Optimisation of exhaust gas desulphurisation process by developing production technology and application of micronised sorbent for wet desulphurisation system (Q79942): Difference between revisions

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(‎Removed claim: summary (P836): Before flue gas desulphurisation, there are still new challenges for not only higher levels of SO2 concentration from flue gas, but also the quality of the resulting spin desulphurisation product and the minimisation of costs and, above all, the reduction of the quantities used for sorbates.The proposed draft is a response to the above mentioned issues.The project is in line with the current approach to flue gas desulphurisation, the direction...)
(‎Created claim: summary (P836): The desulphurisation of the exhaust gas still faces new challenges concerning not only higher levels of reduction of SO2 concentrations from boiler exhausts, but also quality of the resulting product Splin desulphurisation and minimisation of costs and, above all, reduction of sorbents consumed. The proposed project responds to the above mentioned issues. The project fits in with the current approach to the issue of flue gas desulphurisation – d...)
Property / summary
 
The desulphurisation of the exhaust gas still faces new challenges concerning not only higher levels of reduction of SO2 concentrations from boiler exhausts, but also quality of the resulting product Splin desulphurisation and minimisation of costs and, above all, reduction of sorbents consumed. The proposed project responds to the above mentioned issues. The project fits in with the current approach to the issue of flue gas desulphurisation – direction of development of sorbent preparation techniques used for exhaust desulphurisation. The basic parameters of sorbent which determine the desulphurisation efficiency are the reactivity ratio, the fragmentation of sorbent and the specific surface of the sorbent The aim of the project is to develop the technology of production and use in the wet method of desulphurisation of lime sorbent with unprecedented properties. As part of the project, the applicant intends to use RESS micronisation methods to produce sorbent used in the wet method of exhaust gas desulphurisation. Ultimately, a sorbent with particle size below 3 microns is planned, indicating more than 50 times the active surface in the same unit of weight, compared to a traditional sorbent with an average particle size of 50 microns. In addition, it is planned to introduce a surface modification of the sorbent obtained by factors altering its properties, i.e. obtaining hydrophobicity. The studies planned within the project will concern both obtaining sorbent with planned properties, as well as the development of a device for the production and feeding of sorbent to the exhaust desulphurisation system based on the wet limestone method. The results of the project will be used in the activity of the Applicant by launching the sale of ready-made equipment for production and delivery of new (English)
Property / summary: The desulphurisation of the exhaust gas still faces new challenges concerning not only higher levels of reduction of SO2 concentrations from boiler exhausts, but also quality of the resulting product Splin desulphurisation and minimisation of costs and, above all, reduction of sorbents consumed. The proposed project responds to the above mentioned issues. The project fits in with the current approach to the issue of flue gas desulphurisation – direction of development of sorbent preparation techniques used for exhaust desulphurisation. The basic parameters of sorbent which determine the desulphurisation efficiency are the reactivity ratio, the fragmentation of sorbent and the specific surface of the sorbent The aim of the project is to develop the technology of production and use in the wet method of desulphurisation of lime sorbent with unprecedented properties. As part of the project, the applicant intends to use RESS micronisation methods to produce sorbent used in the wet method of exhaust gas desulphurisation. Ultimately, a sorbent with particle size below 3 microns is planned, indicating more than 50 times the active surface in the same unit of weight, compared to a traditional sorbent with an average particle size of 50 microns. In addition, it is planned to introduce a surface modification of the sorbent obtained by factors altering its properties, i.e. obtaining hydrophobicity. The studies planned within the project will concern both obtaining sorbent with planned properties, as well as the development of a device for the production and feeding of sorbent to the exhaust desulphurisation system based on the wet limestone method. The results of the project will be used in the activity of the Applicant by launching the sale of ready-made equipment for production and delivery of new (English) / rank
 
Normal rank
Property / summary: The desulphurisation of the exhaust gas still faces new challenges concerning not only higher levels of reduction of SO2 concentrations from boiler exhausts, but also quality of the resulting product Splin desulphurisation and minimisation of costs and, above all, reduction of sorbents consumed. The proposed project responds to the above mentioned issues. The project fits in with the current approach to the issue of flue gas desulphurisation – direction of development of sorbent preparation techniques used for exhaust desulphurisation. The basic parameters of sorbent which determine the desulphurisation efficiency are the reactivity ratio, the fragmentation of sorbent and the specific surface of the sorbent The aim of the project is to develop the technology of production and use in the wet method of desulphurisation of lime sorbent with unprecedented properties. As part of the project, the applicant intends to use RESS micronisation methods to produce sorbent used in the wet method of exhaust gas desulphurisation. Ultimately, a sorbent with particle size below 3 microns is planned, indicating more than 50 times the active surface in the same unit of weight, compared to a traditional sorbent with an average particle size of 50 microns. In addition, it is planned to introduce a surface modification of the sorbent obtained by factors altering its properties, i.e. obtaining hydrophobicity. The studies planned within the project will concern both obtaining sorbent with planned properties, as well as the development of a device for the production and feeding of sorbent to the exhaust desulphurisation system based on the wet limestone method. The results of the project will be used in the activity of the Applicant by launching the sale of ready-made equipment for production and delivery of new (English) / qualifier
 
point in time: 14 October 2020
Timestamp+2020-10-14T00:00:00Z
Timezone+00:00
CalendarGregorian
Precision1 day
Before0
After0

