Qr code
DALIAN UNIVERSITY OF TECHNOLOGY Login 中文
张树深

Researcher
Supervisor of Doctorate Candidates
Supervisor of Master's Candidates


Gender:Male
Alma Mater:北京师范大学
Degree:Master's Degree
School/Department:环境学院
E-Mail:zhangss@dlut.edu.cn
Click: times

Open time:..

The Last Update Time:..

Current position: Home >> Scientific Research >> Paper Publications

Comparative life cycle assessment of conventional and new fused magnesia production

Hits : Praise

Indexed by:期刊论文

Date of Publication:2015-03-15

Journal:JOURNAL OF CLEANER PRODUCTION

Included Journals:SCIE、EI、Scopus

Volume:91

Page Number:170-179

ISSN No.:0959-6526

Key Words:Fused magnesia (FM); Life cycle assessment (LCA); Industrial ecology; Environmental impacts; Global warming potential (GWP); Electricity mix

Abstract:Due to the antiquated processes, fused magnesia (FM) production in China causes many problems such as high energy consumption and heavy greenhouse gas emissions, which have gradually become a barrier to the future sustainable development of the industry. These issues are creating pressure to find alternative processes that can reduce energy consumption and pollution in the industry, while guaranteeing the quality of products. We develop a transparent life cycle inventory of two conventional and two new FM processes from magnesite mining to FM production and apply the inventory to conduct a cradle-to-gate life cycle assessment of four scenarios, including: Scenario 1 (S1) - a Single Phase Process using natural magnesite as raw material; Scenario 2 (S2) - a Two Phase Process using caustic calcined magnesia as raw material; Scenario 3 (S3) - an alternative process based on raw material substitution; and, Scenario 4 (S4) - another alternative improving from the overall process. Results indicate that in two traditional processes, S1 is superior to S2 in terms of environmental impacts. However, the two alternatives show significant differences. S3 doesn't reduce the environmental impacts as a whole, but transfers them from the production phase to other raw material production phases. S4 has the best environmental performance with an effective reduction of each impact category, especially the global warming potential (GWP), which was reduced by 48% compared to S1. The study shows that promoting the sustainable development of the FM industry requires overall process improvement to ensure comprehensive utilization of resources and energy and reduce greenhouse gas emissions. (C) 2015 Elsevier Ltd. All rights reserved.