Increasing the application of gas engines to decrease China’s GHG emissions

This paper employs a review of the technical literature to estimate the potential decrease in greenhouse gas (GHG) emissions that could be achieved by increasing the application of gas engines in China in three sectors: urban public transport vehicle; shipping; and thermal power plants. China’s gas engine development strategies and three types of gas resource are discussed in the study, which indicates that gas engines could decrease GHG emissions by 520 megatonnes (Mt) of carbon dioxide equivalent (CO_2e) by 2020. This would account for 9.7 % of the government’s target for decreasing GHG emissions and is dominated by methane recovery from the use of coal mine gas (CMG) and landfill gas (LFG) for power generation. In the public urban transport vehicle and shipping sectors the low price of natural gas and the increasing demand for the control of harmful emissions could spur the rapid uptake of gas engine vehicles. However, the development of CMG- and LFG-fuelled power plants has been limited by the unwillingness of local enterprises to invest in high-performance gas engine generators and the associated infrastructure. Therefore, further compulsory policies that promote CMG use and LFG recovery should be implemented. Moreover, strict regulations on limiting methane leakage during the production and distribution of gas fuels are urgently needed in China to prevent leakage causing GHG emissions and largely negating the climate benefits of fuel substitution. Strategies for increasing the application of gas engines, promoting gas resources and recovering methane in China are instrumental in global GHG mitigation strategies.     

An empirical analysis of energy efficiency measures applicable to cities,regions, and local governments,based on the case of South Korea’s local energy saving program

As highlighted in the outcome of the Paris Agreement at the 21st Conference of Parties of the United Nations Framework Convention on Climate Change there has been a recent push for the stronger mitigation actions of cities, regions, and local governments. Energy efficiency is a tool that can be leveraged by not only industry or national governments but also cities, regions, and local governments for mitigation purposes. However, studies on energy efficiency as a mitigation tool thus far have focused on the national or transnational scale, and on certain sectors of industry. The purpose of this paper is to find the most cost-efficient energy efficiency measures (EEMs) at the city, region, and local government level. To that end, this paper examines the yearly energy savings and greenhouse gas (GHG) reduction intensity, as well as energy savings and GHG reduction efficiency, in the case of EEMs conducted by South Korean local governments. Yearly energy savings intensity and GHG reduction intensity are estimated to be in the range of 0.094～0.375 tonne of oil equivalent (TOE)/M-KRW (million Korean won) and 0.287～1.180 tCO2e/M-KRW. Results show that inverter installation at water and sewage treatment plants and improvement of pump efficiency are the most cost-efficient EEMs. Moreover, energy savings efficiency and GHG reduction efficiency are within the range of 18.29～45.31 %, at an average of 30.5 % GHG reduction potential. If this reduction potential is applied to the buildings and facilities regulated and run by cities/local governments, there is a worldwide reduction potential of 1.023 billion tCO₂ compared to 2020 business as usual levels.     

石化行业有机液体储罐VOCs损耗估算方法浅析

总结了实测法、公式法、模型法等国内外石化行业有机液体储罐VOCs排放估算方法的主要特点和适用范围;运用公式法估算国内某石化企业典型油品储罐的VOCs排放量;分析了在我国直接套用美国环保署(EPA)开发的TANKS模型存在的问题;根据估算方法的实际应用研究,就美国AP-42源强手册第五版第七章(chapter 7:Liquid storage tank)中评价公式的"本土化"提出相关的建议。     

储运罐区气相连通设施HAZOP分析应用研究

介绍了石油化工企业储运罐区气相连通设施概况和存在的风险。以芳烃罐区气相连通为研究对象,应用HAZOP分析软件对装置进行安全评价,对潜在风险进行定性和半定量分析,并提出相应的风险控制方案。     

