RESEARCH PROGRESS ON PREPARATION OF SLUDGE BASED BIOCHAR AND ITS EFFECT ON SOIL ENVIRONMENT

CAO Xiuqin; LIU Feng; CHAI Lianlian; ZHU Kaijin; TAN Junhua

doi:10.13205/j.hjgc.202203030

Volume 40 Issue 3

Mar. 2022

Turn off MathJax

Article Contents

Article Navigation > ENVIRONMENTAL ENGINEERING > 2022 > 40(3): 203-211

CAO Xiuqin, LIU Feng, CHAI Lianlian, ZHU Kaijin, TAN Junhua. RESEARCH PROGRESS ON PREPARATION OF SLUDGE BASED BIOCHAR AND ITS EFFECT ON SOIL ENVIRONMENT[J]. ENVIRONMENTAL ENGINEERING , 2022, 40(3): 203-211. doi: 10.13205/j.hjgc.202203030

Citation:

CAO Xiuqin, LIU Feng, CHAI Lianlian, ZHU Kaijin, TAN Junhua. RESEARCH PROGRESS ON PREPARATION OF SLUDGE BASED BIOCHAR AND ITS EFFECT ON SOIL ENVIRONMENT[J]. ENVIRONMENTAL ENGINEERING , 2022, 40(3): 203-211. doi: 10.13205/j.hjgc.202203030

Citation:

PDF( 1254 KB)

RESEARCH PROGRESS ON PREPARATION OF SLUDGE BASED BIOCHAR AND ITS EFFECT ON SOIL ENVIRONMENT

doi: 10.13205/j.hjgc.202203030

1. School of Environment and Energy Engineering, Beijing University of Civil Engineering and Architecture, Beijing 100044, China;
2. Department of Materials Engineering, Taiyuan Institute of Technology, Taiyuan 030008, China

Received Date: 2021-04-04
Available Online: 2022-07-07

Abstract

Abstract

Sludge based biochar has been widely studied in environmental pollution remediation, soil improvement and carbon fixation, due to its excellent pore structure, large specific surface area and strong adsorption capacity. Based on the sources and properties of sludge biochar, this paper introduces the mechanism of soil structure improvement and nutrient composition amelioration after applying sludge biochar to soil, and summarizes the preparation process, the characteristics and the effectiveness of sludge biochar on soil. Through the analysis for the quality of sludge biochar as fertilizer, the safety of sludge biochar and its positive effect on soil environment are evaluated. In addition, through the brief classification of the typical problems on soil, it provides reference for the selection of sludge biochar preparation process from the perspective of adaptation of soil improvement requirements and sludge biochar characteristics. Therefore, the application of sludge biochar has important practical significance in promoting the utilization of sludge resources and achieving carbon emission reduction. Finally, key research directions, such as optimizing the preparation process, objectively evaluating the environmental risks of land use, strengthening the modification, and attaching importance to the comprehensive benefit evaluation of sludge biochar, are put forward.
- sludge biochar,
- preparation technology,
- ecological soil application,
- soil improvement,
- soil environment

FullText(HTML)

References(49)

