitását,emiatt folyamatosan leállásaink vannak,illetve figyelemmel kell kísérjük egyéb fogyasztók működését, szabályzással kell megoldanunk azt,hogy a laminátor indulásakor további terhelések lehetőleg ne jelentkezzenek a hálózaton.Természetesen az ilyen jellegű működés hosszútávon nem megoldás,emiatt tartjuk szükségesnek egy csúcsfogyasztás szabályzást megoldó speciális szünetmentes tápegység beszerzését,melyet a laminátor géphez illesztünk.A berendezéshez csatolt akkumulátor telepekben tárolt energia azonnali,egyidejű használatával a rendelkezésre álló hálózattal párhuzamosan rövid terhelési időre fel lehet tolni a rendelkezésre álló energiát a gép indulásához.A projekt keretében egy 100kW teljesítményű kiegészítő energia,un.csúcsfogyasztás kiszabályzó rendszer 183 kWh li-ion akkumulátor teleppel és vezéréléssel kerül kiépítésre.A teljes berendezés 3 részből áll:1. Socomec SUNSYS PCS 100kVA bidirectional inverterből valamint,2. LG Li-ion 183 kWh-os akkumulátor telepből, 3. Socomec On Grid Control Module-ból,mely a vezérlést biztosítja.(Cégünk a Socomec Ltd.(gyártó)cég egyes termékei vonatkozásában a magyarországi kizárólagos forgalmazója és szakszervize vagyunk.Jelen projekt keretében a feldolgozóipari tevekénységünk kapacitásbővítéséhez szintén a gyártó cégtől kívánjuk beszerezni az eszközöket,mivel a konkrét speciális eszközöket más gyártótól nem lehet beszerezni.A gyártósorunk ezekkel az eszközökkel kompatibilis.A pályázat keretében beszerzendő eszközök forgalmazására,szervízelésére nem vagyunk jogosultak)Jelenleg 3x315A hálózati betáplálás áll rendelkezésünkre.A fent említett laminátor,felfűtéskor 3x210A-t igényel ez kb3-5 perces időintervallum,utána visszaesik 3x100Are.Emellett a fűtésre és hűtésre használt klímák folyamatosan működnek,melyek kb3x50A-t vesznek fel.A stringerek(3db)(napelem cellákat forrasztó gépek)szintén 3x3x30A-t használnak folyamatosan.A többi fogyasztó:PC-k, világítás, lézer vágó, hálózati eszközök stb. 3x30A-t igényelnek. Ebből látszik, hogy a folyamatos áramfelvétel kb. 3x270A. A laminálás indulásakor, 30 percenként kb. 3-5 percre szükséges 3x380A. A fent említett energiatároló ezen időszakokra oldaná meg a többlet energiaigényünket, így majdnem 3x460A lenne kb. 2 órán keresztül a maximálisan használható árammennyiség. A gyártási kapacitásunk napi 400-450 db laminált termékről, 750-800 db laminált termékre növekedne. Továbbá a projekt keretén belül 1db Phenom L 3D nyomtató is beszerzésre kerül, ugyanis gyártásunk fejlesztése során rengeteg, új innovatív ötlet megvalósításának, kipróbálásának határt szab az azokhoz szükséges alkatrészek, szerszámok magas megmunkálási költsége. Sok esetben a 3D nyomtatással készült alkatrészek ezeknek a teszt funkcióknak, esetenként végleges felhasználásra is megfelelnek. A műgyantás 3D nyomtatók gyors és precíz megmunkálási sebességének köszönhetően karbantartási felhasználásban is a gépállási és a javítási idők jelentősen csökkenthetőek. A 3D nyomtatás, mint rapid prototyping technológia bevezetésével, fejlesztési munkánk gyorsítható. A projekt keretében beszerzett eszközök növelik a jelenlegi BIPV technológiájú napelemes tetőcserépbe gyártott napelemes panelek gyártási hatékonyságát, ezáltal versenyképességünk is növekszik.Célunk a folyamatos és problémamentes termelést szolgáló technológiai beszerzése. A kereslet kielégítéséhez elengedhetetlen a gyártósor hatékonyságának növelése(jelenlegi 13.000 termék/hónap).A fejlesztéssel olyan egyedi gyártási technológiára lesz lehetőség,aminek során költséghatékonyabban és dinamikusabb módon lehet az európai piacon felmerülő egyedi igényeket kielégíteni,a megújuló energiafelhasználásban rejlő lehetőségeket maximálisan kiaknázó napelemgyártást meghonosítani. A beruházás megvalósításával párhuzamosan a gyártói kapacitás közel duplájára emelkedhet, ezáltal nagyobb raktározási területre lesz szükségünk,illetve várhatóan szellemi állományban is tudunk bővülni. A jelenleg használt ingatlan összterülete 3800nm,azonban ebből nem használ többet a vállalkozás,mint kb. 220nm.A cél a meglévő kapacitás hatékonyabb működése,amely a gyártási kapacitás növekedését fogja eredményezni.Emiatt szükséges,hogy a jelenleg rendelkezésre álló 1200nm raktárkapacitásunkat legalább további 600nm raktárkapacitással tudjuk bővíteni.Az új raktár birtokbavételének feltétele annak korszerűsítése,hiszen jelenlegi korszerűtlen állapota nem teszi lehetővé,hogy a késztermékeket vagy az érzékeny alapanyagokat itt tároljuk (Hungarian)
