[1] 中国电力企业联合会.2013年电力统计基本数据一览表[EB/OL]. (2014.06.06)[2015-7-26]http://www.cec.org.cn/guihuayutongji/tongjxinxi/niandushuju/2015-03-06/134849.html. [2] 王春霞,朱利中,汪桂斌. 环境化学学科前沿与展望[M]. 北京:科学出版社,2011. [3] 王珲,宋蔷,姚强,等. 电厂湿法脱硫系统对烟气中细颗粒物脱除作用的实验研究[J]. 中国电机工程学报,2008(5):1-7. [4] MEIJ R. Trace element behavior in coal-fired power plants[J]. Fuel Processing Technology,1994,39(1):199-217. [5] 邓双,张辰,刘宇,等.基于实测的燃煤电厂氯排放特征[J]. 环境科学研究,2014,27(2):127-133. [6] 郭东明. 脱硫工程技术与设备[M]. 北京:化学工业出版社,2007. [7] USEPA. Steam electric power generating point source category:final detailed study report,EPA 821-R-09-08[R]. US:USEPA,2009. [8] 中华人民共和国环境保护部. 全国燃煤机组脱硫设施清单[EB/OL].(2015.03.11)[2015-7-26]. http://datacenter.mep.gov.cn/main/template-view.action?templateId_=8ae5e4b7473ae3ea01479f4c72b400a3&dataSource=. [9] 中国电力企业联合会. 火电厂石灰石-石膏湿法脱硫废水水质控制指标:DL/T 997-2006[S]. 北京:中国电力出版社,2006. [10] 中华人民共和国环境保护部. 国务院关于印发水污染防治行动计划的通知[EB/OL]. (2015.4.16).[2015-7-26]. http://zfs.mep.gov.cn/fg/gwyw/201504/t20150416_299146.htm. [11] CHU P. Technical manual:guidance for assessing wastewater impacts of FGD scrubbers,EPRI Report 1013313[R]. Palo Alto,CA:Electric Power Research Institute,2006. [12] 吴怡卫. 石灰石-石膏湿法烟气脱硫废水处理的研究[J]. 中国电力,2006(4):75-78. [13] USEPA. Technical development document for the proposed effluent limitations guidelines and standards for the steam electric power generating point source,EPA-821-R-13-00[R]. US:USEPA,2013. [14] HUANG Y H,PEDDI P K,TANG C,et al. Hybrid zero-valent iron process for removing heavy metals and nitrate from flue-gas-desulfurization wastewater[J]. Separation and Purification Technology,2013,118:690-698. [15] HUANG Yong H,PEDDI Phani K,ZENG Hui,et al. IWC-12-59:field demonstration of the activated iron technology for removing heavy metals from flue-gas-desulfurization wastewater[C]. Pittsburgh:Engineers Society of Western Pennsylvania,2014. [16] MUNIRATHINAM K,SRINIVASAN R,TUDINI J J,et al. Selenium treatment of mine water effluent in a fluidized bed reactor (FBR)[J]. Proceedings of the Water Environment Federation,2011,18:157-177. [17] AMWEG E L, STUART D L,WESTON D P. Comparative bioavailability of selenium to aquatic organisms after biological treatment of agricultural drainage water[J]. Aquat Toxicol,2003,63(1):13-25. [18] HOQUE S,ALEXANDER T,GURIAN P L. Innovative technologies increase evaporation pond efficiency[J]. IDA Journal of Desalination and Water Reuse,2010,2(1):72-78. [19] KEDEM Avraham,GILRON Jack,KEDEM Ora. Evaporation device:US7166188 B2[P]. 2007-01-23. [20] GILRON J,FOLKMAN Y,SAVLIEV R,et al. WAIV——wind aided intensified evaporation for reduction of desalination brine volume[J]. Desalination,2003(158):205-214. [21] SAN ROMAN GUTIERREZ O R. Effect of wetted floating fins on water-atmosphere heat exchange[J]. Journal of Energy Engineering, 1993,119(1):32-42. [22] USEPA.Focused Review of Specific Remediation Issues,622938[R]. US:USEPA,2010. [23] GAULT T. Evaporation enhancement through the use of sprays[J]. Plant/Operations Progress,1986,5(1):23-26. [24] 高原,陈智胜. 