- · 《四川建材》栏目设置[05/29]
- · 《四川建材》收稿方向[05/29]
- · 《四川建材》投稿方式[05/29]
- · 《四川建材》征稿要求[05/29]
- · 《四川建材》刊物宗旨[05/29]
一、稿件要求: 1、稿件内容应该是与某一计算机类具体产品紧密相关的新闻评论、购买体验、性能详析等文章。要求稿件论点中立,论述详实,能够对读者的购买起到指导作用。文章体裁不限,字数不限。 2、稿件建议采用纯文本格式(*.txt)。如果是文本文件,请注明插图位置。插图应清晰可辨,可保存为*.jpg、*.gif格式。如使用word等编辑的文本,建议不要将图片直接嵌在word文件中,而将插图另存,并注明插图位置。 3、如果用电子邮件投稿,最好压缩后发送。 4、请使用中文的标点符号。例如句号为。而不是.。 5、来稿请注明作者署名(真实姓名、笔名)、详细地址、邮编、联系电话、E-mail地址等,以便联系。 6、我们保留对稿件的增删权。 7、我们对有一稿多投、剽窃或抄袭行为者,将保留追究由此引起的法律、经济责任的权利。 二、投稿方式: 1、 请使用电子邮件方式投递稿件。 2、 编译的稿件,请注明出处并附带原文。 3、 请按稿件内容投递到相关编辑信箱 三、稿件著作权: 1、 投稿人保证其向我方所投之作品是其本人或与他人合作创作之成果,或对所投作品拥有合法的著作权,无第三人对其作品提出可成立之权利主张。 2、 投稿人保证向我方所投之稿件,尚未在任何媒体上发表。 3、 投稿人保证其作品不含有违反宪法、法律及损害社会公共利益之内容。 4、 投稿人向我方所投之作品不得同时向第三方投送,即不允许一稿多投。若投稿人有违反该款约定的行为,则我方有权不向投稿人支付报酬。但我方在收到投稿人所投作品10日内未作出采用通知的除外。 5、 投稿人授予我方享有作品专有使用权的方式包括但不限于:通过网络向公众传播、复制、摘编、表演、播放、展览、发行、摄制电影、电视、录像制品、录制录音制品、制作数字化制品、改编、翻译、注释、编辑,以及出版、许可其他媒体、网站及单位转载、摘编、播放、录制、翻译、注释、编辑、改编、摄制。 6、 投稿人委托我方声明,未经我方许可,任何网站、媒体、组织不得转载、摘编其作品。
页岩气开发的水资源与绿色发展面临的机遇与挑(6)
作者:网站采编关键词:
摘要:[2] GREGORY K B,VIDIC R D,DZOMBAK D A.Water Management Challenges Associated with the Production of Shale Gas by Hydraulic Fracturing[J].Elements,2011,7(3):181-186. [3] ZHANG Z Z,CHAO B F,CHEN J L,et
[2] GREGORY K B,VIDIC R D,DZOMBAK D A.Water Management Challenges Associated with the Production of Shale Gas by Hydraulic Fracturing[J].Elements,2011,7(3):181-186.
[3] ZHANG Z Z,CHAO B F,CHEN J L,et Water Storage Anomalies of Yangtze River Basin Droughts Observed by GRACE and Connections with ENSO[J].Global and Planetary Change,2015,126:35-45.
[4] 国际能源署.世界能源展望:中国特别报告[M].北京:石油工业出版社,2017.
International Energy Energy Outlook:China Special Report[M].Beijing:Petroleum Industry Press,2017.
[5] 国家统计局.中国统计年鉴[M].北京:中国统计出版社,2019.
National Bureau of Statistics of Statistical Yearbook[M].Beijing:China Statistics Press,2019.
[6] BP 中国.BP世界能源展望(2019)[R].北京:BP(中国)投资有限公司,2019.
BP China.BP World Energy Outlook(2019)[R].Beijing:BP(China) Investment Co.,Ltd.,2019.
[7] Information Shale Resource Assessments[R].Washington DC: Information Administration,2014.
[8] 王思航.威远地区寒武系页岩储层特征及选区评价方法研究[D].成都:成都理工大学,2015.
WANG Shale Reservoir Characteristics and Selection Evaluation Method Research in Weiyuan Area[D].Chengdu:Chengdu University of Technology,2015.
[9] 国家能源局.页岩气发展规划(2016~2020年)[R].北京:国家能源局,2016.
National Energy Gas Development Plan(2016-2020)[R].Beijing:National Energy Administration,2016.
