我国城市生活垃圾处理行业2013年发展综述

综述了2012年我国城市生活垃圾处理行业的发展概况,以及2013年国家发布和实施的有关标准和政策;重点介绍了2013年国内新投入运行的生活垃圾焚烧发电厂和垃圾综合处理厂;归纳了2013年国内促进行业发展的部分重要事件;对城市生活垃圾处理行业的发展进行了展望.     

大型自然通风冷却塔环境影响的预测分析研究

大多数内陆核电厂将采用大型自然通风冷却塔作为其二次循环冷却方式,本文基于美国核管会推荐的SACTI程序,给出了该模型的基本原理和框架结构,并以江西彭泽核电厂为例,采用该程序预测分析了该核电厂大型自然通风冷却塔所造成的雾羽和太阳辐射损失的影响。并进一步研究了不同环境风速、相对湿度条件下对冷却塔造成的太阳辐射损失的影响。SACTI模型可以根据厂址逐时气象观测数据,较好地计算可见雾羽的长度、抬升高度和太阳辐射损失,其结果可以作为冷却塔环境影响评价的依据。     

1000MW近零排放燃煤机组重金属排放及分布特征

采用EPA 29方法对国华寿光电厂2号1000MW超超临界燃煤机组污染物控制单元进行采样,开展了重金属污染物(As、Pb、Se、Cd)全流程监测.建立了包括气体/固体/液体中重金属的燃煤过程中质量平衡,并考察了重金属在机组中的富集与分布特征.结果表明:该机组烟气排放的重金属含量相对较低,100%负荷时As、Se、Pb、Cd排放浓度分别为1.11,0.59,0.33和0.01 μg/m³,45%负荷时相关重金属排放和100%负荷接近.给出了不同负荷下各种重金属在燃煤机组的分布,燃烧后Pb、Se、Cd主要富集到飞灰中,但低负荷时底渣中Se和Cd的比例明显升高.APCDs中,ESP对烟气中As、Pb、Se、Cd四种元素的脱除率均达到了97%以上,不同负荷下WFGD和WESP对这些重金属具有深度脱除的效果.     

双碳目标下电力系统转型对产业部门影响评估——以粤港澳大湾区为例

通过细化机组级燃煤发电财务状况建模,测算了提前退役、灵活性调整、限制和停止新增等情景下煤电搁浅资产风险,明确了不同情景下导致搁浅资产规模及时空分布情况.结果表明:存量煤电机组是引起搁浅资产的主体,控制新增煤电有助于降低搁浅资产风险,提前退役、灵活性调整情景下中国现存和新增煤电搁浅资产总规模分别为1.90万亿和3.98万亿元;不同转型情景导致煤电搁浅资产的年际分布差异明显,提前退役搁浅压力主要集中于2030~2040年间,灵活性调整情景下则集中于2021~2035年间;煤电搁浅资产空间分布极不均衡,山东、内蒙古、江苏等10个煤电大省搁浅资产规模占全国的67%和70%.因此,煤电低碳转型需审慎决策,重视提前退役造成的煤电资产搁浅,更要防范和控制灵活性调整导致的煤电资产减值,重点关注山东、内蒙古、新疆、江苏等重点省份,制定因地制宜的煤电转型策略,帮助电力相关企业及政府等进行减排政策选择.     

A火电厂氨站喷淋系统改造

液氨在储存和使用过程中存在较大的安全风险,极易燃,且有毒,对人体伤害较大,而且氨一旦产生大量泄漏,会对环境构成严重危害。通过安全评价的手段,查找出A火电厂氨站喷淋装置设置不合理,存在的安全隐患。针对此隐患,A火电厂有关部门按照相关设计标准,提出了对氨站喷淋装置的改、扩建方案,并于改造完成后对氨站喷淋装置试运行,改造后的喷淋装置能够达到要求,但是还存在一些不足,需要进一步改进。     

An interval type-2 fuzzy stochastic approach for regional-scale electric power system under parameter uncertainty

In this study, an interval type-2 fuzzy stochastic linear programming method (IT2FSLP) is developed to support regional-scale electric power system (REM) planning. The IT2FSLP-REM model is based on an integration of interval type-2 fuzzy sets boundary programming and stochastic linear programming techniques enable it to have robust abilities to the deal with uncertainties expressed as type-2 fuzzy intervals and probabilistic distributions within a general optimization framework. Moreover, it can reflect dynamic decisions for energy supply and energy conversion processes, as well as provide capacity expansion options with multiple periods. The developed model is applied to a case of planning regional-scale energy and environmental systems to demonstrate its applicability. Based on a two-step solution algorithm, reasonable solutions have been obtained, which reflect tradeoffs among economic cost, environmental requirements, and energy-supply security. Thus, the lower and upper solutions of IT2FSLP-REM would then help energy authorities adjust or justify allocation patterns of regional energy resources and services.     

