PROCESS SAFETY AND ENVIRONMENTAL PROTECTION
期刊基本信息
期刊名称:PROCESS SAFETY AND ENVIRONMENTAL PROTECTION
期刊ISSN:0957-5820
期刊数据表:
最新中科院JCR分区
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大类(学科)
小类(学科)
JCR学科排名
工程技术
ENGINEERING, CHEMICAL(工程学,化学) 2区
ENGINEERING, ENVIRONMENTAL(工程学,环境) 3区
27/137
18/50
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最新的影响因子
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4.966 | |||||||
最新公布的期刊年发文量 |
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总被引频次 | 5890 | |||||||
特征因子 | 0.007940 |
PROCESS SAFETY AND ENVIRONMENTAL PROTECTION英文简介:
Official Journal of the European Federation of Chemical Engineering: Part BPSEP aims to be the principal international journal for publication of high quality, original papers in the branches of engineering concerned with the safety of industrial processes and the protection of the environment.Papers that deal with new developments in safety or environmental aspects, demonstrating how research results can be used in process engineering design and practice, are particularly encouraged. Experimental or theoretical research work bringing new perspectives to established principles, highlighting unsolved problems or indicating directions for future research will also be considered. The journal is especially interested in contributions that extend the boundaries of traditional engineering as well as in multidisciplinary papers.Papers related to environmental protection must take an integrated pollution control approach, demonstrating clearly that any proposed treatment method does not simply transfer pollution from one environmental medium to another, for example, from air to water or from water to solid waste. All such papers must discuss how any treatment effluents, spent adsorbents, etc., can be treated or disposed of safely, avoiding transfer of pollution to another environmental medium.For environmental protection, papers that are outside the scope are those that lack engineering aspects, including those that:use experimental techniques primarily to prepare and/or characterise various materials without considerations of process engineering design and practice;present primarily laboratory experiments of the effects of different parameters on behaviour of materials and pollutants (e.g. pH, temperature, mass of adsorbent, etc.) without further insights into the implications for engineering design and practice;focus primarily on adsorption models and curve fitting (e.g. Freundlich, Langmuir etc.); andcontain only chemical, physical and/or thermodynamic analyses.Core topic areas:Risk Assessment and Reliability Engineering• Risk assessment, risk management, consequence analysis, and uncertainty quantification.• Supply chain risk management.• Cyber and physical security vulnerability assessment.• Risk assessment of hydrogen-based technologies. • Human reliability analysis (HRA) and human-machine interface (HMI).• Reliability predictions of integrated systems and high-temperature power electronics.• Integrity management and reliability, availability and maintainability (RAM).Technical Safety and Loss Prevention• Fire and gas detection.• Firewater systems.• Functional safety and safety integrity levels (SIL)• Layer of protection analysis (LOPA)• Bowtie analysis.• Emergency response• HAZOP and other hazard/risk identification techniques.Modelling• Modelling liquid, gaseous, and two-phase releases and dispersion.• Consequence modelling, including: fire, explosion, toxic, eco-toxic effects and projectile impacts.• Methods, including computational fluid dynamics (CFD).• Accident investigation and modelling.Chemical Toxicity and Exposure Assessment• Toxic releases and exposure assessment.• Process plant health issues.Process Pipelines, Storage and Security• Process pipelines security and terrorism.• Pipeline leak detection and measurement and corrosion assessment.• Carbon capture and storage (CCS) and CO2 transport.Fire and Explosion• Fire, combustion, and explosion phenomena.• Dust explosions.• Fire and blast protection and survivability.Human Factors in Design and Management• HSE performance measurement including leading and lagging indicators.