|本期目录/Table of Contents|

[1]呼佳宁,李向东,冯启言,等.煤层气田产出水灌溉对土壤性质的影响[J].江苏农业科学,2016,44(07):459-462.
 Hu Jianing,et al.Effect of irrigation using coal-bed gas field produced water on soil property[J].Jiangsu Agricultural Sciences,2016,44(07):459-462.
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煤层气田产出水灌溉对土壤性质的影响(PDF)
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《江苏农业科学》[ISSN:1002-1302/CN:32-1214/S]

卷:
第44卷
期数:
2016年07期
页码:
459-462
栏目:
资源与环境
出版日期:
2016-07-25

文章信息/Info

Title:
Effect of irrigation using coal-bed gas field produced water on soil property
作者:
呼佳宁 李向东 冯启言 王静
中国矿业大学环境与测绘学院,江苏徐州 221116
Author(s):
Hu Jianinget al
关键词:
煤层气田产出水农田土壤农业灌溉土壤柱土壤理化性质
Keywords:
-
分类号:
S274;X53
DOI:
-
文献标志码:
A
摘要:
煤层气开采与利用过程中排放出大量的煤层气产出水,对周围土壤、水环境造成威胁,因此,煤层气田产出水的资源化利用值得关注和研究。通过检测和分析山西沁水盆地柿庄南煤层气产区的煤层气产出水水质特征以及周围农田土壤的基本理化指标,结合室内土柱模拟灌溉试验,分析煤层气田产出水灌溉对土壤环境的影响。结果表明:煤层气田产出水呈现高盐、高矿化度、高氟的水质特征,灌溉土壤270 d后,土壤含水率随深度出现先增高后降低的规律,最大值出现在60~80 cm土层;土壤pH值根据灌溉水水质的不同呈现出与含水率变化相反的规律;土壤钠吸附率(SAR值)、电导率(EC值)高于土壤初始值,最大值出现在0~40 cm土层,土壤保水能力下降,土壤表层出现钠质化、盐渍化现象;F离子在土壤表层0~40 cm出现累积的现象,部分高于土壤初始值,但未超出山西省土壤背景值。
Abstract:
-

参考文献/References:

[1]严群,王庆伟,李金海. 煤层气开采对环境的影响[J]. 中国煤炭地质,2008,20(12):57-59.
[2]王静. 沁水盆地煤层气产出水灌溉对土壤和作物影响研究[D]. 徐州:中国矿业大学,2014.
[3]卫明明,琚宜文. 沁水盆地南部煤层气田产出水地球化学特征及其来源[J]. 煤炭学报,2015,40(3):629-635.
[4]李向东,冯启言,宋均轲,等. 电絮凝处理煤层气产出水[J]. 环境工程学报,2012,6(3):744-748.
[5]孙悦,冯启言,李向东,等. 煤层气产出水处理与资源化技术研究进展[J]. 能源环境保护,2010,24(6):1-4,8.
[6]刘会虎. 沁南地区煤层气排采井间干扰的地球化学约束机理[D]. 徐州:中国矿业大学,2011.
[7]潘红磊,吴东平. 国外煤层气采出水处理及综合利用方法[J]. 能源环境保护,1997,11(3):27-28.
[8]宋岩,张新民,柳少波. 中国煤层气基础研究和勘探开发技术新进展[J]. 天然气工业,2005,25(1):1-7.
[9]Mondal S,Wickramasinghe S R. Produced water treatment by nanofiltration and reverse osmosis membranes[J]. Journal of Membrane Science,2008,322(1):162-170.
[10]高哲荣,于晓丽. 煤层气藏采出水对环境的影响及治理技术[J]. 天然气工业,1997,17(1):58-60.
[11]Fakhrul-Razi A,Pendashteh A,Abdullah L C,et al. Review of technologies for oil and gas produced water treatment[J]. Journal of Hazardous Materials,2009,170(2/3):530-551.
[12]Veil J A,Puder M G,Elcock D. Overview of emerging produced water treatment technologies[C]. Albuquerque,N M:The 11th Annual International Petroleum Environmental Conference,2004.
[13]Gregory K B,Vidic R D,Dzombak D A. Water management challenges associated with the production of shale gas by hydraulic fracturing[J]. Elements,2010,7(3):181-186.
[14]杨树青. 基于Visual-MODFLOW和SWAP耦合模型干旱区微咸水灌溉的水-土环境效应预测研究[D]. 呼和浩特:内蒙古农业大学,2005.
[15]唐奇志. 海水处理下油葵耐盐机制及其土壤盐分运移规律研究[D]. 南京:南京农业大学,2004.
[16]Ganjegunte G K,Vance G F,King L A. Soil chemical changes resulting from irrigation with water co-produced with coalbed natural gas[J]. Journal of Environmental Quality,2005,34(6):2217-2227.
[17]丰庆泰. 沁水盆地柿庄南区块煤层气藏地质特征[J]. 山西大同大学学报:自然科学版,2012,28(3):72-74,78.
[18]HJ 332—2006 食用农产品产地环境质量评价标准[S].

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备注/Memo

备注/Memo:
收稿日期:2016-01-22
基金项目:国家科技重大专项(编号:2011ZX05060-005)。
作者简介:呼佳宁(1992—),女,山西长治人,硕士研究生,从事环境污染研究。E-mail:jianing_hu@126.com。
更新日期/Last Update: 2016-07-25