耐火材料生命周期评价及生命周期成本评价研究进展

doi:10.3969/j.issn.1001-1935.2024.05.016

耐火材料 ›› 2024, Vol. 58 ›› Issue (5): 448-453.DOI: 10.3969/j.issn.1001-1935.2024.05.016

耐火材料生命周期评价及生命周期成本评价研究进展

李凤¹⁾, 张利芳^2,3), 魏恒勇^3,4), 卜景龙^3,4), 张国繁⁵⁾

1)唐山学院会计学院河北唐山 063000
2)唐山师范学院海洋学院河北唐山 063000
3)河北省耐火材料行业协会河北唐山 063000
4)华北理工大学材料科学与工程学院河北唐山 063210
5)东北大学冶金学院辽宁沈阳 110819

收稿日期:2024-01-29 出版日期:2024-10-15 发布日期:2024-10-16
作者简介:李凤:女, 1981年生,硕士,讲师。E-mail:fangxinqufei1102@163.com
基金资助:
河北省科技厅创新能力提升计划项目(17454014);唐山市社科联项目(TSSWSKL-059)。

Research progress on LCA and LCCA evaluation of refractories

Li Feng, Zhang Lifang, Wei Hengyong, Bu Jinglong, Zhang Guofan

College of Accounting of Tangshan University,Tangshan 063000,Hebei,China

Received:2024-01-29 Online:2024-10-15 Published:2024-10-16

摘要/Abstract

摘要： 生命周期评价(Life Cycle Assessment,LCA)和生命周期成本评价(Life Cycle Cost Assessment,LCCA)方法,是耐火材料企业实现“绿色化”发展的有效工具。综述了国内外耐火材料LCA及LCCA的研究进展,分析了耐火制品全生命周期中环境影响和环境成本的量化评估结果,识别了其主要环境污染物种类及来源,确认了耐火材料生产的环境特性和关键环节,以展示该领域的研究现状并揭示未来的研究方向。

关键词: 耐火材料, 生命周期评价(LCA), 生命周期成本评价(LCCA)

Abstract: Life cycle assessment (LCA) and life cycle cost assessment (LCCA) are effective tools for refractory material enterprises to achieve “greening” development.This article summarizes the research progress of LCA and LCCA for refractory materials in China and overseas,analyzes the quantitative assessment results of environmental impact and environmental cost throughout the entire lifecycle of refractory products,identifies the main types and sources of environmental pollutants,and confirms the environmental characteristics and key links of refractory material production.The aim is to demonstrate the current research status in this field and reveal future research directions.

Key words: refractory materials, life cycle assessment (LCA), life cycle cost assessment (LCCA)

中图分类号:

F273.1

李凤, 张利芳, 魏恒勇, 卜景龙, 张国繁. 耐火材料生命周期评价及生命周期成本评价研究进展[J]. 耐火材料, 2024, 58(5): 448-453.

Li Feng, Zhang Lifang, Wei Hengyong, Bu Jinglong, Zhang Guofan. Research progress on LCA and LCCA evaluation of refractories[J]. Refractories, 2024, 58(5): 448-453.

