火电厂二氧化硫排放行为分析

火电厂是二氧化硫排放大户。从企业层面和国家层面上对火电厂二氧化硫排放行为和形势进行了分析和总结,以期为环境管理服务。     

二氧化硫实测结果与计算结果的比较

20 0 0年底 ,江苏省所有工业企业必须实现二氧化硫达标排放。我国现行的锅炉、窑炉以及火电厂、水泥厂等行业的大气污染物排放标准中均对二氧化硫排放浓度有所要求 ;总量控制管理模式提出以后 ,环境管理又对二氧化硫排放总量提出了要求。要想了解一个单位全年的二氧化硫排放总量 ,仅用瞬时测试结果还远远不够 ,必须依靠在线自动监测系统 ,然而我国目前还不具备这种能力。但管理部门和监测部门可根据某单位的燃煤情况 ,粗略判断其排放是否达标 ,也可据此核定排放总量。1　二氧化硫排放量和排放浓度的计算二氧化硫排放浓度与锅炉运行负荷 (α…     

燃煤电厂烟气脱硫设施出口二氧化硫排放量核算方法比较

采用物料衡算法、手工监测数据法和在线监测数据法计算燃煤电厂烟气脱硫设施出口二氧化硫排放量,并对三种方法的优缺点进行了分析比较,结果表明,采用在线监测法核算脱硫电厂二氧化硫排放总量更为准确。     

火电厂执行大气污染物排放新标准的达标研究

新标准《火电厂大气污染物排放标准》(GB 13223—2011)中现役机组排放限值于2014年7月1日正式执行,与旧标准《火电厂大气污染物排放标准》(GB 13223—2003)相比排放限值大幅趋严,且增加了燃煤电厂汞排放限值。选取具有代表性的电厂锅炉进行手工和在线监测,结果表明,燃煤机组需有高效除尘器和脱硝设施才可稳定达标;燃油机组无法达到标准限值要求,未来应逐步淘汰或改用清洁能源;天然气机组二氧化硫和氮氧化物可以达到该标准要求。建议对燃煤电厂锅炉低负荷下脱硝设施的运行、低浓度下烟尘测定的准确性以及汞排放监测进一步研究。     

浅析火电厂脱硫脱硝技术与应用

火电厂运行的过程中,容易造成空气污染,增加了环境保护的压力。近几年,我国在火电厂内采用烟气脱硫、脱硝技术,用于降低排放烟气中二氧化硫、氮氧化物的含量,改善排放烟气的污染状况。烟气脱硫、脱硝技术在火电厂烟气治理中发挥重要的作用,有利于减轻排放烟气造成的污染。因此,文章以火电厂为研究背景,分析烟气脱硫、脱硝技术的应用。     

火力发电行业主要气态污染物排放量计算方法研究

针对目前我国火力发电行业气态污染物排放量计算方法使用混乱的情况,根据欧盟《空气污染物排放清单指南》和美国《空气污染物排放因子汇编》,介绍了火电行业主要气态污染物排放量的实际测量及理论计算方法。提出我国火电行业应根据实际情况,选择实际测量、排放因子或经验公式等方法计算污染物排放量;使用排放因子方法计算SO2排放量时,应开展S元素转化率的研究;火电厂应增加燃料中N元素的分析,以利于NOx排放量的准确估算。     

上海市中小锅炉燃煤含硫率监测方案的研究

针对燃煤含硫率监测的瓶颈问题,提出了通过对锅炉烟气二氧化硫排放浓度以及排放量获得的监测数据,推算得到燃煤含硫率的方案.     

大气污染源低浓度二氧化硫监测方法比较

燃煤电厂烟气脱硫大多采用湿法脱硫原理,导致脱硫尾部烟气排放温度低、湿度高、二氧化硫浓度低,现有的二氧化硫监测采样系统和仪器无法准确测定其排放浓度。通过对不同方法和仪器的对比实验,确定了适合在低温、高湿、低二氧化硫排气情况下的采样分析方法。     

水泥生产过程中二氧化硫排放浅析

工业污染源调查中,为了准确地计算水泥生产中二氧化硫的排放量,在实测有困难,现有排放系数又不适用的情况下,进行理论计算是比较可行的。本文拟通过对三个水泥厂的调查测定,从新疆煤质含硫较低的实际出发。分析水泥生产过程中二氧化硫的排放系数。     

