Simulation study on the carbon capture system applying LNG cold energy to the O2/H2O oxy-fuel combustion

Simulation study on the carbon capture system applying LNG cold energy to the O2/H2O oxy-fuel combustion

At present, the oxy-fuel combustion (O2/CO2 circulating combustion) is dominant in natural gas generating systems, but it consumes much energy for air separation oxygen generation and carbon capture, leading to a severe reduction of generating efficiency. The O2/H2O combustion system, as the new gen...

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Main Authors: Yanwen Guan, Yixiao Han, Mouliang Wu, Wenbin Liu, Lei Cai, Yun Yang, Yanlei Xiang, Shaosong Chen
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2018-06-01
Series:Natural Gas Industry B
Online Access:http://www.sciencedirect.com/science/article/pii/S235285401830041X
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spelling doaj-6364bcf3e0d643acae3701086b63a0b02021-02-02T02:44:09ZengKeAi Communications Co., Ltd.Natural Gas Industry B2352-85402018-06-0153270275Simulation study on the carbon capture system applying LNG cold energy to the O2/H2O oxy-fuel combustionYanwen Guan0Yixiao Han1Mouliang Wu2Wenbin Liu3Lei Cai4Yun Yang5Yanlei Xiang6Shaosong Chen7School of Environmental Science & Engineering, Huazhong University of Science and Technology, Wuhan, Hubei 430074, ChinaSchool of Environmental Science & Engineering, Huazhong University of Science and Technology, Wuhan, Hubei 430074, ChinaSchool of Environmental Science & Engineering, Huazhong University of Science and Technology, Wuhan, Hubei 430074, ChinaSchool of Environmental Science & Engineering, Huazhong University of Science and Technology, Wuhan, Hubei 430074, ChinaSchool of Environmental Science & Engineering, Huazhong University of Science and Technology, Wuhan, Hubei 430074, China; Corresponding author.School of Environmental Science & Engineering, Huazhong University of Science and Technology, Wuhan, Hubei 430074, ChinaSchool of Environmental Science & Engineering, Huazhong University of Science and Technology, Wuhan, Hubei 430074, ChinaWuhu Jiangbei Hong Kong and China Gas Company Limited, Wuhu, Anhui 241000, ChinaAt present, the oxy-fuel combustion (O2/CO2 circulating combustion) is dominant in natural gas generating systems, but it consumes much energy for air separation oxygen generation and carbon capture, leading to a severe reduction of generating efficiency. The O2/H2O combustion system, as the new generation of an oxy-combustion system, is superior to the oxy-fuel combustion, and its pollutant emission is lower, but during its combustion, air separation oxygen generation is still needed, so CO2 compression energy consumption is still higher. In this paper, a set of carbon capture system applying LNG cold energy to the O2/H2O combustion was developed, and its mathematical model was established to calculate thermal efficiency and exergy efficiency. And then, it was compared with the COOLCEP system which also makes use of LNG cold energy for carbon capture. The combustion process of this system is operated under high pressure with H2O as the circulation medium, and LNG is utilized in a cascading pattern, so the energy consumption of air separation oxygen generation and carbon capture system is reduced, the generating efficiency of the system is increased and carbon capture is conducted at low cost. The thermal efficiency and energy efficiency of this system increase continuously as the inlet temperature of gas turbine rises. When the flow rate of circulating water is 13.5 kmol/s, the combustion pressure is 1.6 MPa, and the inlet temperature of gas turbine reaches 1328.1 °C, the thermal efficiency and exergy efficiency is 57.9% (maximum) and 42.7%, respectively. Compared with COOLCEP system, the O2/H2O combustion system is much lower in energy consumption and its thermal efficiency and exergy efficiency are 6.3% and 5.4% higher, respectively. Keywords: LNG cold energy, Oxy-fuel combustion, Carbon capture, O2/H2O, COOLCEP system, Cascading utilization, Aspen plus, Thermal efficiency, Exergy efficiencyhttp://www.sciencedirect.com/science/article/pii/S235285401830041X
collection DOAJ
language English
format Article
sources DOAJ
author Yanwen Guan
Yixiao Han
Mouliang Wu
Wenbin Liu
Lei Cai
Yun Yang
Yanlei Xiang
Shaosong Chen
spellingShingle Yanwen Guan
Yixiao Han
Mouliang Wu
Wenbin Liu
Lei Cai
Yun Yang
Yanlei Xiang
Shaosong Chen
Simulation study on the carbon capture system applying LNG cold energy to the O2/H2O oxy-fuel combustion
Natural Gas Industry B
author_facet Yanwen Guan
Yixiao Han
Mouliang Wu
Wenbin Liu
Lei Cai
Yun Yang
Yanlei Xiang
Shaosong Chen
author_sort Yanwen Guan
title Simulation study on the carbon capture system applying LNG cold energy to the O2/H2O oxy-fuel combustion
title_short Simulation study on the carbon capture system applying LNG cold energy to the O2/H2O oxy-fuel combustion
title_full Simulation study on the carbon capture system applying LNG cold energy to the O2/H2O oxy-fuel combustion
title_fullStr Simulation study on the carbon capture system applying LNG cold energy to the O2/H2O oxy-fuel combustion
title_full_unstemmed Simulation study on the carbon capture system applying LNG cold energy to the O2/H2O oxy-fuel combustion
title_sort simulation study on the carbon capture system applying lng cold energy to the o2/h2o oxy-fuel combustion
publisher KeAi Communications Co., Ltd.
series Natural Gas Industry B
issn 2352-8540
publishDate 2018-06-01
description At present, the oxy-fuel combustion (O2/CO2 circulating combustion) is dominant in natural gas generating systems, but it consumes much energy for air separation oxygen generation and carbon capture, leading to a severe reduction of generating efficiency. The O2/H2O combustion system, as the new generation of an oxy-combustion system, is superior to the oxy-fuel combustion, and its pollutant emission is lower, but during its combustion, air separation oxygen generation is still needed, so CO2 compression energy consumption is still higher. In this paper, a set of carbon capture system applying LNG cold energy to the O2/H2O combustion was developed, and its mathematical model was established to calculate thermal efficiency and exergy efficiency. And then, it was compared with the COOLCEP system which also makes use of LNG cold energy for carbon capture. The combustion process of this system is operated under high pressure with H2O as the circulation medium, and LNG is utilized in a cascading pattern, so the energy consumption of air separation oxygen generation and carbon capture system is reduced, the generating efficiency of the system is increased and carbon capture is conducted at low cost. The thermal efficiency and energy efficiency of this system increase continuously as the inlet temperature of gas turbine rises. When the flow rate of circulating water is 13.5 kmol/s, the combustion pressure is 1.6 MPa, and the inlet temperature of gas turbine reaches 1328.1 °C, the thermal efficiency and exergy efficiency is 57.9% (maximum) and 42.7%, respectively. Compared with COOLCEP system, the O2/H2O combustion system is much lower in energy consumption and its thermal efficiency and exergy efficiency are 6.3% and 5.4% higher, respectively. Keywords: LNG cold energy, Oxy-fuel combustion, Carbon capture, O2/H2O, COOLCEP system, Cascading utilization, Aspen plus, Thermal efficiency, Exergy efficiency
url http://www.sciencedirect.com/science/article/pii/S235285401830041X
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