Research and development on the development of an innovative technology for the gasification of sewage sludge and municipal waste integrated into a cogeneration system based on thermal engine (Q130103): Difference between revisions
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(Removed claim: summary (P836): The project aims at developing an innovative technology for gasification of sewage sludge and municipal waste integrated into the cogeneration system based on thermal engine. This technology will enable the conversion of chemical energy from waste to electricity and heat towards low and medium-power. The research project will result in a technology that will be of the nature of product innovation and process innovation. The process of process...) |
(Created claim: summary (P836): The subject of the project is the development of innovative technology for gasification of sewage sludge and municipal waste integrated with a heat engine-based cogeneration system. This technology will allow the conversion of the chemical energy of fuel from waste to electricity and heat in the range of low and medium power. The result of the research project will be a technology that will be product innovation and process innovation. The proce...) |
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The subject of the project is the development of innovative technology for gasification of sewage sludge and municipal waste integrated with a heat engine-based cogeneration system. This technology will allow the conversion of the chemical energy of fuel from waste to electricity and heat in the range of low and medium power. The result of the research project will be a technology that will be product innovation and process innovation. The process innovation will consist of the use of an external combustion chamber with an exchanger, in which the exhaust energy will be converted to steam energy. The solution is a process innovation allowing you to use the chemical energy of syngas to power the cogeneration device without having to install complex syngas purification systems. The project will also create a new product, which will be characterised by an innovative approach linked to combining the gasification process with a heat engine-based cogeneration system. The combination of the gasification system with a heat engine-based cogeneration system by means of an external combustion chamber constitutes product innovations that have not been used so far in terms of low and medium power. The project will be completed within 18 months and will cover 3 research tasks. The project will create 2 new jobs. A project team consisting of 11 people, including 2 newly employed, will be established for its implementation. The company will involve subcontractor – University of Warmia and Mazury. The project implements and contributes directly to the specific objectives pursued in Priority Axis I: 1) Increased marketability of R & D activities; 2) Increasing innovation of companies in the areas of smart specialisation through R & D activities – research concerns 2 RIS areas – “Water economy” and “High-quality food”; 3) Increase the application of innovation in small and medium-sized enterprises. (English) | |||||||||||||||
| Property / summary: The subject of the project is the development of innovative technology for gasification of sewage sludge and municipal waste integrated with a heat engine-based cogeneration system. This technology will allow the conversion of the chemical energy of fuel from waste to electricity and heat in the range of low and medium power. The result of the research project will be a technology that will be product innovation and process innovation. The process innovation will consist of the use of an external combustion chamber with an exchanger, in which the exhaust energy will be converted to steam energy. The solution is a process innovation allowing you to use the chemical energy of syngas to power the cogeneration device without having to install complex syngas purification systems. The project will also create a new product, which will be characterised by an innovative approach linked to combining the gasification process with a heat engine-based cogeneration system. The combination of the gasification system with a heat engine-based cogeneration system by means of an external combustion chamber constitutes product innovations that have not been used so far in terms of low and medium power. The project will be completed within 18 months and will cover 3 research tasks. The project will create 2 new jobs. A project team consisting of 11 people, including 2 newly employed, will be established for its implementation. The company will involve subcontractor – University of Warmia and Mazury. The project implements and contributes directly to the specific objectives pursued in Priority Axis I: 1) Increased marketability of R & D activities; 2) Increasing innovation of companies in the areas of smart specialisation through R & D activities – research concerns 2 RIS areas – “Water economy” and “High-quality food”; 3) Increase the application of innovation in small and medium-sized enterprises. (English) / rank | |||||||||||||||