基于实测的燃煤电厂烟气中汞排放水平浅析

简述汞污染和控制问题成为环境问题的新热点和前沿研究领域,介绍中国燃煤电厂烟气汞监测试点的基本情况。分析江苏省7家燃煤电厂煤中汞及烟气中汞排放水平,提出利用现有的除尘、脱硫、脱硝设施,能满足《火电厂大气污染物排放标准》中汞的排放限值要求。     

大型火电机组二氧化硫排放规律研究

选取35台装机容量30万千瓦以上大型火电机组,进行了为期2年的监测。总结出大型火电机组二氧化硫排放规律,对大型火电机组燃煤含硫量、脱硫设施脱硫效率和二氧化硫排放浓度三者间的关系进行了统计分析,建立了线性回归方程,进而对燃用不同含硫量燃煤的火电机组执行不同排放标准时,配套脱硫设施需要达到的脱硫效率进行了预测。     

Gaseous and particulate emissions from thermal power plants operating on different technologies

This paper presents the assessment of gaseous and particulate emissions from thermal power plants operating on different combustion technologies. Four thermal power plants operating on heavy furnace oil were selected for the study, among which three were based on diesel engine technology, while the fourth plant was based on oil-fired steam turbine technology. The stack emissions were monitored for critical air pollutants carbon monoxide, carbon dioxide, oxides of nitrogen, sulfur dioxide, particulate matter, lead, and mercury. The pollutant emissions were measured at optimum load conditions for a period of 6 months with an interval of 1 month. The results of stack emissions were compared with National Environmental Quality Standards of Pakistan and World Bank guidelines for thermal power plants, and few parameters were found higher than the permissible limits of emissions. It was observed that the emissions carbon monoxide, oxides of nitrogen, and particulate matters from diesel engine-based power plants were comparatively higher than the turbine-based power plants. The emissions of sulfur dioxide were high in all the plants, even the plants with different technologies, which was mainly due to high sulfur contents in fuel.     

Environmental impact of electricity relocation: A quasi-natural experiment from interregional electricity transmission

Pollutants such as sulfur would concentrate in the source regions and thus the localized impacts are more obvious. Local balance of electricity by transporting coal has resulted in dense concentration of coal-fired power plants in load centers and caused severe environmental problems. Electricity relocation through interregional transmission is another choice for energy transportation to achieve electricity balance across regions and pollution mitigation. Using interregional electricity transmission (IRET) lines in China as a quasi-natural experiment, this paper assesses the environmental impact of electricity relocation. In the assessment, the grid organization of “province as executor” in China is considered because it affects the sphere of IRET's influence on pollution mitigation. Here we show the environmental benefits of electricity relocation. We find that, electricity relocation through interregional transmission leads to the growth rate of sulfur dioxide (SO₂) emission decreasing 7% in landing areas and Sichuan province benefits most from electricity relocation. It is interesting that there is no significant increase of SO₂ emission growth rate in sending areas compared to counterfactuals if there had no IRET due to more integration of clean energy and improved emission efficiency in sending areas. Placebo study and robustness check show that the results are quite convincing. Therefore, IRET provides an appealing choice for China's environmental control in eastern region, and it is not necessarily at the cost of pollution in western region. The methodology can be applied to assess the environmental impacts of other program or policy elsewhere.     

Decadal emission estimates of carbon dioxide,sulfur dioxide,and nitric oxide emissions from coal burning in electric power generation plants in India

This study aims to estimate the emissions of carbon dioxide (CO₂), sulfur dioxide (SO₂), and nitric oxide (NO) for coal combustion in thermal power plants in India using plant-specific emission factors during the period of 2001/02 to 2009/10. The mass emission factors have been theoretically calculated using the basic principles of combustion under representative prevailing operating conditions in the plants and fuel composition. The results show that from 2001/02 to 2009/10 period, total CO₂ emissions have increased from 324 to 499 Mt/year; SO₂ emissions have increased from 2,519 to 3,840 kt/year; and NO emissions have increased from 948 to 1,539 kt/year from the Indian coal-fired power plants. National average emissions per unit of electricity from the power plants do not show a noticeable improvement during this period. Emission efficiencies for new plants that use improved technology are found to be better than those of old plants. As per these estimates, the national average of CO₂ emissions per unit of electricity varies between 0.91 and 0.95 kg/kWh while SO₂ and NO emissions vary in the range of 6.9 to 7.3 and 2.8 to 2.9 g/kWh, respectively. Yamunagar plant in Haryana state showed the highest emission efficiencies with CO₂ emissions as 0.58 kg/kWh, SO₂ emissions as 3.87 g/kWh, and NO emissions as 1.78 g/kWh, while the Faridabad plant has the lowest emission efficiencies with CO₂ emissions as 1.5 kg/kWh, SO₂ emissions as 10.56 g/kWh, and NO emissions as 4.85 g/kWh. Emission values at other plants vary between the values of these two plants.     

