Providing a comprehensive analysis of CO2 compression and transportation processes and safety issues for post combustion CO2 capture applications for a 900 MW pulverized hard coal-fired power plant, this book analyzes techniques to boost the pressure of CO2 to pipeline pressure values with the minimal amount of required energy. Four different types of compressors are looked at in detail: a conventional multistage centrifugal compressor, and integrally geared centrifugal compressor, a supersonic shock wave compressor, and pump machines. This study emphasizes that the total compression power is a strong function of the thermodynamic process and is not determined by the compressor efficiency only. Another problem analyzed in this work, is the CO2 pipeline transport from the compressor outlet site to a disposal site under heat transfer conditions. This book also features analysis of simulations and models that are used to determine the maximum safe pipeline distance to subsequent booster stations as a function of the inlet pressure, ambient temperature, thickness of the thermal insulation and ground level heat flux conditions. This book focuses on compression as well as transportation processes with particular stress on the safety risk related to the transport of CO2. The most important problem in terms of environmental protection is a precise and reliable hazard identification. As hazards can only be managed effectively if they are properly identified problems involving the discharge and atmospheric dispersion of CO2 are discussed.
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