新型脱硫废水零排放处理方案[J]. 华电技术,2008, 30(4):73-75. [25] HONJO Shintaro,SHINODA Takeo,NAKAYAMA Yoshio,et al. MHI wet-FGD waste water treatment technologies,Paper. 190[R]. Mitsubishi Heavy Industries. [26] 李明波,范玺,孙克勤. 利用烟道气处理火电厂WFGD废水的技术应用[J]. 电力科技与环保,2010(2):53-55. [27] 康梅强,邓佳佳,陈德奇,等. 脱硫废水烟道蒸发零排放处理的可行性分析[J]. 土木建筑与环境工程,2013(s1):238-240. [28] 陈美秀,莫建松,刘学炎,等. 一种脱硫废水循环利用方法[J]. 环境工程,2014(32):188-191. [29] 张子敬,汪建文,高艺,等. 燃煤电厂脱硫废水烟气蒸发特性流场模拟[J]. 煤炭学报,2015(3):678-683. [30] JIANG D N,SHA H W,GONG G H,et al. Fundamental research and demonstration project of evaporation treatment of wastewater from FGD in flue gas duct[J]. Advanced Materials Research,2013, 864/865/866/867:434-437. [31] DENG J,PAN L,CHEN D,et al. Numerical simulation and field test study of desulfurization wastewater evaporation treatment through flue gas[J]. Water Science & Technology,2014,70(7):1285-1291. [32] 郭静娟. 火电厂脱硫废水烟道处理技术研究[J]. 电力科技与环保, 2014(5):21-22. [33] 游晓宏,吴怡卫,韩倩倩,等. 国际环境技术研讨会论文集[C]. 北京:中国环境科学学会、北京科技大学,2013. [34] 王乃华. 新型半干法烟气脱硫的实验及机理研究[D]. 杭州:浙江大学,2001. [35] GETLER J L,SHELTON H L,FURLONG D A. Modeling the spray absorption process for SO2 removal[J]. Journal of the Air Pollution Control Association,1979,29(12):1270-1274. [36] HILL F F,ZANK J. Flue gas desulphurization by spray dry absorption[J]. Chemical Engineering and Processing:Process Intensification. 2000,39(1):45-52. [37] 滕斌. 半干法烟气脱硫的实验及机理研究[D]. 杭州:浙江大学, 2004. [38] ITO Motofumi,HONJO Shintaro,INABA Norikazu,et al. MHI's simple zero liquid discharge system for wet FGD,Paper 75[R]. Mitsubishi Heavy Industries. [39] 刘勇,赵汶,刘瑞,等. 化学团聚促进电除尘脱除PM2.5的实验研究[J]. 化工学报,2014,65(9):3609-3616. [40] 祁利明,赵全中. 脱硫废水处理过程对石灰石-石膏湿法烟气脱硫系统的影响[J]. 工业用水与废水,2014(5):51-53. [41] 张志荣. 火电厂湿法烟气脱硫废水喷雾蒸发处理方法关键问题研究[D]. 重庆:重庆大学,2011. [42] US EPA.Determination of technology-based effluent limits for the flue gas desulfurization wastewater at merrimack station in bow,new hampshire,EPA-Region 1[R]. US:USEPA,2011. [43] 张震,梁煜武. 铁在不同pH值的NaCl溶液中的腐蚀行为[J]. 腐蚀科学与防护技术,2008(4):260-264. [44] 赵景茂,左禹,熊金平,等. pH值对低碳钢在高含盐污水中的腐蚀影响[J]. 材料保护,2001(7):8-9. [45] 刁兆玉,韩允雨,李怀祥. 铁在酸碱及氯离子介质中腐蚀的研究[J]. 山东师大学报(自然科学版),2000(3):274-278. [46] 宋晓芳. 环境因子对304不锈钢缝隙腐蚀的影响[D]. 保定:华北电力大学(保定),2005. [47] 张广文,孙墨杰,张蒲璇,等. 燃煤火力电厂脱硫废水零排放可行性研究[J]. 东北电力大学学报,2014,34(5):87-91. [48] PAKZADEH B,WOS J,RENEW J. Flue gas desulfurization wastewater treatment for coal-fired power industry[C]//Power Conference. American Society of Mechanical Engineers,2014. [49] SHAW W A. Benefits of evaporating FGD purge water[J]. Power, 2008,152(3):59. [50] MOSTI C,CENCI V. ZLD systems applied to ENEL coal-fired power plants[J]. VGB Powertech,2012,1:69-73. |