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In March 2020, we put into operation our new laminator equipment, which is a world-class equipment that meets all needs, the capacity and other parameters of which we were able to use 3x our production capacity, so that the laminators used so far are placed in the production line only as a backup. However, the electrical power supply of this equipment is currently insurmountable, since the electrical power demand of the site significantly exceeds the available electrical capacity of the site. we have continuous shutdowns and monitor the operation of other customers, and we have to make sure that no additional loads appear on the network at the start of the laminator.Of course, this type of operation is not a solution in the long term, and we consider it necessary to purchase a special uninterrupted power supply to solve peak consumption control, which is attached to the laminator machine.Energy stored in battery batteries attached to the equipment is instantaneous, with its simultaneous use, it is possible to push the available energy for a short load time parallel to the available network.In the framework of the project, a 100 kW additional energy,un.peak power control system is installed with 183 kWh li-ion battery battery and control.The entire equipment consists of 3 parts:1. SOCOMEC SUNSYS PCS 100kVA bidirectional inverter and,2. LG Li-ion from 183 kWh battery, 3. SOCOMEC On Grid Control Module, which provides control.(Our company is the exclusive distributor and specialist body of Socomec Ltd.(manufacturer)for certain products in Hungary.In the framework of this project, we also wish to acquire the tools from the manufacturing company to increase the capacity of our manufacturing activities, as the specific special equipment cannot be purchased from other manufacturers.Our production line is compatible with these devices.For the distribution of devices to be procured in the framework of the tender, we are not entitled to service)Current 3x315A network feed-in.The above-mentioned laminator, when heating up, requires 3x210A, a time interval of about 3-5 minutes, after which 3x100Are.In addition, the air conditionings used for heating and cooling operate continuously, which take up approx.3x50A.The stringers(3pcs)(scaling machines for solar cell soldering) also use 3x3x30A continuously.The rest of fogyasztó:PC-k, lighting, laser cutters, network devices, etc. require 3x30A. This shows that the continuous current is about 3x270A. At the start of lamination, 3x380A is required for about 3-5 minutes every 30 minutes. The above-mentioned energy storage would solve our additional energy demand for these periods, so that the maximum amount of electricity that can be used for about 2 hours would be almost 3x460A. Our production capacity would increase from 400-450 pcs laminated products per day to 750-800 laminated products. In addition, within the framework of the project, 1 Phenom L 3D printer is also purchased, because during the development of our production, the high cost of machining parts and tools sets the limit for the implementation and testing of a huge number of new innovative ideas. In many cases, 3D printing parts meet these test functions, sometimes even for final use. Thanks to the fast and precise machining speed of resining 3D printers, machine station and repair times can be significantly reduced in maintenance use. With the introduction of 3D printing as rapid prototyping technology, our development work can be accelerated. The equipment purchased in the framework of the project increases the production efficiency of solar panels manufactured in the current BIPV technology solar roof tiles, thereby increasing our competitiveness. Our aim is to acquire technology for continuous and trouble-free production. In order to meet demand, it is essential to increase the efficiency of the production line(currently 13,000 products/months).The development will enable a unique production technology to meet the specific needs of the European market in a more cost-effective and dynamic way, and to establish the production of solar cells that maximise the potential of renewable energy use. In parallel with the implementation of the investment, the production capacity could increase by almost double, so we will need more storage space, and it is expected that we will also be able to grow in intellectual stock. The total area of the currently used property is 3800nm, but the company does not use more than about 220nm.The aim is to operate the existing capacity more efficiently, which will result in an increase in production capacity. This is why it is necessary to expand our currently available 1200nm storage capacity with at least 600nm storage capacity.The condition of taking possession of a new warehouse is to modernise it, as its current state of affairs does not allow us to store finished products or sensitive materials here (English)
8 February 2022
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Veszprém, Veszprém
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Identifiers
GINOP-1.2.11-20-2020-00021
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