可伸缩接地装置在浮顶罐中的应用

介绍了浮顶罐浮盘与罐壁之间的电气连接--可伸缩接地装置,它易于安装、检测和维护,能快速对地泄放雷电电荷和静电电荷,同时降低雷电流频率下的趋肤效应,尽可能地消除二次电弧,防止油罐密封处产生火花放电引起的火灾.     

旅游循环经济视角下景区垃圾处理的新模式

作为旅游过程中产生的主要废物之一,景区垃圾主要来源于旅游者、旅游服务企业、生物新陈代谢、建设项目、办公等方面。景区垃圾是一把“双刃剑”,处理不当会影响游客体验、损害旅游形象、危害人身健康、威胁旅游安全、影响旅游可持续发展,但若处理得当会变成宝贵的财富。旅游循环经济对景区垃圾处理提出了无害化、减量化、资源化的要求。生态综合处理模式是在综合焚烧法、填埋法、堆肥法等传统处理方法的基础上提出的适合旅游循环经济要求的景区垃圾处理的新模式,不仅解决景区垃圾的出路问题,而且再造的景观具有美化环境的作用,还可以培育成为重要的旅游吸引物。     

天山活动地块地震的震源机制

利用天山地块的地震震源机制解,并结合Google Earth遥感影像验证了柯坪地区内逆冲推覆构造带发震断裂的走向。讨论了喀什地区地震空区的形变特征和区域应力场,同时根据Google Earth遥感影像中地震空区的地貌类型,分析了地震空区周围的形变特征,推断地震空区附近薄弱介质区域的地震危险性较高。此外,还根据天山地区的地震震源机制在Google Earth遥感影像上的分布规律,并结合地质信息分析了震源机制分区差异性的形成原因和造成这种差异的背景应力场。     

影响总氮测定的关键因素研究

为了解决水质分析中总氮测定的实际问题,应用GB 11894—1989《碱性过硫酸钾氧化紫外分光光度法》,从总氮测定方法的原理出发,探讨了影响总氮测定的关键因素。结果表明:在标准分析方法的基础上,要提高水样总氮分析的准确度,可采用50 mL优质比色管进行消解,选用优级纯的过硫酸钾,消解后的冷却时间需延长至2 h。     

核电站废离子交换树脂微波干燥可行性研究

目前,核电站产生的废树脂,大多数采用暂存或水泥固化方法,但水泥固化增容比达4.8～5.2。桶内干燥工艺以其工艺简单,减容比大等优点,已在国外核电站得到应用。微波干燥具有由内向外的干燥特点。据报道,微波干燥废树脂的减容比可达5。用微波作为热源,在桶内干燥条件下对核电厂产生的废树脂开展了可行性研究。研究表明,在试验条件下,初始含水率50%左右的树脂,干燥后的含水率均小于10%,减容比为1.5～2。试验结果表明微波干燥废树脂是可行的。     

扎龙国家级自然保护区内滨洲铁路沿线植物资源调查

扎龙自然保护区始建于1979年,是黑龙江省生物多样性最丰富的重要湿地,也是丹顶鹤等多种珍稀濒危野生动物重要的繁殖栖息地;滨州铁路于1903年建成,铁路在保护区范围纵向24.4 km,横向线位离保护区北边界59 km,南边界28 km,由于铁路两侧地形和铁路分割等特点,多年来探索铁路运营与湿地保护协调发展,本次对铁路两侧保护区范围内典型植被进行了实地调查,为扎龙湿地保护区管理和规划以及铁路环境保护现状管理和建设规划提供科学依据。     

Current molecular biologic techniques for characterizing environmental microbial community

Microbes are vital to the earth because of their enormous numbers and instinct function maintaining the natural balance. Since the microbiology was applied in environmental science and engineering more than a century ago, researchers desire for more and more information concerning the microbial spatio-temporal variations in almost every fields from contaminated soil to wastewater treatment plant (WWTP). For the past 30 years, molecular biologic techniques explored for environmental microbial community (EMC) have spanned a broad range of approaches to facilitate the researches with the assistance of computer science: faster, more accurate and more sensitive. In this feature article, we outlined several current and emerging molecular biologic techniques applied in detection of EMC, and presented and assessed in detail the application of three promising tools.     

废聚苯乙烯塑料共焦化过程的生命周期评价

随着我国废塑料资源化利用技术的不断发展,其资源化过程中的环境问题也日益显现。以生命周期评价为研究方法,对废聚苯乙烯共焦化过程的环境影响进行评价。研究结果表明:废聚苯乙烯共焦化过程对酸化、烟尘和粉尘、全球变暖3类环境问题的影响较大,分别占了总影响的34.0%、27.5%和23.3%。从共焦化过程的3个阶段来看,入炉炼焦阶段的环境影响最大,其次是混合颗粒制备阶段和PS颗粒制备阶段,对炼焦阶段环境污染的控制是废塑料共焦化技术发展的关键。     

Review on recent progress in on-line monitoring technology for atmospheric pollution source emissions in China

Emissions from mobile sources and stationary sources contribute to atmospheric pollution in China, and its components, which include ultrafine particles (UFPs), volatile organic compounds (VOCs), and other reactive gases, such as NH₃ and NO_x, are the most harmful to human health. China has released various regulations and standards to address pollution from mobile and stationary sources. Thus, it is urgent to develop online monitoring technology for atmospheric pollution source emissions. This study provides an overview of the main progress in mobile and stationary source monitoring technology in China and describes the comprehensive application of some typical instruments in vital areas in recent years. These instruments have been applied to monitor emissions from motor vehicles, ships, airports, the chemical industry, and electric power generation. Not only has the level of atmospheric environment monitoring technology and equipment been improving, but relevant regulations and standards have also been constantly updated. Meanwhile, the developed instruments can provide scientific assistance for the successful implementation of regulations. According to the potential problem areas in atmospheric pollution in China, some research hotspots and future trends of atmospheric online monitoring technology are summarized. Furthermore, more advanced atmospheric online monitoring technology will contribute to a comprehensive understanding of atmospheric pollution and improve environmental monitoring capacity.