[10] WADA Groundwater Depletion at Regional and Global Scales:Present State and Future Prospects[J].Surveys in Geophysics,2016,37(2):419-451.
[11] ARTHUR M A,COLE D Hydrocarbon Resources:Prospects and Problems[J].Elements,2014,10(4):257-264.
[12] COHEN H A,PARRATT T,ANDREWS C Contaminant Pathways from Hydraulically Fractured Shale to Aquifers[J].Ground Water,2013,51(3):317-319.
[13] JACKSON R B,VENGOSH A,CAREY J W,et al.The Environmental Costs and Benefits of Fracking[J].Annual Review of Environment and Resources,2014,39:327-362.
[14] NICOT J P,SCANLON B R,REEDY R C,et and Fate of Hydraulic Fracturing Water in the Barnett Shale:A Historical Perspective[J].Environmental Science and Technology,2014,48(4):2464-2471.
[15] SCANLON B R,REEDY R C,NICOT J of Water Use for Hydraulic Fracturing for Unconventional Oil and Gas Versus Conventional Oil[J].Environmental Science and Technology,2014,48(20):-.
[16] KONDASH A,VENGOSH A.Water Footprint of Hydraulic Fracturing[J].Environmental Science and Technology Letters,2015,2(10):276-280.
[17] MURRAY K Perspective on Water Use and Production Associated with Oil and Gas Operations,Oklahoma,U.S.[J].Environmental Science and Technology,2013,47(9):4918-4925.
[18] GUO M Y,LU X,NIELSEN C P,et for Shale Gas Production in China:Implications for Water Demand[J].Renewable and Sustainable Energy Reviews,2016,66:742-750.
[19] YU M J,WEINTHAL E,PATINO-ECHEVERRI D,et al.Water Availability for Shale Gas Development in Sichuan Basin,China[J].Environmental Science and Technology,2016,50(6):2837-2845.
[20] ZOU C N,NI Y Y,LI J,et al.The Water Footprint of Hydraulic Fracturing in Sichuan Basin,China[J].Science of the Total Environment,2018,630:349-356.
[21] GOODWIN S,CARLSON K,KNOX K,et al.Water Intensity Assessment of Shale Gas Resources in the Wattenberg Field in Northeastern Colorado[J].Environmental Science and Technology,2014,48(10):5991-5995.
[22] United States Environmental Protection Greenhouse Gas Emissions Data[EB/OL].(2017-01-19)[2020-08-27].https:∥/ghgemissions/global-greenhouse-gas-emissions-data.
[23] VENGOSH A,JACKSON R B,WARNER N,et al.A Critical Review of the Risks to Water Resources from Unconventional Shale Gas Development and Hydraulic Fracturing in the United States[J].Environmental Science and Technology,2014,48(15):8334-8348.
[24] 田 冷,肖 聪,顾岱鸿.考虑应力敏感与非达西效应的页岩气产能模型[J].天然气工业,2014,34(12):70-75.
TIAN Leng,XIAO Cong,GU Shale Gas Reservoir Productivity Model Considering Stress Sensitivity and Non-Darcy Flow[J].Natural Gas Industry,2014,34(12):70-75.
[25] VIDIC R D,BRANTLEY S L,Vandenbossche J M,et of Shale Gas Development on Regional Water Quality[J].Science,2013,340:.
[26] HALUSZCZAK L O,ROSE A W,KUMP L Evaluation of Flowback Brine from Marcellus Gas Wells in Pennsylvania,USA[J].Applied Geochemistry,2013,28:55-61.
[27] ZIEMKIEWICZ P F,THOMAS HE of Water Chemistry During Marcellus Shale Gas Development:A Case Study in West Virginia[J].Chemosphere,2015,134:224-231.
[28] ALLEY B,BEEBE A,RODGERS JR J,et and Physical Characterization of Produced Waters from Conventional and Unconventional Fossil Fuel Resources[J].Chemosphere,2011,85(1):74-82.
[29] STEPHENSON M H.Shale Gas in North America and Europe[J].Energy Science and Engineering,2016,4(1):4-13.
[30] WARNER N R,CHRISTIE C A,JACKSON R B,et s of Shale Gas Wastewater Disposal on Water Quality in Western Pennsylvania[J].Environmental Science and Technology,2013,47(20):-.
文章来源:《四川建材》 网址: http://www.scjczz.cn/qikandaodu/2021/0620/1753.html
上一篇:四川省推进千亿茶产业强省建设的思考
下一篇:巨波狂澜下的重庆留法勤工俭学运动