Low Temperature Applications for CO2 Capture in Hydrogen Production

被引:6
作者
Kim, Donghoi [1 ]
Berstad, David [2 ]
Anantharaman, Rahul [2 ]
Straus, Julian [2 ]
Peters, Thijs A. [3 ]
Gundersen, Truls [1 ]
机构
[1] Norwegian Univ Sci & Technol NTNU, Dept Energy & Proc Engn, N-7491 Trondheim, Norway
[2] SINTEF Energy Res, N-7465 Trondheim, Norway
[3] SINTEF Ind, N-0314 Oslo, Norway
来源
30TH EUROPEAN SYMPOSIUM ON COMPUTER AIDED PROCESS ENGINEERING, PTS A-C | 2020年 / 48卷
关键词
Low temperature separation; CO2; capture; hydrogen production; liquefaction; CCS;
D O I
10.1016/B978-0-12-823377-1.50075-6
中图分类号
TP39 [计算机的应用];
学科分类号
081203 ; 0835 ;
摘要
The recent development of the protonic membrane reformer (PMR) technology allows an energy efficient hydrogen production from natural gas. To liquefy and separate CO2 from the retentate gas of the PMR, various low temperature processes are modelled and compared. The optimization results indicate that the single mixed refrigerant based process gives the smallest power consumption and fewest number of units. The cascade and the self-liquefaction processes can be considered as alternatives when the retentate gas is rich and lean in CO2 respectively.
引用
收藏
页码:445 / 450
页数:6
相关论文
共 7 条
[1]   Energy and cost evaluation of a low-temperature CO2 capture unit for IGCC plants [J].
Berstad, David ;
Roussanaly, Simon ;
Skaugen, Geir ;
Anantharaman, Rahul ;
Neksa, Petter ;
Jordal, Kristin .
12TH INTERNATIONAL CONFERENCE ON GREENHOUSE GAS CONTROL TECHNOLOGIES, GHGT-12, 2014, 63 :2031-2036
[2]   Low-temperature CCS from an IGCC power plant and comparison with physical solvents [J].
Berstad, David ;
Anantharaman, Rahul ;
Neksa, Petter .
GHGT-11, 2013, 37 :2204-2211
[3]   Low-temperature CO2 capture technologies - Applications and potential [J].
Berstad, David ;
Anantharaman, Rahul ;
Neksa, Petter .
INTERNATIONAL JOURNAL OF REFRIGERATION-REVUE INTERNATIONALE DU FROID, 2013, 36 (05) :1403-1416
[4]   Development of a CO2 specification for a CCS hub network [J].
Harkin, Trent ;
Filby, Ian ;
Sick, Heidi ;
Manderson, Dan ;
Ashton, Rebecca .
13TH INTERNATIONAL CONFERENCE ON GREENHOUSE GAS CONTROL TECHNOLOGIES, GHGT-13, 2017, 114 :6708-6720
[5]  
IEA, 2019, Future of Hydrogen
[6]   Thermo-electrochemical production of compressed hydrogen from methane with near-zero energy loss [J].
Malerod-Fjeld, Harald ;
Clark, Daniel ;
Yuste-Tirados, Irene ;
Zanon, Raquel ;
Catalan-Martinez, David ;
Beeaff, Dustin ;
Morejudo, Selene H. ;
Vestre, Per K. ;
Norby, Truls ;
Haugsrud, Reidar ;
Serra, Jose M. ;
Kjolseth, Christian .
NATURE ENERGY, 2017, 2 (12) :923-931
[7]   Hydrogen production with CO2 capture [J].
Voldsund, Mari ;
Jordal, Kristin ;
Anantharaman, Rahul .
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2016, 41 (09) :4969-4992
1