参考文献

[1] 李红霞.先进耐火材料创新助推国家战略实施[J].耐火材料,2023,57(3):369-376.
[2] 严刚,郑逸璇,王雪松,等.基于重点行业/领域的我国碳排放达峰路径研究[J].环境科学研究,2022,35(2):309-319.
[3] GLORIA T,THEODORE S,BREVILLE M,et al.Life-cycle assessment:A survey of current implementation[J].Total Quality Environmental Management,1995(1):33-50.
[4] CONSOLI F,ALLEN D,BOUSTEAD I,et al.A summary of SETAC guidelines for life cycle assessment [J].Environmental Science and Pollution Research International,1994,1(1):55.
[5] 王寿兵,胡聃,吴千红.生命周期评价及其在环境管理中的应用[J].中国环境科学,1999,19(1):77-80.
[6] 曹华林.产品生命周期评价(LCA)的理论及方法研究[J].西南民族大学学报(人文社会科学版),2004,25(2):281-284.
[7]BACKES J G,TRAVERSO M.Life cycle sustainability assessment—a survey based potential future development for implementation and interpretation[J].Sustainability,2021,13(24):13688.
[8] VALDIVIA S,BACKES J G,TRAVERSO M,et al. Principles for the application of life cycle sustainability assessment[J].The International Journal of Life Cycle Assessment,2021,26(9):1900-1905.
[9] SUGITA K,杉田清.与耐火材料相关的环境问题—以日本为主历史状况的综述和讨论[C]//国际耐火材料技术、市场研讨会,北京,2005:104-113.
[10] 左铁镛,聂祚仁,狄向华,等.中国材料环境协调性评价研究进展[J].材料导报,2001,15(6):1-3.
[11] 李凤,马晨佳,许慧萍,等.卫生陶瓷产品的生命周期成本分析[J].华北理工大学学报(社会科学版),2019,19(4):53-59.
[12] FRANCA W T,BARROS M V,SALVADOR R,et al.Integrating life cycle assessment and life cycle cost a review[J].The International Journal of Life Cycle Assessment,2021,26(1):244-274.
[13] 邵新宇,邓超,吴军,等.产品设计中生命周期评价与生命周期成本的集成与优化[J].机械工程学报,2008,44(9):13-20.
[14] 戴宏民,戴佩华.生命周期评价数据收集及清单分析研究[J].重庆工商大学学报(自然科学版),2003,20(3):1-3.
[15] 刘忠文.ISO 14040生命周期评价概述[J].环境导报,1998(1):32-34.
[16] 畠田文比古.耐火物のLCAデータ[J].Journal of the Society of Inorganic Materials,2003,10(307):377-381.
[17] FEREIRA G,LÓPZ-SABIRÓN A M,ARNDA J.Environmental analysis for identifying challenges to recover used reinforced refractories in industrial furnaces[J].Journal of Cleaner Production,2015,88(2):242-253.
[18] ÖZKAN A,GÜNKAYA Z,TOK G,et al.Life cycle assessment and life cycle cost analysis of magnesia spinel brick production[J].Sustainability,2006,8(7):662-674.
[19] BOENZi F,ORDIERES-MERE J,IAVAGNILIO R.Life cycle assessment comparison of two refractory brick product systems for ladle lining in secondary steelmaking[J].Sustainability,2019,11(5):1295-1316.
[20] MOTTRAM R S,STEELE T,WILLIAMSON A,et al.Insulating refractories as an enabler to carbon sustainability demonstrated through life cycle assessment[J].Morgan Advanced Materials,2023,7:1-5.
[21] MUÑOZ I,SOTO A,MAZA D,et al.Life cycle Assessment of refractory waste management in a Spanish steel works[J].Waste Management,2020,111(6):1-9.
[22] 野田浩二,梁瑞禄,相马隆雄,等. ジルコニア素子の LCA に関する研究[C]//第3回日本LCA学会研究発表会講演要旨集,名古屋,日本,2008:158-159.
[23] BADIOLI S,CHMPION T,ROUMIGUIER L,et al.Prospective LCA on the design of new refractories for a greener steelmaking process [C]//The SETAC Europe 33rd Annual Meeting,Dublin,Ireland,2023:1.
[24] TOUZO B,CANTON L,HENRY L E.Life cycle assessment tools to evaluate the impact of refractories and fluxes for iron and steel production[J].Journal of Sustainable Metallurgy,2023,10(2):123-126.
[25] JOÃO V.Overview LCA:Challenges and opportunities for the refractory industry[C]// UNITECR 2023,Frankfurt,Germany,2023:1-4.
[26] HORCKMANS L,NIELSEN P,DIERCKX P,et al.Recycling of refractory bricks used in basic steelmaking:a review[J].Resources,Conservation and Recycling,2019,140(1):297-304.
[27] 钟厉,韩西,刘江龙,等.环境材料及其评价方法[J].环境污染治理技术与设备,2002,3(4):52-55.
[28] 谢鹏永,罗旭东,郝长安.低品位菱镁矿的热选提纯工艺研究[J].耐火材料,2017,51(1):53-56.
[29] REN W,XIE B,LU C P,et al.Evaluation of GHG emissions from the production of magnesia refractory raw materials in Dashiqiao,China[J].Journal of Cleaner Production,2016,135(11):214-222.
[30] 李金花.重污染行业企业可持续发展评价研究[D].大连:大连理工大学,2017.
[31] LI J H,ZHANG Y,SHAO S,et al. Application of cleaner production in a Chinese magnesia refractory material plant[J].Journal of Cleaner Production,2016,113(2):1015-1023.
[32] 安静.生命周期视角下的镁质耐火材料产业节能减排分析及建议[C]//中国环境科学学会2019年学术年会论文集,西安,2019:365-368.
[33] ZHAO L,FENG J,DONG H.Analysis of carbon footprint and reduction approach of magnesia production in China[J].Journal of Cleaner Production,2022,334(2):130194.
[34] 刘昱彤.高纯镁砂生命周期环境影响评价[D].大连:大连理工大学,2021.
[35] AN J,XUE X X.Life-cycle carbon footprint analysis of magnesia products[J].Resources,Conservation and Recycling,2017,119(4):4-11.
[36] AN J,LI Y N,MIDDLETON R S.Reducing energy consumption and carbon emissions of magnesia refractory products:a life-cycle perspective[J].Journal of Cleaner Production,2018,182(5):363-371.
[37] 刘涛,刘颖昊.钢铁产品生命周期评价研究现状及意义[J].冶金经济与管理,2009,25(5):25-28.
[38] 桂志军,张卫刚,王涛,等.基于LCA的钢包用耐火材料节能减排研究[J].宝钢技术,2016,34(5):35-39.
[39] TANG Y Z,SHI Y F,LI Y,et al.Environmental and economic impact assessment of the alumina-carbon refractory production in China[J].Journal of Clean Technologies and Environmental Policy,2019,21(8):1723-1737.

