PATH OF CARBON EMISSION PEAKING AND CARBON NEUTRALITY IN SOIL REMEDIATION INDUSTRY

XUE Chengjie; FANG Zhanqiang

doi:10.13205/j.hjgc.202208033

Volume 40 Issue 8

Nov. 2022

Turn off MathJax

Article Contents

Abstract

References

Article Navigation > ENVIRONMENTAL ENGINEERING > 2022 > 40(8): 231-238

XUE Chengjie, FANG Zhanqiang. PATH OF CARBON EMISSION PEAKING AND CARBON NEUTRALITY IN SOIL REMEDIATION INDUSTRY[J]. ENVIRONMENTAL ENGINEERING , 2022, 40(8): 231-238. doi: 10.13205/j.hjgc.202208033

Citation:

XUE Chengjie, FANG Zhanqiang. PATH OF CARBON EMISSION PEAKING AND CARBON NEUTRALITY IN SOIL REMEDIATION INDUSTRY[J]. ENVIRONMENTAL ENGINEERING , 2022, 40(8): 231-238. doi: 10.13205/j.hjgc.202208033

XUE Chengjie, FANG Zhanqiang. PATH OF CARBON EMISSION PEAKING AND CARBON NEUTRALITY IN SOIL REMEDIATION INDUSTRY[J]. ENVIRONMENTAL ENGINEERING , 2022, 40(8): 231-238. doi: 10.13205/j.hjgc.202208033

Citation:

XUE Chengjie, FANG Zhanqiang. PATH OF CARBON EMISSION PEAKING AND CARBON NEUTRALITY IN SOIL REMEDIATION INDUSTRY[J]. ENVIRONMENTAL ENGINEERING , 2022, 40(8): 231-238. doi: 10.13205/j.hjgc.202208033

PDF( 5073 KB)

PATH OF CARBON EMISSION PEAKING AND CARBON NEUTRALITY IN SOIL REMEDIATION INDUSTRY

doi: 10.13205/j.hjgc.202208033

XUE Chengjie¹,
FANG Zhanqiang^{1,2
,
,}

1. School of Environment, South China Normal University, Guangzhou 510006, China;
2. Guangdong Province Environmental Remediation Industry Technology Innovation Alliance, Guangzhou 510006, China

Received Date: 2021-08-08
Publish Date: 2022-11-08

Abstract

Abstract

The soil remediation industry in China is about to usher in explosive growth, and the market scale will exceed a trillion in the future. And soil remediation industry is with the most development potential in the environmental protection industry. Carbon emissions will affect the world climate change and change the human living environment. China proposed the carbon peaking and carbon neutrality goals, which aimed to optimize the energy structure and maintain the global carbon dioxide balance. Carbon emissions in the soil remediation industry will gradually increase with the development of the soil remediation market, so scientific carbon emission reduction measures are essential in the near future. This study predicted the time point of carbon peaking and carbon neutrality in the soil remediation industry, analyzed the carbon emission in the soil remediation industry, and put forward the path to achieve the carbon peaking and carbon neutrality goals.
- soil remediation,
- peak carbon dioxide emissions,
- carbon neutrality,
- carbon dioxide,
- soil remediation technology

FullText(HTML)

References(18)

