Education, Science, Technology, Innovation and Life
Open Access
Sign In

Design and Research of Low Temperature Plasma Soil Remediation System

Download as PDF

DOI: 10.23977/erej.2022.060301 | Downloads: 4 | Views: 239


Rui Huang 1, Hui Wang 2, Jinmao Li 1, Hexin Wang 3, Dandan Lu 2


1 School of electrical & information engineering, Heilongjiang Institute of Technology, Jixi, China
2 School of Mechanical Engineering, Heilongjiang Institute of Technology, Jixi, China
3 Science and Technology Innovation Office, Heilongjiang Institute of Technology, Jixi, China

Corresponding Author

Hui Wang


The most basic resource on earth island, and soil accounts for about 29% of the earth's area. With the advancement of modern technology, the damage to soil is becoming more and more serious. Therefore, the protection of soil environment and the restoration of soil quality are not only a national policy of the country, but also a mission that everyone should keep in mind. In this paper, the contaminated soil is remediated based on low-temperature plasma technology. Following the concept of environmental protection and energy saving, dielectric barrier discharge is used as the remediation technology. The purpose of soil remediation is achieved by degrading the content of polycyclic aromatic hydrocarbons in the soil. The experimental results verify the feasibility of barrier discharge in soil remediation systems, and thus promote the application of low-temperature plasma technology in the field of soil remediation.


Plasma technology, Dielectric barrier discharge, Soil remediation, Polycyclic aromatic hydrocarbons


Rui Huang, Hui Wang, Jinmao Li, Hexin Wang, Dandan Lu, Design and Research of Low Temperature Plasma Soil Remediation System. Environment, Resource and Ecology Journal (2022) Vol. 6: 1-12. DOI:


[1] Yan Qing, Wang Linjie. Current situation and main control strategies of soil pollution in China. Rural Science and Technology,2021,12(30):94-96.
[2] Lei Pengcheng. Research progress in remediation of organically polluted soil by low temperature plasma technology. Petrochemical Construction,2020(4):95-99.
[3] Zhan Jiaxun, Zhang Ai, Li Zhenyu, Liu Yanan. Study on the degradation of petroleum pollutants in soil by low temperature plasma 2018.
[4] Zhang Yinghua. An overview of plasma and its engineering application. World Products and Technology,1995(1):18-20.
[5] Technology - Plasma Research; Studies from Research and Development Center Have Provided New Information about Plasma Research (Plasma Diagnosis and Biomedical Application Using Linear Microwave Atmosnheric-Pressure Plasma Generator IournaL of Technoloev 2020.
[6] Chen Changwen, Wang Shaoning, Xu Hengtong. Experimental research on dielectric barrier discharge phenomenon in high frequency transformers. New Technology of Electrical Engineering,2020,39(11):18-24.
[7] Zhuang Hongchun, Sun Yaohong, Peng Yanchang, Zhang Wei, Yan Ping. Research on plasma generation technology by dielectric barrier discharge. High Voltage Technology,2021(S1):57-58.
[8] Teng Qing, Wang Chun, Lin Xuanjie, Xie Meibing, Cheng Lusi. Research progress in soil polycyclic aromatic hydrocarbon pollution remediation technology. China Agricultural Science Bulletin, 2021, 37(23): 138-143.
[9] Wang Qibin, Li Jun. Development of high-frequency high-voltage power supply for generating cold plasma. Electric Transmission, 2017, 47(1): 78-80.
[10] Lei Ye, Chen Yukun, Hu Rong, Wang Xingyu, Li Su, Huang Wenwen. Effects of soil types on oxidative remediation of benzo[a]pyrene contaminated soils. Petroleum and Natural Gas Chemical Industry, 2021, 50(4) :135-139.
[11] Peng Wei; Shazhou An; Mei Ke; Chao Li; Yurong Hou; Jiyong Lan; Shuai Kang; Junpeng Jin Effects of Enclosure on Plant and Soil Restoration in the Junggar Desert. Journal of Resources and Ecology Volume 12, Issue 6. 2021. PP 840-848.

Downloads: 1417
Visits: 80253

Sponsors, Associates, and Links

All published work is licensed under a Creative Commons Attribution 4.0 International License.

Copyright © 2016 - 2031 Clausius Scientific Press Inc. All Rights Reserved.