摘要
我国褐煤资源较为丰富,主要分布于内蒙古东部、云南省和黑龙江省。褐煤主要的传统利用方式是直接燃烧发电,但其存在能效低、污染重等问题。除发电外,褐煤新型利用方式逐渐成熟,制取天然气以及提质后发电就是其中的代表。本文基于全生命周期评价法,计算了褐煤制取天然气与褐煤提质后发电在终端利用能效相同的情况下,产生1 GJ有效能量的温室气体排放量,分别为158.173/e kg/GJ、480.68/e kg/GJ(e为能源终端使用能效)。显然,从温室气体排放角度,褐煤制取天然气优于提质褐煤发电技术。
China has relatively abundant lignite,which is mainly distributed in eastern Inner Mongolia,YunnanProvince and Heilongjiang Province.Traditionally,the thermal power generation is the predominant way to uselignite;nevertheless,it is also the way with low energy utilization rate and high pollution.In addition to powergeneration,new technologies dealing with lignite have matured.Lignite-based synthetic natural gas productionand power generation with lignite upgrading technology are of representativeness.Based on Life CycleAssessment,this paper compared the Greenhouse Gas(GHG)emissions of1GJ output of effective energybetween lignite-based Synthetic Natural Gas(SNG)production and power generation with lignite upgradingtechnology under the condition of the same energy efficiency of end use.They are respectively158.173/e kg/GJ,480.68/e kg/GJ(e as the energy efficiency of end use).Obviously,the life cycle GHG emission of lignite-basedSNG production is significantly less than that of the upgraded lignite-power generation.
作者
韩雅文
王安建
周凤英
邢万里
HAN Ya-wen;WANG An-jian;ZHOU Feng-ying;XING Wan-li(School of Earth Sciences and Resources, China University of Geosciences(Beijing), Beijing 100083;Research Center for Strategy of Global Mineral Resources, Chinese Academy of Geological Sciences, Beijing 100037)
出处
《地球学报》
EI
CAS
CSCD
北大核心
2017年第1期54-60,共7页
Acta Geoscientica Sinica
基金
中国地质调查局地质矿产调查评价项目"能源安全综合研究与动态跟踪评价"(编号:12120115057001)资助~~
关键词
提质褐煤发电
褐煤制气
全生命周期评价
温室气体排放
upgraded lignite-power generation
lignite-based SNG
life cycle assessment
greenhouse gas emissions