References

[1]	张立,谢紫璇,曹丽斌,等.中国城市碳达峰评估方法初探[J].环境工程,2020,38(11):1-5 ,43.
[2]	ZHAO X,MA X W,CHEN B Y,et al.Challenges toward carbon neutrality in China:strategies and countermeasures[J].Resources,Conservation & Recycling,2022,176:105959-105968.
[3]	英国石油公司.世界能源统计-二氧化碳排放量[EB/OL].(1965—2019)https://www.bp.com/en/global/corporate/energy-economics/statistical-review-of-world-energy/co2-emissions.html.
[4]	HEPBURN C,ADLEN E,BEDDINGTON J,et al.The technological and economic prospects for CO₂ utilization and removal[J].Nature,2019,575(7781):87-97.
[5]	SUN J C.Solving the problem of carbon dioxide emissions[J].Forest Policy and Economics,2013,35:92-97.
[6]	何长全,刘兰,段宗志,等.生态文明环境下中国碳排放影响因素及减排措施分析[J].环境工程,2015,33(11):147-151.
[7]	李国志.基于变参数模型的中国碳排放与经济增长EKC拐点研究[J].环境工程,2018,36(2):142-146.
[8]	王文坦,李社锋,朱文渊,等.我国污染场地土壤修复技术的工程应用与商业模式分析[J].环境工程,2016,34(1):164-167.
[9]	和丽萍,李丽娜,陈异晖,等.云南某焦化厂多环芳烃污染红壤异位热脱附修复效率[C]//中国环境科学学会2019年科学技术年会——环境工程技术创新与应用分论坛论文集(二).中国环境科学学会环境工程分会,2019:294-298,356.
[10]	梅志华,赵申.热强化气相抽提法在某有机污染场地的中试应用[J].化工管理,2015(11):167-168.
[11]	蒋荷君.水泥窑协同处置危险废弃物技术在南京中联水泥有限公司的应用[J].江苏建材,2020(4):6-9.
[12]	马先芮.抽提处置和土壤淋洗技术在上海某大型污染场地中的应用[J].广东化工,2020,47(15):123-125 ,114.
[13]	朱伟,吉顺健,李磊,等.污泥固化/稳定化技术现场试验研究[J].环境科学与技术,2009,32(5):131-134 ,137.
[14]	李倩,杨璐,姜越,等.农药生产场地污染土壤的化学氧化修复技术研究进展[J].生态与农村环境学报,2021,37(1):19-29.
[15]	郑美林,赵颖豪,苗莉莉,等.多环芳烃污染土壤生物修复研究进展[J].生物工程学报,2021,37(10):3535-3548.
[16]	臧梦璐.土壤修复市场:一块“难啃”的蛋糕[J].光彩,2021(3):34-37.
[17]	薛成杰,方战强,王炜.电子废物拆解场地复合污染土壤修复技术研究进展[J].环境污染与防治,2021,43(1):103-108.
[18]	谷庆宝,侯德义,伍斌,等.污染场地绿色可持续修复理念、工程实践及对我国的启示[J].环境工程学报,2015,9(8):4061-4068.