Local voices on renewable energy projects: the performative role of the regulatory process for major offshore infrastructure in England and Wales

There is currently a considerable emphasis on delivering major renewable energy infrastructure projects. Such projects will have impacts on local communities; some impacts may be perceived as positive but others will be viewed more negatively. Any just regulatory process for considering and permitting such infrastructure will need to heed the concerns that local communities voice. But what counts as a local voice? In this paper it is argued that the regulatory process plays a performative role, constructing what counts as a local voice. Furthermore, this has consequences for how regulatory deliberations proceed and the outcomes of regulatory processes. The empirical basis for this argument is a study of major offshore renewable energy infrastructure in England and Wales and the way that it is regulated through a specific regime – the Nationally Significant Infrastructure Projects (NSIPs) regime established by the Planning Act 2008. Through a detailed study of eight projects that have passed through the regime, the analysis unfolds the way that the voices of local residents, local businesses, local NGOs and local authorities are constructed in the key boundary object of the Examining Authority’s report; it then draws out the implications for the mitigation measures that are negotiated. The research suggests that what counts as a local voice is constrained by how the performative role of the NSIPs regulatory regime differentiates between interests and suggests that new ways of giving voice to local people are required.     

Health risk assessment of emissions from a coal-fired power plant using AERMOD modelling

Current electricity generation mix in Malaysia consists of 58% gas, 33% coal and 9% hydro. It is anticipated that by year 2019, the generation mix will be at 64% coal, 32% gas and 4% hydro. Due to the increase in coal consumption for power generation, there is a critical need to evaluate the health risks for the population living in the vicinity of a coal-fired power plant in Malaysia. To date, such study related to the plant in Malaysia has never been published. In this study, health risk assessment (HRA) for air emission from a coal-fired power plant in Malaysia was carried out. Two pollutants from the Proposed New Environmental Quality (Clean Air) Regulation 201X (Draft) (i.e. SO₂ and Hg) were assessed for non-carcinogenic health risk, and two trace elements (i.e. As and Cr) were assessed for carcinogenic health risk. Both short-term and long-term health effects were evaluated. Air dispersion modelling (AERMOD) was used to predict the ground level concentration (GLC) within 10 km radius of the emission source. Based on the HRA, different health risks were identified for short-term and long-term dispersion of the studied pollutants. The findings indicate that a detailed assessment on the short-term and long-term health effects of the emissions from coal-fired power plant in Malaysia with meteorological factor as one of the significant factors influencing the emissions level is needed.     

火力发电行业温室气体排放因子测算

为了解我国火力发电行业温室气体排放状况及排放因子,利用U23多组分红外气体分析仪及TH880F烟尘分析仪对全国30台具有代表性的火力发电机组排放的CO₂和N₂O进行了在线监测;监测及后续的数据处理阶段均遵循了联合国政府间气候变化专门委员会(IPCC)关于温室气体排放计算的质量保证和质量控制原则.利用统计学方法对数据进行处理,给出了CO₂和N₂O 3种表达方式的排放因子. 结果表明:CO₂排放因子主要受装机容量、燃料及机组使用年限与维护质量的影响;常规煤粉机组的N₂O排放因子随装机容量的增加逐渐变小,循环流化床机组N₂O排放因子最大;与IPCC缺省排放因子的比较表明,烟煤、褐煤的CO₂和N₂O排放因子均在IPCC缺省因子95%置信区间内,贫煤CO₂和N₂O的排放因子均大于IPCC缺省因子;天然气CO₂和N₂O排放因子与IPCC缺省因子相差不大.      

沉积物再悬浮-重金属释放机制研究进展

水-沉积物界面重金属迁移和转化行为已成为水环境质量研究的热点。因自然、生物、人为活动等驱动的沉积物再悬浮使得沉积物颗粒吸附和结合的重金属可能通过吸附-解吸平衡和氧化还原反应而释放进入上覆水体。随着外在污染源输入逐步得到控制,沉积物再悬浮释放重金属将成为水体重要的内在污染源而对水环境质量和水生生物产生影响。本文综述了最近几年的相关研究文献,对沉积物再悬浮的动力来源及发生机制、再悬浮-重金属释放机制及主要影响因素进行了阐述,探讨了该领域未来可能的研究方向。相关研究发现,当干扰切应力大于沉积物的临界切应力值时,沉积物再悬浮发生,且再悬浮颗粒量随干扰切应力的增强而增大;再悬浮使还原态沉积物暴露于有氧环境,有机质和硫化物的氧化是沉积物结合态重金属释放的主要机理,而沉积物颗粒电性吸附的重金属则通过解吸进入水体;切应力大小、再悬浮水体理化性质、沉积物理化性质以及微生物活性等因素调控着沉积物吸附态或结合态重金属的释放。本文指出再悬浮沉积物释放重金属的去向（再分配机理）以及再悬浮-重金属释放的动力学过程、沉积物悬浮-重金属释放复合预测模型的建立、沉积物悬浮-释放重金属的生物可利用性及生物毒害评价将是本领域需要进一步研究的重点。