LIFE CYCLE ASSESSMENT OF SOFCs-BASED AUXILIARY POWER UNIT IN CHINA

被引:0
作者
Wen, An [1 ]
Tao, Jing [1 ]
Yu, Suiran [1 ]
机构
[1] Shanghai Jiao Tong Univ, Sch Mech Engn, Shanghai, Peoples R China
来源
PROCEEDINGS OF THE ASME INTERNATIONAL DESIGN ENGINEERING TECHNICAL CONFERENCES AND COMPUTERS AND INFORMATION IN ENGINEERING CONFERENCE, 2018, VOL 4 | 2018年
基金
中国国家自然科学基金;
关键词
Life Cycle Assessment (LCA); SOFCs; APU; biomass fuel; IMPACT;
D O I
暂无
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Reducing energy consumption and environmental pollution of road transportation is one of the major challenges to China's commitment to sustainable development. This paper aims to establish the LCA model of solid oxide fuel cells-based auxiliary power unit (SOFC-APU) for heavy vehicles with Chinese background for analysis of potential environmental benefits of its implementation in China. First, the LCA of the SOFC power using natural gas as the cells' fuel is performed using eBalance, which is the Chinese LCA software with high quality domestic underlying database, and the results show that the fuel production phase is a major contributor to SOFC-APU's life-cycle environmental impacts. Then the comparative LCA analysis of SOFC-APU using biomass ethanol from different feedstock planting areas in China is presented and results show that using corn-based ethanol fuel can potentially lower the lifecycle environmental impacts of SOFC-APU by 37.7%.
引用
收藏
页数:6
相关论文
共 14 条
[1]  
Ammermann H., 2015, Advancing europe's energy systems: Stationary fuel cells in distributed generation
[2]  
[Anonymous], 2006, ISO 14040 2006 ENV M
[3]   Life cycle assessment of fuel cell-based APUs [J].
Baratto, F ;
Diwekar, UM .
JOURNAL OF POWER SOURCES, 2005, 139 (1-2) :188-196
[4]   Life Cycle Assessment of microtubular solid oxide fuel cell based auxiliary power unit systems for recreational vehicles [J].
Benveniste, Gabriela ;
Pucciarelli, Martina ;
Torrell, Marc ;
Kendall, Michaela ;
Tarancon, Albert .
JOURNAL OF CLEANER PRODUCTION, 2017, 165 :312-322
[5]   Hydrogen and fuel cell technologies for heating: A review [J].
Dodds, Paul E. ;
Staffell, Lain ;
Hawkes, Adam D. ;
Li, Francis ;
Grunewald, Philipp ;
McDowall, Will ;
Ekins, Paul .
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2015, 40 (05) :2065-2083
[6]  
Guinee JB, 2003, INT J LIFE CYCLE ASS, V7, P311
[7]  
[胡志远 Hu Zhiyuan], 2005, [内燃机学报, Transactions of Csice], V23, P258
[8]   IMPACT 2002+: A new life cycle impact assessment methodology [J].
Jolliet, O ;
Margni, M ;
Charles, R ;
Humbert, S ;
Payet, J ;
Rebitzer, G ;
Rosenbaum, R .
INTERNATIONAL JOURNAL OF LIFE CYCLE ASSESSMENT, 2003, 8 (06) :324-330
[9]   The environmental impact of manufacturing planar and tubular solid oxide fuel cells [J].
Karakoussis, V ;
Brandon, NP ;
Leach, A ;
Leach, M ;
van der Vorst, R .
JOURNAL OF POWER SOURCES, 2001, 101 (01) :10-26
[10]   Life cycle assessment integrated with thermodynamic analysis of bio-fuel options for solid oxide fuel cells [J].
Lin, Jiefeng ;
Babbitt, Callie W. ;
Trabold, Thomas A. .
BIORESOURCE TECHNOLOGY, 2013, 128 :495-504