Relative Articles

[1]	WANG Guiyun, SANG Chunhui, XIAO Meng, NIE Yuxin, YANG Xintong, ZHANG Hongzhen, LI Xianglan. Environmental footprint analysis for contaminated soil remediation in paper mill based on SEFA tool[J]. ENVIRONMENTAL ENGINEERING , 2025, 43(1): 80-88. doi: 10.13205/j.hjgc.202501009
[2]	HE Guofu, CHEN Min, GU Jiayan, CAI Jingli, XIE Liping, XUE Wenjin, HU Yingying. Research progress of carbon capture technology in sewage treatment based on CiteSpace metrological analysis[J]. ENVIRONMENTAL ENGINEERING , 2025, 43(1): 70-79. doi: 10.13205/j.hjgc.202501008
[3]	NIU Jianmin, ZANG Chong, WANG Zhenghua, ZHOU Min, PAN Wenjie, LI Hongyan. ENGINEERING APPLICATION OF ENHANCED ROOM TEMPERATURE DESORPTION IN REMEDIATION OF SOIL CONTAMINATED BY CHLORINATED HYDROCARBONS[J]. ENVIRONMENTAL ENGINEERING , 2024, 42(5): 107-113. doi: 10.13205/j.hjgc.202405014
[4]	WANG Biyun, SUN Ailin, XU Xuehuang. STRATEGIES AND PROJECT CASE OF WASTEWATER TREATMENT PLANTS RENEWAL AND REFORMATION FOR THE DUAL-CARBON GOAL[J]. ENVIRONMENTAL ENGINEERING , 2024, 42(11): 81-89. doi: 10.13205/j.hjgc.202411009
[5]	MA Yuanyuan, WU Yang, WANG Puchun, CHEN Yinguang, ZHENG Xiong. RESEARCH PROGRESS ON ANAEROBIC CO-FERMENTATION OF WASTE-ACTIVATED SLUDGE TO PRODUCE ACID UNDER THE GOAL OF LOW CARBON[J]. ENVIRONMENTAL ENGINEERING , 2024, 42(1): 102-109. doi: 10.13205/j.hjgc.202401014
[6]	LI Shefeng, DU Shaoxia, BAO Shenxu, YAN Shuiping, LIU Ziyang. BIBLIOMETRIC ANALYSIS AND DEVELOPMENT TREND DISCUSSION OF CONTAMINATED SOIL REMEDIATION TECHNOLOGY IN INTERNATIONAL RESEARCH[J]. ENVIRONMENTAL ENGINEERING , 2023, 41(12): 329-336,342. doi: 10.13205/j.hjgc.202312041
[7]	CHEN Wenhao, YUAN Huizhou, KE Shuizhou, LIU Xiaoming. ANALYSIS OF CARBON OFFSET AND ENERGY RECOVERY POTENTIAL OF DIFFERENT FOOD WASTE RESOURCE DISPOSAL METHODS[J]. ENVIRONMENTAL ENGINEERING , 2023, 41(7): 37-44. doi: 10.13205/j.hjgc.202307006
[8]	XIE Chengcheng, LIU Gang. ROAD MAP FOR CUSTRUCTING CARBON NEUTRAL WASTEWATER TREATMENT PLANTS[J]. ENVIRONMENTAL ENGINEERING , 2023, 41(9): 181-186. doi: 10.13205/j.hjgc.202309022
[9]	DING Yi, YIN Jian, JIANG Hongtao, XIA Ruici, WEI Danqi, LUO Xinyuan. SYSTEM DYNAMICS PREDICTION OF CARBON PEAKING IN PEARL RIVER DELTA[J]. ENVIRONMENTAL ENGINEERING , 2023, 41(7): 22-29. doi: 10.13205/j.hjgc.202307004
[10]	REN Hongyang, DU Ruolan, XIE Guilin, JIN Wenhui, LI Xi, DENG Yuanpeng, MA Wei, WANG Bing. RESEARCH STATUS OF INFLUENCING FACTORS AND IDENTIFICATION METHODS OF CARBON EMISSIONS IN CHINA[J]. ENVIRONMENTAL ENGINEERING , 2023, 41(10): 195-203,244. doi: 10.13205/j.hjgc.202310023