炼化企业分析化验岗位职业病危害防治措施研究

采用现场职业卫生学调查方法了解炼化企业分析化验岗位接触各类危害因素情况,对正常情况下分析化验工作场所进行各类职业病危害因素检测,同时测量各通风橱控制点风速、排风罩罩口风速;通风橱(风机通风量增加、管道改造)以及排风罩改造后,再次进行控制点风速测量、工作场所危害因素采样检测,对比改造前后测量数据,探讨分析化验岗位职业病危害防治措施。结果显示,工作场所通风设施的风机选型、管道合理化布置、排风罩围挡的设置、补风等因素均对通风橱、排风罩控制点风速产生影响;通风设施改造后工作场所职业病危害因素浓度有所降低。由此可见,炼化企业分析化验工作场所通风设施是职业病危害防治的重要措施。     

重庆市突发环境事件时空格局及影响研究

基于2009年-2015年重庆市突发环境事件统计数据,研究了重庆市近7年突发环境事件的动态变化趋势、空间分布格局及污染影响特征,讨论了引发突发环境事件内外部因素之间的关系.结果表明:重庆市7年内共发生突发环境事件134起,且呈波动下降趋势,春季和夏季为交通事故和自然灾害高发期;突发环境事件空间上主要集中在主城九区及相邻的区县,渝西、渝东南及渝东北各区县发生次数较少.道路交通事故、设备故障和操作不当是导致突发环境事件的主要因素,主要发生形式为泄漏.污染类型主要为水污染和水气复合污染,污染物出现频率大小为:油类>酸碱类>液氨>苯及其化合物>减水剂>其他各种污染物.     

延迟焦化装置含硫污水减量化实践

在分析160×10~4t/a延迟焦化装置含硫污水来源及减量化潜力基础上,通过采取优化加热炉注汽量、调整焦炭塔吹汽量、降低分馏塔汽提蒸汽量、回用含硫污水汽提净化水等管理和技术措施,装置节约了蒸汽消耗,源头减少了含硫污水产生量,增加了含硫污水汽提净化水回用量,年经济效益达460万元。     

LNG储罐安全阀泄漏分析与故障排查

针对16×10~4m~3LNG储罐安全阀泄漏问题,从阀门结构角度对泄漏原因进行了详细的分析,认为主要有三种可能:(1)导阀失效;(2)上阀腔漏气;(3)阀座密封不严。根据分析结论,提出了故障排查的方法以及操作步骤;结合阀门解体检查情况,建立了阀门失效的故障树,从投产、阀门运行维护角度提出了相关建议。     

酸性水储罐安全性研究

为预防酸性水储罐气相空间闪爆事故的发生,取样分析了某炼厂酸性水罐气相空间组成,根据气相组成配制了3种混合可燃气体,利用5 L爆炸极限测试仪测定了混合可燃气体在不同氧含量条件下的爆炸极限,根据爆炸极限数据计算出3种混合可燃气体的极限氧含量。结果表明:随着体系中氧含量增加,爆炸上限明显升高,爆炸下限无明显变化;烃类物质含量高时,混合可燃气体的爆炸上下限均降低,爆炸极限宽度变小;硫化氢和氢气含量高时,混合可燃气体爆炸上下限均升高,爆炸极限宽度变大;3种气相组成的极限氧含量分别为:8.1%、9.9%和10.3%,为防止罐顶气相组成发生闪爆,建议氧含量浓度控制在4%以内,当氧含量浓度到达5%时建议启动氮气联锁进行惰化和稀释。     

高效酶促进剂Accell在养猪废水处理工艺中的应用研究

为了考察高效酶促进剂在养猪废水处理工艺中的功能,在养猪废水治理工艺的生化段SBR反应器进水中投加高效酶促进剂Accell.两套相同的装置平行运行的效果对比表明:投加Accell可减少剩余污泥的排放量,增加溶氧效率,强化污染物的去除效果;投加高效酶的装置对COD的去除可在SBR反应器基础上再减少40%以上,对NH3-N的去除可进一步再减少25%以上,对P的去除也有一定的促进作用.