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| Property / summary: The subject of the project is the development of innovative technology for gasification of sewage sludge and municipal waste integrated with a heat engine-based cogeneration system. This technology will allow the conversion of the chemical energy of fuel from waste to electricity and heat in the range of low and medium power. The result of the research project will be a technology that will be product innovation and process innovation. The process innovation will consist of the use of an external combustion chamber with an exchanger, in which the exhaust energy will be converted to steam energy. The solution is a process innovation allowing you to use the chemical energy of syngas to power the cogeneration device without having to install complex syngas purification systems. The project will also create a new product, which will be characterised by an innovative approach linked to combining the gasification process with a heat engine-based cogeneration system. The combination of the gasification system with a heat engine-based cogeneration system by means of an external combustion chamber constitutes product innovations that have not been used so far in terms of low and medium power. The project will be completed within 18 months and will cover 3 research tasks. The project will create 2 new jobs. A project team consisting of 11 people, including 2 newly employed, will be established for its implementation. The company will involve subcontractor – University of Warmia and Mazury. The project implements and contributes directly to the specific objectives pursued in Priority Axis I: 1) Increased marketability of R & D activities; 2) Increasing innovation of companies in the areas of smart specialisation through R & D activities – research concerns 2 RIS areas – “Water economy” and “High-quality food”; 3) Increase the application of innovation in small and medium-sized enterprises. (English) / qualifier | |||||||||||||||
point in time: 21 October 2020
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Revision as of 15:49, 21 October 2020
Project in Poland financed by DG Regio
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Research and development on the development of an innovative technology for the gasification of sewage sludge and municipal waste integrated into a cogeneration system based on thermal engine |
Project in Poland financed by DG Regio |
Statements
248,031.0 zloty
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408,030.0 zloty
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60.79 percent
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1 July 2018
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31 March 2020
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INSTYTUT ENERGII SPOŁKA Z OGRANICZONĄ ODPOWIEDZIALNOŚCIĄ
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Przedmiotem projektu jest opracowanie nowatorskiej technologii zgazowania osadów ściekowych i odpadów komunalnych zintegrowanej z systemem kogeneracyjnym opartym na silniku cieplnym. Technologia ta umożliwi zamianę energii chemicznej paliwa z odpadów na energię elektryczną i ciepło w zakresie niskich i średnich mocy. Wynikiem projektu badawczego będzie technologia, która będzie miała charakter innowacji produktowej oraz innowacji procesowej. Innowacja procesowa będzie polegać na zastosowaniu zewnętrznej komory spalania z wymiennikiem, w której nastąpi zamiana energii spalin na energię pary wodnej. Rozwiązanie stanowi innowacje procesową umożliwiając wykorzystując energię chemiczna syngazu do zasilania urządzenia kogeneracyjnego bez konieczności instalowania skomplikowanych systemów oczyszczania syngazu. W ramach projektu powstanie również nowy produkt, który będzie charakteryzował się innowacyjnym podejściem związanym połączeniem procesu zgazowania z systemem kogeneracyjnym opartym na silniku cieplnym. Połączenie układu zgazowania z układem kogeneracyjnym opartym na silniku cieplnym za pomocą zewnętrznej komory spalania stanowi innowacje produktową nie stosowaną do tej pory w zakresie niskich i średnich mocy. Projekt zostanie zrealizowany w okresie 18 miesięcy i obejmie 3 zadania badawcze. W ramach projektu powstaną 2 nowe miejsca pracy. Do jego realizacji zostanie powołany zespół projektowy składający się z 11 osób w tym 2 nowo zatrudnionych. Spółka zaangażuje podwykonawcę merytorycznego – Uniwersytet Warmińsko-Mazurski. Projekt wprost realizuje i przyczyni się do osiągnięcia celów szczegółowych realizowanych w Osi Priorytetowej nr I: 1) Zwiększone urynkowienie działalności badawczo-rozwojowej; 2) Wzrost innowacyjności firm w obszarach inteligentnych specjalizacji dzięki działalności B+R - badania dotyczą 2 obszarów RIS – „Ekonomia wody” i „Żywność wysokiej jakości”; 3) Zwiększenie zastosowania innowacji w małych i średnich przedsiębiorstwach. (Polish)
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The subject of the project is the development of innovative technology for gasification of sewage sludge and municipal waste integrated with a heat engine-based cogeneration system. This technology will allow the conversion of the chemical energy of fuel from waste to electricity and heat in the range of low and medium power. The result of the research project will be a technology that will be product innovation and process innovation. The process innovation will consist of the use of an external combustion chamber with an exchanger, in which the exhaust energy will be converted to steam energy. The solution is a process innovation allowing you to use the chemical energy of syngas to power the cogeneration device without having to install complex syngas purification systems. The project will also create a new product, which will be characterised by an innovative approach linked to combining the gasification process with a heat engine-based cogeneration system. The combination of the gasification system with a heat engine-based cogeneration system by means of an external combustion chamber constitutes product innovations that have not been used so far in terms of low and medium power. The project will be completed within 18 months and will cover 3 research tasks. The project will create 2 new jobs. A project team consisting of 11 people, including 2 newly employed, will be established for its implementation. The company will involve subcontractor – University of Warmia and Mazury. The project implements and contributes directly to the specific objectives pursued in Priority Axis I: 1) Increased marketability of R & D activities; 2) Increasing innovation of companies in the areas of smart specialisation through R & D activities – research concerns 2 RIS areas – “Water economy” and “High-quality food”; 3) Increase the application of innovation in small and medium-sized enterprises. (English)
21 October 2020
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Identifiers
RPWM.01.02.01-28-0023/17
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