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“一事不再罚”是行政处罚的基本原则之一,在我国,“一事不再罚”原则在《行政处罚法》中有集中体现.本文从我国一事不再罚原则的概念和含义出发,结合环保工作实际,从一事不再罚原则在环保行政处罚中的具体应用方面进行探讨. 相似文献
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为探究铁磁流体对煤体瓦斯解吸性能的影响,采用水浴恒温吸附解吸系统,开展0.44,0.65,1.14 MPa 3组不同平衡压力下加铁磁流体前后的瓦斯解吸对比实验,根据Langmuir方程经验公式计算瓦斯极限解吸量和初始扩散系数,分析铁磁流体对煤体瓦斯解吸影响的机理。结果表明:在3组不同平衡压力下加入铁磁流体后瓦斯极限解吸量由2.5,10,20 mL/g降低为2.22,3.33,10 mL/g,降低11.2%,66.7%,50%;初始扩散系数由0.997 1,1.629 9,3.888 3 μm2·s降低为0.685 5,0.997 1,2.933 5 μm2·s,降低31.25%,38.82%,24.56%。在铁磁流体的作用下,煤体瓦斯解吸性能得到大幅降低。 相似文献
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Mi Xiao Wang Mingju Zhou Fengyi Chai Xiaoqi Wang Weiqiang Zhang Feifei Meng Shanru Shang Yaqing Zhao Weigao Li Guoting 《Environmental science and pollution research international》2017,24(20):17127-17135
Environmental Science and Pollution Research - Composite adsorbents usually outperform single component adsorbents as they could combine the properties and advantages of each component. In this... 相似文献
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城市污水污泥焚烧处理环境影响分析 总被引:5,自引:0,他引:5
以城市污水污泥为研究对象,应用生命周期评价方法分别对干化焚烧、污泥与煤混燃发电、污泥与生活垃圾掺烧发电3种焚烧处理方式的生命过程进行清单分析,以获得各处理方式的能耗及其对环境的影响.结果表明,处理1.0 t湿污泥,填埋处理的能耗和总环境负荷均最低,分别为2.24kg (以标准煤计)和46.55×10-3标准人当量(PET).污泥直接干化处理能源消耗最大,达到了111.12 kg(以标准煤计).污泥与垃圾或者与煤掺烧发电由于利用固体废弃物化学内能,降低了化石燃料消耗.这两种掺烧处理方式的环境排放都以酸化和富营养化为主,对局地性的影响占据首位,因此,污泥焚烧处理仍需加强尾气净化设备的投入,以减少酸性气体及二噁英的排放. 相似文献
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建立良好的、和谐一致的环境法律体系是我国环境法制建设的重要基础。我国现行《环境保护法》在诸多方面已不能适应新的市场经济体制和科学发展观要求,需要完善与创新。该法修订的紧迫性目前已取得有关部门和广大学者的共识,对该法存在的主要问题进行全方位、多角度和多层次的分析,并探讨相应的修改对策是非常必要的。基于课题调研和法理思考,提出关于修改现行《环境保护法》的几点建议,以期为《环境保护法》的修改提供参考。 相似文献
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Ningning Zhang Mazhan Zhuang Jie Tian Pengshan Tian Jieru Zhang Qiyuan Wang Yaqing Zhou Rujin Huang Chongshu Zhu Xuemin Zhang Junji Cao 《Frontiers of Environmental Science & Engineering》2016,10(5):17
Ambient PM2.5 samples were collected at four sites in Xiamen, including Gulangyu (GLY), Hongwen (HW), Huli (HL) and Jimei (JM) during January, April, July and October 2013. Local source samples were obtained from coal burning power plants, industries, motor vehicles, biomass burning, fugitive dust, and sea salt for the source apportionment studies. The highest value of PM2.5 mass concentration and species related to human activities (SO4 2–, NO3 –, Pb, Ni, V, Cu, Cd, organic