"RIV/68407700:21220/12:00201729" . . . "3"^^ . "The paper deals with calculation procedure that has been performed in order to evaluate suitability of a post-combustion CCS technology application in a recent power plant in the Czech Republic. In the paper is described the ammonia CO2 absorption method and its advantages and disadvantages. The technology scheme with key components of the ammonia CCS has been analyzed and more detailed data is provided for each basic component, especially energy consumption for cooling and compression. In the paper is evaluated the proposed impact on the recent technology of a 250 MWe pulverized lignite coal fired power plant. The calculations are based on available operation input data of the power plant and main parameters (e.g. net power output, efficiency or consumptions) are compared for the recent situation and after CCS installation. The main impact of the ammonia CCS technology application is decrease of electric efficiency by 11 percent points, decrease of net electricity production by 62 MWe and increase of wastewater amount and need of consumables. The decrease of efficiency and net electricity production is particularly caused by high-energy demands of compression of CO2 and cooling of the CO2 - ammonia absorber. Also important is increase of cooling water consumption for the absorbing stage."@en . . . . . "[E374B3105487]" . . "21220" . "Research and developlment of CO2 capture and storage technologies in fossil fuel power plants"@en . "Pila\u0159, Luk\u00E1\u0161" . "Hrdli\u010Dka, Jan" . . "Slouka, P." . "RIV/68407700:21220/12:00201729!RIV13-MSM-21220___" . . . "1"^^ . "Research and developlment of CO2 capture and storage technologies in fossil fuel power plants" . "Research and developlment of CO2 capture and storage technologies in fossil fuel power plants" . . "post-combustion; CCS; ammonia"@en . . "P(FR-TI1/379), Z(MSM6840770035)" . "Research and developlment of CO2 capture and storage technologies in fossil fuel power plants"@en . . . . "The paper deals with calculation procedure that has been performed in order to evaluate suitability of a post-combustion CCS technology application in a recent power plant in the Czech Republic. In the paper is described the ammonia CO2 absorption method and its advantages and disadvantages. The technology scheme with key components of the ammonia CCS has been analyzed and more detailed data is provided for each basic component, especially energy consumption for cooling and compression. In the paper is evaluated the proposed impact on the recent technology of a 250 MWe pulverized lignite coal fired power plant. The calculations are based on available operation input data of the power plant and main parameters (e.g. net power output, efficiency or consumptions) are compared for the recent situation and after CCS installation. The main impact of the ammonia CCS technology application is decrease of electric efficiency by 11 percent points, decrease of net electricity production by 62 MWe and increase of wastewater amount and need of consumables. The decrease of efficiency and net electricity production is particularly caused by high-energy demands of compression of CO2 and cooling of the CO2 - ammonia absorber. Also important is increase of cooling water consumption for the absorbing stage." . . "165105" . . .