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Sustainable development of biorefineries: integrated assessment method for co-production pathways
Energy & Environmental Science ( IF 32.4 ) Pub Date : 2020-05-07 , DOI: 10.1039/d0ee00812e
Jaewon Byun 1, 2, 3, 4 , Jeehoon Han 1, 2, 3, 4, 5
Affiliation  

Biorefining is a promising technology for coproducing bioenergy and bioproducts to increase the benefit and sustainability relative to petroleum-driven products. Although several feasibility studies with certain valuations or materials have been conducted, a thorough analysis of the integration of bio-base products with sustainable bioenergy production is needed. This study conducts a comprehensive investigation of recently published feasibility studies on biorefining. Five challenges are found to be particularly important: system boundaries, technological level, allocation, environmental concerns, and uncertainty. A case study on 10 biorefinery pathways to bioproducts integrated with bioethanol (bioEtOH) is examined via a coincident feasibility assessment that concentrated on the proposed issues, as well as on certain technological, economic, and environmental aspects. When 25% of bioEtOH was replaced by furandicarboxylic acid (FDCA), 15.3–16.7 MJ of FDCA per gasoline gallon equivalent (GGE) of bioEtOH is produced, leading to economic mitigation potentials of US$2.40–2.48 per GGE.

中文翻译:

生物精炼厂的可持续发展:联合生产途径的综合评估方法

生物精炼是一种有前途的技术,可与生物驱动的产品共同生产生物能源,以增加其收益和可持续性。尽管已经进行了一些具有一定估值或材料的可行性研究,但仍需要对生物基产品与可持续生物能源生产的整合进行全面分析。这项研究对最近发表的有关生物精制的可行性研究进行了全面调查。发现五个挑战特别重要:系统边界,技术水平,分配,环境问题和不确定性。通过10个案例研究了通过生物乙醇与生物乙醇(bioEtOH)整合的生物制品的10条生物精炼途径同时进行的可行性评估,其重点在于所提出的问题以及某些技术,经济和环境方面。当呋喃二甲酸(FDCA)替代25%的bioEtOH时,每生物体的汽油加仑当量(GGE)产生15.3–16.7 MJ FDCA,导致每GGE的经济缓解潜力为2.40–2.48美元。
更新日期:2020-05-07
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