carbon (OC) and elemental carbon (EC)) were found in the ambient samples from HL, and the highest and lowest loadings of PM2.5 and its components occurred in winter and summer, respectively. The reconstructed mass balance indicated that ambient PM2.5 consisted of 24% OM (organic matter), 23% sulfate, 14% nitrate, 9% ammonium, 9% geological material, 6% sea salt, 5% EC and 10% others. For the source profiles, the dominant components were OC for coal burning, motor vehicle, biomass burning and sea salt; SO4 2– for industry; and crustal elements for fugitive dust. Source contributions were calculated using a chemical mass balance (CMB) model based on ambient PM2.5 concentrations and the source profiles. GLY was characterized by high contributions from secondary sulfate and cooking, while HL and JM were most strongly affected by motor vehicle emissions, and biomass burning and fugitive dust, respectively. The CMB results indicated that PM2.5 from Xiamen is composed of 27.4% secondary inorganic components, 20.8% motor vehicle emissions, 11.7% fugitive dust, 9.9% sea salt, 9.3% coal burning, 5.0% biomass burning, 3.1% industry and 6.8% others. 相似文献
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为了得到一株具有降解微囊藻毒素一RR(MC—RR)特性的产芽孢菌株,采用加热富集芽孢菌的方法,从太湖分离到一株MC.RR降解菌CMl,该菌对MC—RR具有强烈的降解特性。通过形态学特征、生理生化特征及16SrDNA序列分析鉴定该菌株属于耐硼赖氨酸芽孢杆菌(Lysinibacillusb oronitolerans)。通过研究温度和pH值对菌株CMl降解MC—RR能力的影响,发现菌株CMl在60h将MC—RR由12.77μg/mL降解到1.67μg/mL,降解率达86.90%,最适降解温度为37℃,最适pH值为7.0。CMl菌株的胞外物质和胞内物质均能降解MC—RR,但胞内物质具有更强烈的降解特性,12h可以将7.27μg/mL的MC-RR完全降解。为丰富MC-RR降解菌纯菌种研究以及在去除水体中MC—RR应用研究方面提供了理论基础。 相似文献
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为研究FeⅡEDTA络合-Na2SO3还原吸收NO性能,对制备参数〔pH、V(FeⅡEDTA)(FeⅡEDTA溶液用量)、初始c(FeⅡEDTA)、n(FeⅡ)∶n(EDTA)〕和操作条件〔温度、φ(O2)、烟气流量、入口ρ(NO)〕及SO32-〔以c(Na2SO3)计〕进行了考察,并采用FT-IR(傅里叶红外光谱仪)和Raman(拉曼光谱仪)等表征手段对吸收体系进行表征.结果表明:①pH和初始c(FeⅡEDTA)对NO络合吸收量影响较显著,V(FeⅡEDTA)和n(FeⅡ)∶n(EDTA)次之.在pH为3~9的范围内,NO络合吸收量先增加后降低,pH为7时达到最大(0.502 mol/mol);初始c(FeⅡEDTA)由0.005 mol/L增至0.025 mol/L,NO络合吸收量随之增加了0.198 mol/mol.②温度和φ (O2)的升高不利于NO吸收,当温度由30 ℃升至60 ℃、φ (O2)从0%增至6%,NO络合吸收量却分别降低了71.69%、63.3%;此外,烟气流量和入口ρ (NO)的增加对NO络合吸收量也无显著影响.③SO32-的存在显著提高了FeⅡEDTA高效络合NO吸收时间.结合试验结果确定最佳反应条件:pH为7、V(FeⅡEDTA)为550 mL、初始c(FeⅡEDTA)为0.020 mol/L、n(FeⅡ)∶n(EDTA)为1∶1.0、温度为30 ℃、烟气流量为900 mL/min、无氧、c(Na2SO3)为0.20 mol/L,此时,NO络合吸收量为1.099 mol/mol,NO最大脱除率达到96.98%.研究显示,溶液中n(FeⅡEDTA)∶n(NO)对络合吸收NO起到主导作用,同时SO32-对FeⅡEDTA(NO)还原作用是促进NO吸收的重要机制. 相似文献