Abstract
With rapid growth in global demand for energy, the emission of CO2 is increasing due to the use of fossil fuels in power plants. Effective strategies are required to decrease the industrial emissions to meet the climate change target set at 21st Conference of the Parties (COP 21). Carbon capture and storage have been recognized as the most useful methods to reduce the CO2 emissions while using fossil fuels in power generation. This work reviews different methods and updates of the current technologies to capture and separate CO2 generated in a thermal power plant. Carbon capture is classified in two broad categories depending on the requirement of separation of CO2 from the gases. The novel methods of oxy combustion and chemical looping combustion carbon capture have been compared with the traditional post combustion and precombustion carbon capture methods. The current state of technology and limitation of each of the processes including commonly used separation techniques for CO2 from the gas mixture are discussed in this review. Further research and investigations are suggested based on the technological maturity, economic viability, and lack of proper knowledge of the combustion system for further improvement of the capture system.
Highlights
Rapid industrialization over the past century has resulted in huge demand for power
Viebahn et al [137] revealed about a 40% increase in acidification potential (AP), eutrophication potential (EP), human toxicity potential (HTP) when post combustion carbon capture was implemented in a power plant
The highest reduction of global warming potential (GWP) was found for pulverized coal and Integrated Gasification Combined Cycle (IGCC) plants employing the oxyfuel capture method as well as combined cycle gas turbine plants equipped with a post combustion capture technology
Summary
Rapid industrialization over the past century has resulted in huge demand for power. The most common way to produce power is utilizing fossil fuels, but this causes emission of CO2 which is the main component of greenhouse gas (GHG). It can be done by adding steam to the fossil fuel This process is known as steam wayway to produce syngas is by supplying pure oxygen separating as steam reforming reforming[11]. Another to produce syngas is by supplying pureafter oxygen after it from air to fossil fuel which is being used to produce power Energies 2019, 12, 4143 separating it from air to fossil fuel which is being used to produce power. This process is known as partial oxidation when it is applied to liquid or gaseous fuels. The main research focus of precombustion carbon capture is to use this method in Integrated Gasification Combined Cycle (IGCC) power plants. Cooling preliminary cleaning,cleaning, syngas issyngas shiftedisthrough a water gas shiftgas reaction in a water
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