Revision as of 14:18, 14 October 2020

Project in Poland financed by DG Regio
Language Label Description Also known as
English
Optimisation of exhaust gas desulphurisation process by developing production technology and application of micronised sorbent for wet desulphurisation system
Project in Poland financed by DG Regio

    Statements

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    2,982,639.89 zloty
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    715,833.57 Euro
    13 January 2020
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    4,803,885.2 zloty
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    1,152,932.45 Euro
    13 January 2020
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    62.09 percent
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    1 July 2016
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    30 June 2019
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    EGOVITA SP. Z O.O.
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    51°58'48.0"N, 20°50'1.3"E
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    Przed odsiarczaniem spalin stoją ciągle nowe wyzwania dotyczące aobecnie nie tylko wyższych poziomów ograniczania stężenia SO2 ze spalin kotłowych, ale także jakości powstałego produktu odsiarczania splin oraz minimalizacji kosztów, a przede wszystkim ograniczania ilości zużywanych sorbentów. Proponowany projekt jest odpowiedzią na powyżej wskazane kwestie. Projekt wpisuje się w aktualne podejście do kwestii odsiarczania spalin - kierunek rozwoju technik przygotowania sorbentów stosowanych do odsiarczania spalin. Podstawowymi parametrami sorbentu decydującymi o efektywności odsiarczania są wskaźnik reaktywności, rozdrobnienie sorbentu oraz powierzchnia właściwa sorbentu Celem projektu jest opracowanie technologii produkcji oraz wykorzystania w mokrej metodzie odsiarczania spalin sorbentu wapiennego o niespotykanych dotąd właściwościach. W ramach realizacji projektu Wnioskodawca zamierza wykorzystać metody mikronizacji RESS do produkcji sorbentu wykorzystywanego w mokrej metodzie odsiarczania spalin. Docelowo planuje się uzyskanie sorbentu o rozmiarze cząstek poniżej 3 mikronów, co wskazuje na ponad 50 razy większą aktywną powierzchnię w tej samej jednostce wagi, w porównaniu do tradycyjnego sorbentu o średnim rozmiarze cząstek 50 mikronów. Dodatkowo planuje się wprowadzenie modyfikacji powierzchniowej otrzymywanego sorbentu czynnikami zmieniającymi jego własności tj. uzyskanie hydrofobowości. Zaplanowane w ramach projektu badania dotyczyć będą zarówno uzyskania sorbentu o planowanych właściwościach, jak również opracowaniu urządzenia do produkcji i podawania sorbentu do instalacji odsiarczania spalin bazujących na metodzie mokrej wapiennej. Wyniki zrealizowanego projektu zostaną wykorzystane w działalności Wnioskodawcy poprzez uruchomienie sprzedaży gotowych urządzeń do produkcji i dostarczania now (Polish)
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    The desulphurisation of the exhaust gas still faces new challenges concerning not only higher levels of reduction of SO2 concentrations from boiler exhausts, but also quality of the resulting product Splin desulphurisation and minimisation of costs and, above all, reduction of sorbents consumed. The proposed project responds to the above mentioned issues. The project fits in with the current approach to the issue of flue gas desulphurisation – direction of development of sorbent preparation techniques used for exhaust desulphurisation. The basic parameters of sorbent which determine the desulphurisation efficiency are the reactivity ratio, the fragmentation of sorbent and the specific surface of the sorbent The aim of the project is to develop the technology of production and use in the wet method of desulphurisation of lime sorbent with unprecedented properties. As part of the project, the applicant intends to use RESS micronisation methods to produce sorbent used in the wet method of exhaust gas desulphurisation. Ultimately, a sorbent with particle size below 3 microns is planned, indicating more than 50 times the active surface in the same unit of weight, compared to a traditional sorbent with an average particle size of 50 microns. In addition, it is planned to introduce a surface modification of the sorbent obtained by factors altering its properties, i.e. obtaining hydrophobicity. The studies planned within the project will concern both obtaining sorbent with planned properties, as well as the development of a device for the production and feeding of sorbent to the exhaust desulphurisation system based on the wet limestone method. The results of the project will be used in the activity of the Applicant by launching the sale of ready-made equipment for production and delivery of new (English)
    14 October 2020
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    Identifiers

    POIR.01.02.00-00-0046/16
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