新疆电力结构调整对SO2污染物排放总量的影响

应用数学模型与预案分析相结合的方法,分别对新疆2010年电源结构调整的3个方案及污染治理水平调整(提高)的3个方案的SO2总排放量进行估算,并将其结果与2010年新疆电力行业SO2污染物总量控制目标相比较,确定"十一五"期间新疆电源结构调整及污染治理水平调整(提高)均应以中、高方案为调整首选目标,即到2010年时,火电在新疆电源结构中比例应下降为70%～65%,而水风电比例提高到30%～35%;同时提高火电行业污染治理水平,使SO2污染物排放系数约为"十五"末的55%～50%.新疆电力结构调整对实现"十一五"新疆电力行业SO2排放总量的控制目标及促进新疆社会经济、环境及电力工业的可持续发展具有重要意义.     

An Integrated Assessment by Models for Energy Systems Analysis and Life-Cycle Assessment with a Case Study of Advanced Fossil-Fired Power Plants in China

We developed an integrated assessment (IA) using models for energy systems analysis and life-cycle assessment (LCA). Based on this assessment framework, we developed cost-benefit analysis (CBA) case studies for a hypothetical project designed to introduce advanced fossil-fired power generation technologies in China. Our MARKAL model for Japan confirmed that radical reductions (i.e., 80 % by 2050) of carbon dioxide (CO₂) could be attained from energy systems alone and that credit for emission allowances was required. We evaluated life-cycle costs and emissions of carbon dioxide, sulfur oxide, and nitrogen oxide gases for the energy technologies using an LCA model. Further, we applied a power generation planning model for six Chinese grids to provide a power mix structure, potentially producing credit by installing fossil-fired power generation technology and by using baseline grid emission factors with an average cost of electricity. Finally, by using dynamic emission reductions and additional costs from the two models, we conducted case studies of CBA for a hypothetical project to install the technologies in China. This was accomplished by evaluating emission reductions in monetary terms and by applying a life-cycle impact assessment model. A unique feature of our IA is its dynamic (time-varying) assessment of costs and benefits.     

Impact of Coal Power Plant Emission on the Foliar Elemental Concentrations in Plants in a Low Rainfall Tropical Region

A field study was conducted around two thermal power plants of India to quantify the changes in foliar elemental concentrations due to emission in a low rainfall tropical area. Sulphur dioxide and particulates were at high levels which may cause serious ecological effects. Emission from the power plants has altered the elemental concentrations in the leaves of evergreen and deciduous plants. The foliar total-S and SO₄ ^2–-S levels were significantly higher in all the plants growing at polluted sites. However, the organic-S content was more or less unaltered. In evergreen plants, the SO₄ ^2–-S content increased gradually from summer through winter, whereas in the deciduous plants there was a higher magnitude of increase after onset of new leaves during summer. With the increasing pollution load, foliar Ca²⁺ and K⁺ contents increased, whereas N content decreased. The reduction in N content was greater during summer in evergreen plants and during winter in deciduous plants. The plants growing closer to the power plants accumulated more trace elements (Mn, Fe, Cd, Pb and Ni) as compared to those growing at distant sites. In deciduous plants the leaf fall during winter lowered down the trace element     

新疆准东经济技术开发区二氧化碳排放现状与降碳对策研究

通过分析新疆准东经济技术开发区各行业的二氧化碳排放量及排放特征，研究新疆准东经济技术开发区碳达峰碳中和的实现路径。分析结果显示，准东经济技术开发区最主要的二氧化碳排放源是化石燃料燃烧，其对二氧化碳排放量的贡献比例在95.2%以上。能源活动二氧化碳排放量占总排放量的98.5%以上；工业生产过程排放的二氧化碳较少，占比在1.5%以下。新疆准东经济技术开发区主要二氧化碳排放行业是煤电、电解铝、煤化工、硅基新材料。在此基础上，结合各行业特点，提出发展园区循环经济、制定低碳行业标准和培育低碳产业等详细对策。