耐火材料生命周期评价及生命周期成本评价研究进展

Research progress on LCA and LCCA evaluation of refractories

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

编辑推荐

Metrics

本文评价

[1]	程厚睿, 邓承继, 尹鑫, 王萱, 丁军, 祝洪喜, 余超. 混料工艺对铝锆碳耐火材料生坯性能的影响[J]. 耐火材料, 2024, 58(5): 436-439.
[2]	姚路炎, 韩兵强, 张锦化, 柯昌明. Ti-Si-Fe合金添加量对Si₃N₄结合SiC材料结构与性能的影响[J]. 耐火材料, 2024, 58(4): 277-283.
[3]	梁效诚, 冯雨, 刘中飞, 罗旭东, 黄敏, 吴锋. 预合成CaZrO₃对镁锆质耐火材料性能的影响[J]. 耐火材料, 2024, 58(3): 213-217.
[4]	刘然, 刘晏廷, 高艳甲, 邓勇. 熔融还原炼铁工艺用耐火材料的研究进展[J]. 耐火材料, 2024, 58(3): 251-256.
[5]	陈天任, 王战民, 秦红彬, 梁成凯, 李旭治. 氢冶金工艺及氢基竖炉用耐火材料研究进展[J]. 耐火材料, 2024, 58(3): 263-269.
[6]	慕鑫, 贾毅, 刘春阳, 柴光伟, 余吴明, 杜传明, 马北越. 废旧高铝砖在LF精炼渣中的溶解行为研究[J]. 耐火材料, 2024, 58(1): 25-29.
[7]	徐国涛, 王志强, 秦世民, 刘黎, 张洪雷, 张彦文, 周旺枝. 新一代六铝酸钙质浇注料的研制与应用[J]. 耐火材料, 2024, 58(1): 53-56.
[8]	张巍, 王京阳. 莫来石复合耐火材料的应用进展[J]. 耐火材料, 2024, 58(1): 80-86.
[9]	李斌, 刘杰, 朱波, 郭玉涛, 任博, 封吉圣, 陈俊红. CA₆质耐火材料在水泥回转窑过渡带的应用及损毁机制[J]. 耐火材料, 2023, 57(6): 479-483.
[10]	王明刚, 车连房, 史成龙, 袁宏伟, 刘永振. 钛白粉回转窑用耐火材料的配置及应用[J]. 耐火材料, 2023, 57(6): 504-507.
[11]	丁嘉辉, 张利新, 邓俊杰, 刘萍, 徐恩霞, 李素平. 危废处理焚烧炉内衬用耐火材料研究进展[J]. 耐火材料, 2023, 57(6): 538-541.
[12]	余吴明, 慕鑫, 杜传明, 马北越, 于景坤. 废旧耐火材料用作钢铁冶金熔剂的研究进展[J]. 耐火材料, 2023, 57(6): 542-545.
[13]	李红霞. 先进耐火材料创新助推国家战略实施[J]. 耐火材料, 2023, 57(5): 369-376.
[14]	王战民, 曹喜营, 吴吉光, 秦红彬, 李志刚, 余同暑, 柳军, 刘国齐, 段斌文, 王自强. 钢铁工业用耐火材料新技术进展[J]. 耐火材料, 2023, 57(5): 377-385.
[15]	韩艺辉, 曹喜营, 冯海霞, 王晖, 柳军, 潘元帅, 王建斌. 不同结合剂结合MgO-C耐火材料的性能研究[J]. 耐火材料, 2023, 57(5): 402-406.