[11]	CHEN Zhikang, LIU Liujun, YIN Lipu, YUE Rui, MAO Xuhui. RESEARCH PROGRESS OF ELECTRICAL RESISTANCE HEATING FOR SOIL REMEDIATION[J]. ENVIRONMENTAL ENGINEERING , 2022, 40(4): 224-234,243. doi: 10.13205/j.hjgc.202204032
[12]	WU Baimiao, ZHANG Yimei, LI Shuai, GUO Wenjin, GUO Xiaoqian, WANG Senyao, LIANG Xi, GENG Xuewen. COMPREHENSIVE IMPACT ASSESSMENT ON CARBON NEUTRALIZATION OF WASTEWATER TREATMENT PLANTS BASED ON HYBRID LCA[J]. ENVIRONMENTAL ENGINEERING , 2022, 40(6): 130-137. doi: 10.13205/j.hjgc.202206017
[13]	WANG Mu, SONG Junjie, XIE Ronghuan, LI Weiping, LIU Guijian. EXPERIMENTAL STUDY OF H₂O₂ OXIDATION COUPLED WITH CHEMICAL WASHING TO REMEDY CHROMIUM-CONTAMINATED CLAYED SOIL FROM AN ELECTROPLATE FACTORY[J]. ENVIRONMENTAL ENGINEERING , 2022, 40(8): 125-130. doi: 10.13205/j.hjgc.202208017
[14]	ZHAO Jinhui, LI Jingshun, WANG Panle, HOU Gaojie. A STUDY ON CARBON PEAKING PATHS IN HENAN, CHINA BASED ON LASSO REGRESSION-BP NEURAL NETWORK MODEL[J]. ENVIRONMENTAL ENGINEERING , 2022, 40(12): 151-156,164. doi: 10.13205/j.hjgc.202212020
[15]	DONG Jin-chi, WANG Xu-ying, CAI Bo-feng, WANG Jin-nan, LIU Hui, YANG Lu, XIA Chu-yu, LEI Yu. MITIGATION TECHNOLOGIES AND MARGINAL ABATEMENT COST FOR IRON AND STEEL INDUSTRY IN CHINA[J]. ENVIRONMENTAL ENGINEERING , 2021, 39(10): 23-31,40. doi: 10.13205/j.hjgc.202110004
[16]	LIU Hui, CAI Bo-feng, ZHANG Li, WANG Zhen, CHEN Yang, XIA Chu-yu, YANG Lu, DONG Jin-chi, SONG Xiao-hui. RESEARCH ON CARBON DIOXIDE ABATEMENT TECHNOLOGIES AND COST IN CHINA'S POWER INDUSTRY[J]. ENVIRONMENTAL ENGINEERING , 2021, 39(10): 8-14. doi: 10.13205/j.hjgc.202110002
[17]	HUANG Kai-you, SHEN Ying-jie, WANG Xiao-yan, WANG Xing-run, YUAN Wen-yi, ZHANG Cheng-long, BAI Jian-feng, WANG Jing-wei. REVIEW ON PREPARATION OF BIO-CARBON LOADED NANO ZERO-VALENT IRON AND ITS APPLICATION IN REMEDIATING Cr(Ⅵ)-CONTAMINATED SOIL[J]. ENVIRONMENTAL ENGINEERING , 2020, 38(11): 203-210,195. doi: 10.13205/j.hjgc.202011033
[18]	CUI Xiu-zhen, XU Shao-dong, GAO Han-bo, WANG Jun-xia, CAI Bo-feng. REFERENCE OF URBAN AIR POLLUTANTS EMISSION PATH FOR CARBON EMISSION PEAKING[J]. ENVIRONMENTAL ENGINEERING , 2020, 38(11): 39-43. doi: 10.13205/j.hjgc.202011007
[19]	YANG Nan, LI Yan-xia, LV Chen, ZHAO Meng, LIU Zhong-liang, LIU Hao. CARBON EMISSION ACCOUNTING AND PEAK FORECASTING OF IRON & STEEL INDUSTRY IN TANGSHAN[J]. ENVIRONMENTAL ENGINEERING , 2020, 38(11): 44-52. doi: 10.13205/j.hjgc.202011008
[20]	Luo Chengcheng Zhang Huanzhen Bi Lusha Zhu Hong, . PROGRESS ON REHABILITATING OIL CONTAMINATED SOIL BY SVE METHOD[J]. ENVIRONMENTAL ENGINEERING , 2015, 33(10): 158-162. doi: 10.13205/j.hjgc.201510035