References

[1]	郝晓地,方晓敏,李季,等.污水碳中和运行潜能分析[J].中国给水排水,2018,34(10):11-16.
[2]	戴晓虎.我国污泥处理处置现状及发展趋势[J].科学,2020,72(6):30-34 ,4.
[3]	MIERZWA-HERSZTEK M, GONDEK K, KLIMKOWICZ-PAWLAS A, et al. Sewage sludge biochars management-ecotoxicity, mobility of heavy metals, and soil microbial biomass[J]. Environmental Toxicology and Chemistry,2018,37(4):1197-1207.
[4]	柴莲莲.污泥和生物炭修复重金属污染土壤的研究[D].北京:北京建筑大学,2020.
[5]	王志朴,热则耶,张大旺,等.污泥基生物炭对土壤中Cr的固定效果与机制研究[J/OL].环境工程,1-7[2021-06-19 ].http://kns.cnki.net/kcms/detail/11.2097.X.20210416.1039.002.html.
[6]	齐秀静,许晓静,徐杨.利用热解炭化污水厂污泥对废弃盐池土改良绿化研究[J].现代园艺,2021,44(9):31-32 ,92.
[7]	陈林,平巍,闫彬,等.不同制备温度下污泥生物炭对Cr (Ⅵ)的吸附特性[J].环境工程,2020,38(8):119-124.
[8]	汤传武,刘立恒,黄蓉,等.制备工艺对nZVI/污泥基生物炭中Zn、Cu、Pb形态分布及其生态风险的影响[J].环境工程,2020,38(10):216-221.
[9]	AHMAD M, RAJAPAKSHA A U, LIM J E, et al. Biochar as a sorbent for contaminant management in soil and water:a review[J]. Chemosphere, 2014,99:19-33.
[10]	GWENZI W, MUZAVA M, MAPANDA Farai, et al. Comparative short-term effects of sewage sludge and its biochar on soil properties, maize growth and uptake of nutrients on a tropical clay soil in zimbabwe[J]. Journal of Integrative Agriculture,2015,15(6):1395-1406.
[11]	JOHN M B, PARK C N. Pyrolyzed sewage sludge:its production and possible utility[J]. Environmental Science&Technology,1971,5(l):69-71.
[12]	YOSHIYUKI S, YUTAKA K. Pyrolysis of plant, animal and human waste:physical and chemical characterization of the pyrolytic products[J]. Bioresource Technology,2003,90(3):241-247.
[13]	HOSSAIN M K, STREZOV V, CHAN K Y, et al. Influence of pyrolysis temperature on production and nutrient properties of wastewater sludge biochar[J]. Journal of Environmental Management,2011,92(1):223-228.
[14]	PAZ-FERREIRO J,GASCÓ G,GUTIÉRREZ B, et al. Soil biochemical activities and the geometric mean of enzyme activities after application of sewage sludge and sewage sludge biochar to soil[J]. Biology and Fertility of Soils,2012,48(5):511-517.
[15]	翟世民,柳荣展,郭雪松,等.污水处理厂污泥制备生物炭及应用的研究进展[J].化工进展,2016,35(增刊2):363-368.
[16]	黄燕宁,王晓,张宏杰,等.污泥生物炭的研究进展[J].功能材料,2017,48(9):9024-9029.
[17]	XU X W, TU R, SUN Y, et al. The influence of combined pretreatment with surfactant/ultrasonic and hydrothermal carbonization on fuel properties, pyrolysis and combustion behavior of corn stalk[J]. Bioresource Technology,2019,271:427-438.
[18]	JUDYA L, KYOUNG S R, CLAUDIA K, et al. Hydrothermal carbonization of biomass residuals:a comparative review of the chemistry, processes and applications of wet and dry pyrolysis[J]. Biofuels,2011,2(1):71-106.
[19]	廖希凯,满小媛,宁寻安,等.炭化温度对废旧布袋制备活性炭性能的影响及其表征[J].环境科学学报,2015,35(11):3775-3780.
[20]	KHANMOHAMMADI Z, AFYUNI M, MOSADDEGHI M R. Effect of pyrolysis temperature on chemical and physical properties of sewage sludge biochar[J]. Waste Management&Research,2015,33(3):275-283.
[21]	PAZ-FERREIRO J, GASCÉG, GUTIÉRREZ B, et al. Soil biochemical activities and the geometric mean of enzyme activities after application of sewage sludge and sewage sludge biochar to soil[J]. Biology and Fertility of Soils,2012,48(5):511-517.
[22]	CANTRELL K B, HUNT P G, UCHIMIYA M. Impact of pyrolysis temperature and manuresource on physicochemical characteristics of biochar[J]. Bioresource Technology,2012,107:419-428.
[23]	JIN J W, LI Y N, ZHANG J Y, et al. Influence of pyrolysis temperature on properties and environmental safety of heavy metals in biochars derived from municipal sewage sludge[J]. Journal of Hazardous Materials,2016,320:417-426.
[24]	许劲,徐军,吕秋颖,等.水热碳化技术用于污泥处理处置前景分析[J].中国给水排水,2020,36(16):54-59.
[25]	张丛光,尚高原,邱凌,等.污泥-生物炭耦合还田技术研究进展[J].西北林学院学报,2017,32(3):84-90.