• Human and organizational factors in safety cases.• Human performance optimization by design.• SIMOPS (simultaneous operations).• Situational awareness.• Communications and risk control systems.• Resilience engineering.• Technical assurance and workforce training.Inherent Safety and Inherently Safer Design • Hazard identification• Design and development of new processes and equipment.• Methodologies for ranking inherent safety.• Retrofitting inherently safer solutions and upgrading existing plant for improved safety.Nuclear Safety• Waste disposal.• Design for decommissioning.• Passively safe reactor designs.• Nuclear reactor protective and monitoring systems.Reaction Hazards• Chemical thermal stability and thermal reaction hazards.• Influence of impurities on reaction hazards.• Development of reactivity hazard index ranking tools.• Runaway reactions, including detection and mitigation.• Compatibility/reactivity of chemicals involved in a chemical process.Industrial Hazards and Safety Cases• Major accident hazards• ALARP and cost-benefit analysis.• Industrial safety cases.Incident investigations and case histories• Case histories of incidents and lessons learned integration into design and operations.• Technical analysis of incidents.• Computational modelling to simulate actual incidents• Use of incidents in training and improvement of safety performance• Incident investigation methodologies• Incident databases and their applications.Air pollution prevention and treatment • Methods and technologies for prevention and treatment of air pollution• Air dispersion modelling• Prediction and mitigation of air pollution incidents• Health impacts from air pollutionResource and waste management• Recovery and recycling of materials and products• Energy from waste and alternative resources• Waste minimisation• Waste treatment technologies• Waste management: systems and processes for energy and material recovery and waste treatment; disposal• Landfill and waste repository design, operation and management• Land remediation and recoveryWater pollution prevention and treatment• Industrial, pure and ultrapure water production• Municipal and industrial effluent treatment• Potable water treatment• Sludge processing, energy recovery and disposal• Mitigation of water pollution incidents• Water pollution dispersion modelling• Health impacts from water pollution
PROCESS SAFETY AND ENVIRONMENTAL PROTECTION中文简介:
欧洲化学工程联合会官方刊物:B部分PSEP的目标是成为主要的国际期刊,在工业过程安全和环境保护相关的工程部门发表高质量的原创论文。特别鼓励处理安全或环境方面的新发展、证明研究结果如何用于工艺工程设计和实践的论文。还将考虑实验或理论研究工作,为既定原则带来新的视角,突出未解决的问题或指明未来研究的方向。该杂志尤其对扩展传统工程领域以及多学科论文的贡献感兴趣。与环境保护有关的文件必须采取综合污染控制方法,清楚地表明任何拟议的处理方法都不只是将污染从一种环境介质转移到另一种环境介质,例如从空气转移到水,或从水转移到固体废物。所有这些文件必须讨论如何安全地处理或处置任何处理废水、废吸附剂等,避免污染转移到其他环境介质。对于环境保护,超出范围的文件是那些缺乏工程方面的文件,包括那些:主要使用实验技术来制备和/或表征各种材料,而不考虑工艺工程设计和实践;主要在实验室进行不同参数对材料和污染物行为(如pH、温度、吸附剂质量等)影响的实验,而无需进一步了解对工程设计和实践的影响;主要关注吸附模型和曲线拟合(如Freundlich、Langmuir等);以及仅包含化学、物理和/或热力学分析。核心主题领域:•风险评估与可靠性工程•风险评估、风险管理、后果分析和不确定性量化。•供应链风险管理。•网络和物理安全脆弱性评估。•氢基技术风险评估。•人类可靠性分析(HRA)和人机界面(HMI)。•集成系统和高温电力电子设备的可靠性预测。•完整性管理和可靠性、可用性和可维护性(RAM)。技术安全和损失预防•火灾和气体检测。•消防水系统。•功能安全和安全完整性等级(SIL)•保护层分析(LOPA)•领结分析。•应急响应•HAZOP和其他危险/风险识别技术。建模•模拟液体、气体和两相释放和分散。•后果建模,包括:火灾、爆炸、毒性、生态毒性效应和射弹影响。•方法,包括计算流体动力学(CFD)。•事故调查和建模。化学毒性和暴露评估•有毒物质释放和暴露评估。•加工厂健康问题。工艺管道、储存和安全•处理管道安全和恐怖主义。•管道泄漏检测、测量和腐蚀评估。•碳捕获和储存(CCS)和二氧化碳运输。火灾和爆炸•火灾、燃烧和爆炸现象。•粉尘爆炸。•防火防爆和生存能力。设计和管理中的人为因素•HSE绩效测量,包括领先和落后指标。•安全案例中的人和组织因素。•通过设计优化人的性能。•模拟作战(同时作战)。•态势感知。•通信和风险控制系统。•弹性工程。•技术保证和劳动力培训。固有安全和固有安全设计•危险识别•新工艺和设备的设计和开发。•对固有安全进行排序的方法。•改造本质上更安全的解决方案,升级现有工厂以提高安全性。核安全•废物处理。•退役设计。•被动安全反应堆设计。•核反应堆保护和监测系统。反应危险•化学热稳定性和热反应危险。•杂质对反应危害的影响。•开发反应性危险指数排序工具。•失控反应,包括检测和缓解。•化学过程中涉及的化学品的相容性/反应性。工业危害和安全案例•重大事故危害•ALARP和成本效益分析。•工业安全案例。事件调查和案例记录•事件和经验教训的案例历史,整合到设计和运营中。•事故技术分析。•模拟实际事件的计算建模•在培训和提高安全绩效中使用事故•事故调查方法•事件数据库及其应用程序。大气污染防治•防治空气污染的方法和技术•空气扩散建模•空气污染事件的预测和缓解•空气污染对健康的影响资源和废物管理•回收和回收材料和产品•来自废物和替代资源的能源•废物最小化•废物处理技术•废物管理:能源和材料回收和废物处理的系统和流程;处置•垃圾填埋场和废物储存库设计、运行和管理•土地整治和恢复水污染防治•工业、纯水和超纯水生产•城市和工业废水处理•饮用水处理•污泥处理、能量回收和处置•缓解水污染事件•水污染扩散模型•水污染对健康的影响
CiteScore历年趋势图
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