拜泉县生态环境建设与效果分析

拜泉县在农业生态建设中,坚持科学发展观,走可持续发展之路,狠抓生态环境建设,三十多年如一日,治理穷山恶水,重整拜泉山河。通过对拜泉县生态环境历史和现状的介绍,生态建设的效果分析,得出生态环境的有效保护、合理开发是农业可持续发展的保证。     

黑龙江省农村垃圾现状分析及对策

黑龙江省作为中国东北方的农业大省,农村所占比例较大。随着农村经济的快速增长,所产生的垃圾也逐年增多,加之基础设施建设薄弱,缺乏成熟的垃圾处理技术,农村的垃圾问题已经成为我省"农村环境连片整治"必须要解决的一个重点问题。     

LWD-430离心机运行分析

详细分析了LWD-430离心机应用于活性污泥的处理情况，活性污泥处理效果的影响因素，阐述了离心机的操作及维护要点。     

气相色谱法测定汽油作业环境中MTBE含量

建立了汽油作业场所空气中MTBE的气相色谱测定方法。空气中的MTBE用注射器采集，直接进样，经大口径毛细管柱分离，氢焰离子化检测器检测，以保留时间定性，峰面积定量，并考察了MTBE与甲醇、正己烷的分离效果。     

本溪市水环境承载力及指标体系

水环境承载力是近年提出的一个新概念，它是用以定量描述水资源和水污染及其有关参数的一个综合指标，其含义为：在一定的自然环境条件和特定的社会经济发展模式下，区域水环境（包括水资源和水污染）对其社会经济发展的支撑能力．水环境承载力是由水环境系统结构决定的，它体现了水环境与人类社会经济活动之间的联系．对一个城市而言，不同的社会经济发展速度规模及不同的水环境治理对策，其水环境承载力各不相同，水环境承载力是区域自然条件、区域经济发展模式（发展的方向和发展的速度）及相应的水资源与水污染防治对策的函数．水环境承载力具有客观性、变动性和可控性三个基本特点，利用水环境承载力可以评判城市水环境对其社会经济发展承载大小．为区域社会经济与水环境协调发展提供决策依据．     

新型稳定塘污水处理技术AIPS

由于资金和能源紧张,高效低耗的污水处理技术受到人们的重视。AIPS新型稳定塘是由美国Oswald教授研究开发,并有30a成功经验的污水处理技术。该技术具有低投资,低运行费用、易管理、比普通稳定塘占地少的优点。      

影响总磷的显色实验细节探讨

针对环境样品采用钼酸铵分光光度法测定的总磷中,影响显色的二个因素进行了分析,对加入显色刺后的混合过程对显色结果的影响,以及环境条件的温度对显色的影响进行了研究,对总磷测定时准确度及精密度的提高有着重要的参考价值,是对钼酸铵法测定总磷方法的完善。     

环境监测质量管理与控制技术体系框架研究

为进一步规范我国的环境监测质量管理工作、系统化质量控制技术,参照国外先进的质量管理经验,结合我国环境监测体系的实际情况,搭建了我国环境监测质量管理与控制技术体系框架,在做了大量基础性研究的前提下,编写了一系列支持该体系正常运行的指导性文件.     

Risk reduction concept to provide design criteria for Emergency Systems for onshore LNG plants

The functional safety requirement is widely applied in the process plant industry in accordance with the international standards, such as IEC and ISA. The requirement is defined as safety integrity level (SIL) based on the risk reduction concept for protection layers, from original process risk to tolerable risk level. Although the standards specify both, the Prevention System and the Emergency System, as level of protection layers, the standards specify in detail only the use of the Prevention System (i.e., Safety Instrumented System (SIS)). The safety integrity level is not commonly allocated to the Emergency System (e.g., Fire and Gas System, Emergency Shutdown System and Emergency Depressuring System). This is because the required risk reduction can be normally achieved by only the Prevention System (i.e., SIS and Pressure Safety Valve (PSV)). Further, the risk reduction level for the Emergency System is very difficult to be quantified by the actual SIL application (i.e., evaluated based on the single accident scenario, such as an accident from process control deviation), since the escalation scenarios after Loss of Containment (LOC) greatly vary depending on the plant design and equipment. Consequently, there are no clear criteria for evaluating the Emergency System design. This paper aims to provide the functional safety requirement (i.e., required risk reduction level based on IEC 61508 and 61511) as design criteria for the Emergency System.In order to provide clear criteria for the Emergency System evaluation, a risk reduction concept integrated with public’s perception of acceptable risk criteria is proposed and is applied to identify the required safety integrity level for the Emergency System design. Further, to verify the safety integrity levels for the Emergency Systems, the probabilistic model of the Emergency Systems was established considering each Emergency System (e.g., Fire and Gas System, Emergency Shutdown System and Emergency Depressuring System) relation as the Overall Emergency System. This is because the Overall Emergency System can achieve its goal by the combined action of each individual system, including inherent safe design, such as separation distance.The proposed approach applicability was verified by conducting a case study using actual onshore Liquefied Natural Gas Plant data. Further, the design criteria for Emergency Systems for LNG plants are also evaluated by sensitivity analysis.     

大气环境质量功能体系及其评价中的系统观

应用系统理论,论证了环境质量作为一种功能体系存在的客观性,并分析了该体系的基本特点及与人类需求层次相协调的性质,从而将环境质量拓展为一种广义的概念以顺应经济、社会发展和环境科学发展的要求.进而就大气环境质量功能体系,探讨了认识和评价环境质量的一般方法以及系统科学在环境科学领域中的应用.