Development of production technology for the production of ash-free worshippers without a change in volume (Q122748): Difference between revisions
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(Removed claim: summary (P836): The aim of the project is to identify the reasons for the change in the volume of ash-free betas and to develop technology for the production of Beon ash-free Beons which are resistant to a change in volume. The scope of the tests shall include mineralogical, chemical, radiometric and physico-chemical surveys of the slag from conventional boilers and of fly ash mixtures and solid waste with calcium from the methods of desulphurisation of flue...) |
(Created claim: summary (P836): The aim of the project is to identify the reasons for changes in the volume of ash concretes and to develop ash-resistant technology. The scope of the study includes mineralogical, chemical, radiometric and physico-mechanical slags from conventional boilers and mixtures of volatile ashes and solid waste from calcium flue gas desulphurisation methods from fluidal boilers and their impact on mixtures of ash concrete. The solution to the research p...) |
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| Property / summary | |||||||||||||||
The aim of the project is to identify the reasons for changes in the volume of ash concretes and to develop ash-resistant technology. The scope of the study includes mineralogical, chemical, radiometric and physico-mechanical slags from conventional boilers and mixtures of volatile ashes and solid waste from calcium flue gas desulphurisation methods from fluidal boilers and their impact on mixtures of ash concrete. The solution to the research problem leads to minimising the number of damages to cubic and road construction by eliminating the possibility of changes in the volume of ash concrete. The research team will include an expert in the field of research on anthropogenic waste, ash concrete, mineralogical and chemical research and a scientific unit with a technical profile. Implementation of test results during durability leads to the implementation of innovative ash concrete products that are not sensitive to volume changes. (English) | |||||||||||||||
| Property / summary: The aim of the project is to identify the reasons for changes in the volume of ash concretes and to develop ash-resistant technology. The scope of the study includes mineralogical, chemical, radiometric and physico-mechanical slags from conventional boilers and mixtures of volatile ashes and solid waste from calcium flue gas desulphurisation methods from fluidal boilers and their impact on mixtures of ash concrete. The solution to the research problem leads to minimising the number of damages to cubic and road construction by eliminating the possibility of changes in the volume of ash concrete. The research team will include an expert in the field of research on anthropogenic waste, ash concrete, mineralogical and chemical research and a scientific unit with a technical profile. Implementation of test results during durability leads to the implementation of innovative ash concrete products that are not sensitive to volume changes. (English) / rank | |||||||||||||||
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| Property / summary: The aim of the project is to identify the reasons for changes in the volume of ash concretes and to develop ash-resistant technology. The scope of the study includes mineralogical, chemical, radiometric and physico-mechanical slags from conventional boilers and mixtures of volatile ashes and solid waste from calcium flue gas desulphurisation methods from fluidal boilers and their impact on mixtures of ash concrete. The solution to the research problem leads to minimising the number of damages to cubic and road construction by eliminating the possibility of changes in the volume of ash concrete. The research team will include an expert in the field of research on anthropogenic waste, ash concrete, mineralogical and chemical research and a scientific unit with a technical profile. Implementation of test results during durability leads to the implementation of innovative ash concrete products that are not sensitive to volume changes. (English) / qualifier | |||||||||||||||
point in time: 21 October 2020
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Revision as of 07:04, 21 October 2020
Project in Poland financed by DG Regio
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Development of production technology for the production of ash-free worshippers without a change in volume |
Project in Poland financed by DG Regio |
Statements
1,688,722.8 zloty
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2,131,155.0 zloty
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79.24 percent
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1 August 2017
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31 July 2019
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AP GEOTECHNIKA SPÓŁKA Z OGRANICZONĄ ODPOWIEDZIALNOŚCIĄ SPÓŁKA KOMANDYTOWA
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Celem projektu jest zidentyfikowanie powodów zmian objętości betonów popiołowych oraz opracowanie technologii produkcji betonów popiołowych odpornych na zmianę objętości. Zakres badań obejmuje badania mineralogiczne, chemiczne, radiometryczne oraz fizykomechaniczne żużli z kotłów konwencjonalnych i mieszanin popiołów lotnych i odpadów stałych z wapniowych metod odsiarczania gazów odlotowych z kotłów fluidalnych oraz ich wpływ na mieszanki betonów popiołowych. Rozwiązanie stawianego problemu badawczego prowadzi do minimalizacji liczby szkód w budownictwie kubaturowym i drogowym poprzez eliminację możliwości powstawania zmian objętości betonów popiołowych. W skład zespołu badawczego wejdzie ekspert w dziedzinie badań odpadów antropogenicznych, betonów popiołowych, badań mineralogiczno-chemicznych i jednostka naukowa o profilu technicznym. Implementacja wyników badań w okresie trwałości prowadzi do wdrożenia innowacyjnych produktowo betonów popiołowych niewrażliwych na zmiany objętości. (Polish)
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The aim of the project is to identify the reasons for changes in the volume of ash concretes and to develop ash-resistant technology. The scope of the study includes mineralogical, chemical, radiometric and physico-mechanical slags from conventional boilers and mixtures of volatile ashes and solid waste from calcium flue gas desulphurisation methods from fluidal boilers and their impact on mixtures of ash concrete. The solution to the research problem leads to minimising the number of damages to cubic and road construction by eliminating the possibility of changes in the volume of ash concrete. The research team will include an expert in the field of research on anthropogenic waste, ash concrete, mineralogical and chemical research and a scientific unit with a technical profile. Implementation of test results during durability leads to the implementation of innovative ash concrete products that are not sensitive to volume changes. (English)
21 October 2020
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Identifiers
RPSL.01.02.00-24-065D/16
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