新型BOD微生物传感流动注射检测仪的研制

研制采用微生物传感技术和流动分析技术来快速测定BOD的仪器。主要技术性能:测量周期为15min;误差率<5%;偏差<5%。通过对国家标准样品和不同水质污水的测试表明,其具有自动化程度高,测量周期短的优点;准确度、稳定性均达到国家标准;且具有良好的适应性。     

露天开采对周边地面的影响特点与破坏区划分方法的研究

露天开挖将引周围岩体的变形，随着采深和坡角的增大，其影响范围和影响程度都将增大。在我国有许多老矿区周边是密集城市群，开挖引起的变形对周边各种建筑设施和工厂的安全产生严重的影响。本文主要研究和探讨露天开采对地面建筑设施的影响特点，并就变形可能产生破坏程度进行分析，从而给出一般变形区、危险区和破坏区的划分原则和划分方法，以便为治理措施提供科学依据。     

环境保护的国际立法发展

"和平与"发展"、"环境保护"都被列为当今的世界主题正因如此,环境保护的国际立法也尤显重要.     

试论三江平原生态地质环境保护的对策

生态地质环境的保护的目的旨在人类丰富多彩的经济生活和尽可能完美的生态地质环境的统一,两者是辩证关系.发展经济的前提是保护好生态地质环境;反过来,保护好生态地质环境的结果也能促进经济的发展.健康良好的生态地质环境,给人类以富裕、美好、永远发展的象征;畸形的生态地质环境,给人类以死亡、贫穷、停滞不前的象征.为此提出12条保护地质环境的措施和对策.     

德国汉诺威高铁出轨事故的机理分析

本文阐述了进行突发事故机理研究的意义和重要性,强调了对事故酝酿、发生、发展的全过程进行机理分析的模式,并设计了一个类似射击瞄准过程来追踪突发事故的形成与最终结果的定性分析模型,通过将该原理与模型应用于对德国汉诺威高铁出轨事故的研究,说明了其分析过程与实际意义。     

Pyrolysis and dehalogenation of plastics from waste electrical and electronic equipment (WEEE): A review

Plastics from waste electrical and electronic equipment (WEEE) have been an important environmental problem because these plastics commonly contain toxic halogenated flame retardants which may cause serious environmental pollution, especially the formation of carcinogenic substances polybrominated dibenzo dioxins/furans (PBDD/Fs), during treat process of these plastics. Pyrolysis has been proposed as a viable processing route for recycling the organic compounds in WEEE plastics into fuels and chemical feedstock. However, dehalogenation procedures are also necessary during treat process, because the oils collected in single pyrolysis process may contain numerous halogenated organic compounds, which would detrimentally impact the reuse of these pyrolysis oils. Currently, dehalogenation has become a significant topic in recycling of WEEE plastics by pyrolysis. In order to fulfill the better resource utilization of the WEEE plastics, the compositions, characteristics and dehalogenation methods during the pyrolysis recycling process of WEEE plastics were reviewed in this paper. Dehalogenation and the decomposition or pyrolysis of WEEE plastics can be carried out simultaneously or successively. It could be ‘dehalogenating prior to pyrolysing plastics’, ‘performing dehalogenation and pyrolysis at the same time’ or ‘pyrolysing plastics first then upgrading pyrolysis oils’. The first strategy essentially is the two-stage pyrolysis with the release of halogen hydrides at low pyrolysis temperature region which is separate from the decomposition of polymer matrixes, thus obtaining halogenated free oil products. The second strategy is the most common method. Zeolite or other type of catalyst can be used in the pyrolysis process for removing organohalogens. The third strategy separate pyrolysis and dehalogenation of WEEE plastics, which can, to some degree, avoid the problem of oil value decline due to the use of catalyst, but obviously, this strategy may increase the cost of whole recycling process.     

The effects of the mechanical–chemical stabilization process for municipal solid waste incinerator fly ash on the chemical reactions in cement paste

A water extraction process can remove the soluble salts present in municipal solid waste incinerator (MSWI) fly ash, which will help to increase the stability of the synthetic materials produced from the MSWI fly ash. A milling process can be used to stabilize the heavy metals found in the extracted MSWI fly ash (EA) leading to the formation of a non-hazardous material. This milled extracted MSWI fly ash (MEA) was added to an ordinary Portland cement (OPC) paste to induce pozzolanic reactions. The experimental parameters included the milling time (96 h), water to binder ratios (0.38, 0.45, and 0.55), and curing time (1, 3, 7 and 28 days). The analysis procedures included inductively coupled plasma atomic emission spectroscopy (ICP/AES), BET, mercury intrusion porosimetry (MIP), X-ray diffraction (XRD), and nuclear magnetic resonance (NMR) imaging. The results of the analyses indicate that the milling process helped to stabilize the heavy metals in the MEA, with an increase in the specific surface area of about 50 times over that of OPC. The addition of the MEA to the OPC paste decreased the amount of Ca(OH)₂ and led to the generation of calcium–silicate–hydrates (C–S–H) which in turned increased the amount of gel pores and middle sized pores in the cement. Furthermore, a comparison shows an increase in the early and later strength over that of OPC paste without the addition of the milled extracted ash. In other words, the milling process could stabilize the heavy metals in the MEA and had an activating effect on the MEA, allowing it to partly substitute OPC in OPC paste.     

防冲刷基材生态护坡技术在边坡工程中的应用

为解决工程裸露边坡对环境的影响,在生态防护工程中引入防冲刷基材(PEB)生态护坡技术,并介绍其主要功能特点和详细实施过程,结合河南燕山水库植被护坡工程实施后植物生长、浅层防护和水土保持的监测结果,对该技术进行了全面评析。结果表明,该技术在经济、植被生长适应性、抗冲刷性方面均表现出独特的效果和优势,能较快地恢复边坡原有生态效果。该技术在类似边坡的处理上可以广泛应用。