[26]	MEYER S, GLASER B, QUICKER, P. Technical, economical, and climate-related aspects of biochar production technologies:a literature review[J]. Environmental Science&Technology,2011,45(22):9473-9483.
[27]	于俊清,于颖.污泥微波热裂解处理技术的研究进展[J].科技创新导报,2012(21):44.
[28]	徐振佳,陆宇倩,李莲,等.不同反应条件对污泥水热碳化脱水性能的影响[J].环境工程,2019,37(3):1-6 ,12.
[29]	王雪芹.我国土壤污染问题现状及防治策略[J].化工管理,2021(6):137-138.
[30]	WAQAS M, KHAN S, QING H, et al. The effects of sewage sludge and sewage sludge biochar on PAHs and potentially toxic element bioaccumulation in Cucumis sativa L.[J]. Chemosphere,2014,105:53-61.
[31]	ZIMMERMAN A R, GAO B, AHN M Y. Positive and negative carbon mineralization priming effects among a variety of biochar-amended soils[J]. Soil Biology and Biochemistry,2011,43(6):1169-1179.
[32]	MELO W, DELARICA D, GUEDES A. Ten years of application of sewage sludge on tropical soil:a balance sheet on agricultural crop sand environmental quality[J]. Science of the Total Environment,2018,643:1493-1501.
[33]	QIAN T T, ZHANG X S, HU J Y, et al. Effects of environmental conditions on the release of phosphorus from biochar[J]. Chemosphere,2013,93(9):2069-2075.
[34]	ZHANG P, SUN H W, MIN L J, et al. Biochars change the sorption and degradation of thiacloprid in soil:insights into chemical and biological mechanisms[J]. Environmental Pollution,2018,236:158-167.
[35]	ZHANG C S, LIN Y, TIAN X Y, et al. Tobacco bacterial wilt suppression with biochar soil addition associates to improved soil physiochemical properties and increased rhizosphere bacteria abundance[J]. Applied Soil Ecology,2017,112:90-96.
[36]	FIGUEIREDO C C D, CHAGAS J K M, DA SILVA J, et al. Short-term effects of a sewage sludge biochar amendment on total and available heavy metal content of a tropical soil[J]. Geoderma,2019,344:31-39.
[37]	PAZ-FERREIRO J, LIANG C, FU S, et al. The effect of biochar and its interaction with the earthworm pontoscolex corethrurus on soil microbial community structure in tropical soils[J]. PLoS One,2015,10(4):0124891(1-11).
[38]	BENAVENTE I, GASCÓ G, PLAZA C, et al. Choice of pyrolysis parameters for urban wastes affects soil enzymes and plant germination in a mediterranean soil[J]. Science of the Total Environment,2018,634:1308-1314.
[39]	YUE Y, CUI L, LIN Q M, et al. Efficiency of sewage sludge biochar in improving urban soil properties and promoting grass growth[J]. Chemosphere,2017,173:551-556.
[40]	LI M, LIU M, LI Z P, et al. Soil N transformation and microbial community structure as affected by adding biochar to a paddy soil of subtropical China[J]. Journal of Integrative Agriculture,2016,15(1):209-219.
[41]	KHAN S, CHAO C, WAQAS M, et al. Sewage sludge biochar influence upon rice (Oryza sativa L.) yield, metal bioaccumulation and greenhouse gas emissions from acidic paddy soil[J]. Environmental Science&Technology,2013,47(15):8624-8632.
[42]	WU H M, QIN X J, WU H M, et al. Biochar mediates microbial communities and their metabolic characteristics under continuous monoculture[J]. Chemosphere,2020,246:125835.
[43]	王君,陈娴,桂丕,等.污泥炭化温度和时间对重金属形态及作物累积的影响[J].华南农业大学学报,2015,36(5):54-60.
[44]	韩江培.设施栽培条件下土壤酸化与盐渍化耦合发生机理研究[D].杭州:浙江大学,2015.
[45]	徐国庆.污泥生物炭输入暖温带人工杨树林的土壤环境效应研究[D].北京:北京建筑大学,2019.
[46]	MSOLAIMAN Z, MANAWAR H. Application of biochars for soil constraints:challenges and solutions[J]. Pedosphere,2015,25(5):631-638.
[47]	安梅,董丽,张磊,等.不同种类生物炭对土壤重金属镉铅形态分布的影响[J].农业环境科学学报,2018,37(5):892-898.
[48]	孟莉蓉,俞浩丹,杨婷婷,等. 2种生物炭对Pb、Cd污染土壤的修复效果[J].江苏农业学报,2018,34(4):835-841.
[49]	ZWIETEN V L, KIMBER S, MORRIS S, et al. Effects of biochar from slow pyrolysis of papermill waste on agronomic performance and soil fertility[J]. Plant Soil,2010,327(1/2):235-246.