资源与生态学报(英文版)
資源與生態學報(英文版)
자원여생태학보(영문판)
JOURNAL OF RESOURCES AND ECOLOGY
2010年
2期
117-122
,共6页
Randall W.Gentry%Gary S.Sayler%庄杰
Randall W.Gentry%Gary S.Sayler%莊傑
Randall W.Gentry%Gary S.Sayler%장걸
生物质能源开发%纤维素生物质能源%温室气体排放%能源安全
生物質能源開髮%纖維素生物質能源%溫室氣體排放%能源安全
생물질능원개발%섬유소생물질능원%온실기체배방%능원안전
bioenergy development%cellulosic bioenergy%greenhouse emission%energy security
生物质是一种丰富易得的清洁能源,具有大幅减少温室气体排放的潜力.与以玉米及其他谷物为原料的生物质能源生产技术相比,由于纤维生物能源生产消耗的化石能源较少(化石能源与碳的比值低)而备受关注.然而,生物燃料生产系统并非简单,受到多种因素的影响,如能量供应、农村的经济发展水平、土地和生态系统的保护、温室气体减排的可能性以及社会培训等.本文简要综述生物质能源开发的经济与环境影响.根据区域气候和生态条件,不同地区具有各自的生物质种类或能源作物的优化组合.在不久的将来,生物质能源开发的生物技术所面临的挑战包括:生物质形成与细胞壁分解过程的认识与操控,生物质预处理技术,糖产量高的植物变种的选育,用于纤维素降解的酶和微生物的大规模筛选与选育等.除强调生物质能源开发的环境安全和公共健康的重要性之外,生物质能开发还需要解决生命周期评价(LCA)、可持续性的标准和指标的建立等问题.
生物質是一種豐富易得的清潔能源,具有大幅減少溫室氣體排放的潛力.與以玉米及其他穀物為原料的生物質能源生產技術相比,由于纖維生物能源生產消耗的化石能源較少(化石能源與碳的比值低)而備受關註.然而,生物燃料生產繫統併非簡單,受到多種因素的影響,如能量供應、農村的經濟髮展水平、土地和生態繫統的保護、溫室氣體減排的可能性以及社會培訓等.本文簡要綜述生物質能源開髮的經濟與環境影響.根據區域氣候和生態條件,不同地區具有各自的生物質種類或能源作物的優化組閤.在不久的將來,生物質能源開髮的生物技術所麵臨的挑戰包括:生物質形成與細胞壁分解過程的認識與操控,生物質預處理技術,糖產量高的植物變種的選育,用于纖維素降解的酶和微生物的大規模篩選與選育等.除彊調生物質能源開髮的環境安全和公共健康的重要性之外,生物質能開髮還需要解決生命週期評價(LCA)、可持續性的標準和指標的建立等問題.
생물질시일충봉부역득적청길능원,구유대폭감소온실기체배방적잠력.여이옥미급기타곡물위원료적생물질능원생산기술상비,유우섬유생물능원생산소모적화석능원교소(화석능원여탄적비치저)이비수관주.연이,생물연료생산계통병비간단,수도다충인소적영향,여능량공응、농촌적경제발전수평、토지화생태계통적보호、온실기체감배적가능성이급사회배훈등.본문간요종술생물질능원개발적경제여배경영향.근거구역기후화생태조건,불동지구구유각자적생물질충류혹능원작물적우화조합.재불구적장래,생물질능원개발적생물기술소면림적도전포괄:생물질형성여세포벽분해과정적인식여조공,생물질예처리기술,당산량고적식물변충적선육,용우섬유소강해적매화미생물적대규모사선여선육등.제강조생물질능원개발적배경안전화공공건강적중요성지외,생물질능개발환수요해결생명주기평개(LCA)、가지속성적표준화지표적건립등문제.
Biomass is an abundant, domestically available source of clean energy that has the potential to greatly reduce greenhouse gas emissions. Production of biofuels from cellulosic biomass is attractive because of its low fossil energy-to-carbon ratio compared to corn and other grain-based technologies.However, biofuel production systems are not simple. They are subject to multiple factors: energy supply,economic development in rural communities, land and ecosystem protection, potential for reduction of greenhouse gas emission, and social training. This paper provides a brief overview of the environmental and economic impacts of bioenergy development. Different regions should have their own optimized portfolio of biomass species or energy crops according to regional climate and ecological conditions.Near-future biotechnology challenges include understanding and manipulation of biomass formation and breakdown of cell wall, biomass pretreatment and selection of plant variants with improved sugar yields,and high throughput characterization and selection of enzymes and microbes for cellulose deconstruction.Life-cycle assessment and development of sustainable criteria and indicators are addressed in addition to the emphasis of the importance of environmental security and public health associated with bioenergy development.