Supplements(0)

Cited By

Cited by

Periodical cited type(24)

1.	王贵云，桑春晖，肖萌，聂雨欣，杨欣桐，张红振，李香兰. 基于SEFA的造纸地块污染修复方案环境足迹案例研究. 环境工程. 2025(01): 80-88 . 本站查看
2.	杜林峰，王月玲，沈彦. 污染土壤绿色可持续修复理论及技术综述. 现代农业科技. 2024(03): 124-127+131 .
3.	王永东，袁野，刘欣媛，李梦婷，刘骞，王津华，马建洪. 聚吡咯改性电极强化MFC驱动铀污染土壤的电动修复研究. 环境工程. 2024(02): 182-191 . 本站查看
4.	桑春晖，杨欣桐，张红振，肖萌，刘瑞平，孟藤藤，李香兰. 氰化物污染土壤修复工程环境足迹评估方法和案例研究. 中国环境科学. 2024(05): 2905-2915 .
5.	江建斌. 上海某污染场地土壤原位修复参数研究. 清洗世界. 2024(05): 51-53 .
6.	陈汐昂，王文兵，李瑞飞，李春阳，范淇峰，张梦，相明辉，李辉. 场地修复异位热脱附碳排放核算、优化与预测. 环境工程学报. 2024(04): 1073-1082 .
7.	田平，郑静芬，杜耀，朱于红，邹传，杨尚源，周鸿. 基于环境足迹分析方法的石油烃污染场地土壤绿色修复技术评价应用研究. 环境污染与防治. 2024(08): 1149-1155 .
8.	高旭，邱成浩，张强，徐鹏程，王雯冉，王栋，韩进，曲常胜. 土壤污染修复工程异味控制技术应用研究. 绿色科技. 2024(14): 90-94+112 .
9.	田平，朱于红，杜耀，田明鑫，陈彩成，杨尚源，徐文菲，周鸿. 合肥某污染场地修复过程的环境足迹核算及不确定性研究. 环境污染与防治. 2024(10): 1515-1520 .
10.	白雨虹，高大文. Trametes versicolor修复石油烃污染土壤及温室气体释放特征. 化工进展. 2024(10): 5922-5931 .
11.	许维通，王昆，宋广翰，卢俊，钟方海，贺志超，梁国栋，闫斌，王燕飞. 有机污染土壤异位热脱附修复的碳足迹分析——以广州市某溶剂厂污染场地为例. 中国资源综合利用. 2024(11): 208-212 .
12.	王福山，王怡如，刘欢. 新形势下土壤修复产业发展面临的挑战与机遇. 皮革制作与环保科技. 2024(23): 153-155 .
13.	孟豪，梅丹兵，邓璟菲，刘鹏，董璟琦，张红振，李香兰. 北京市污染场地土壤修复工程实证分析. 中国环境科学. 2023(02): 764-771 .
14.	肖萌，孟豪，董璟琦，张红振，周通，吴龙华，李香兰. 农田污染钝化修复环境影响定量评估方法与案例分析. 中国环境科学. 2023(07): 3571-3581 .
15.	丁乙，尹剑，姜洪涛，夏芮兹，卫丹琪，罗心愿. 珠三角碳达峰系统动力学预测. 环境工程. 2023(07): 22-29 . 本站查看
16.	金嘉路，杨逸文，王震，张婉莹，周龑，张峰，李磊，崔长征. 污染场地多相抽提低碳修复布井方案优化模拟研究. 环境科学研究. 2023(08): 1596-1606 .
17.	姜文超. 污染场地热脱附技术的绿色低碳评价与措施研究. 环境污染与防治. 2023(08): 1189-1194 .
18.	孟豪，梅丹兵，邓璟菲，刘鹏，董璟琦，肖萌，张红振，李香兰. 天津市污染地块土壤与地下水修复实证分析. 中国环境科学. 2023(09): 4760-4767 .
19.	吴东海，韩俊楠，刘斌，袁曾路，毛竹. 污染土壤热脱附技术的碳达峰碳中和路径初探. 环境工程. 2023(S2): 701-706 . 本站查看
20.	桑春晖，杨欣桐，李香兰，张红振. 基于SEFA方法的异位土壤修复环境足迹分析——以某钢铁厂为例. 中国环境科学. 2023(10): 5359-5367 .
21.	王翀，吴春发，傅赵聪，张宇，刘东，张锦路. 不同淋洗剂对砷污染土壤多级淋洗效果比较. 生态与农村环境学报. 2023(10): 1308-1315 .
22.	孟豪，董璟琦，张红振，肖萌，李香兰. 污染场地风险管控碳排放计算方法及案例分析. 中国环境科学. 2023(S1): 368-375 .
23.	周实际，孙慧洋，李颖臻，袁航，冯亚松，杨玉玲，杜延军. 污染土壤稳定化碳排放计算方法及案例研究. 中国环境科学. 2022(10): 4840-4848 .
24.	赵金辉，李景顺，王潘乐，侯高杰. 基于Lasso-BP神经网络模型的河南省碳达峰路径研究. 环境工程. 2022(12): 151-156+164 . 本站查看