《环境工程研究》(EER)由韩国环境工程师协会(KSEE)出版,每季一期。能谱分析涵盖了广泛的空气、土壤和水管理的科学和技术,同时强调工业化和城市化过程中遇到的环境问题的科学和工程解决方案。特别是考虑到环境污染的跨学科主题和多区域/全球影响(包括生态系统和人类健康)以及新技术的科学和工程方面。《日刊》的范围包括以下领域,但不限于:1. 大气环境与气候变化:全球和地方气候变化,温室气体控制,空气质量建模本专题涵盖广泛的大气污染问题,包括全球气候变化的监测和建模、本地空气污染的定量评估和解决方案、本地和全球空气污染影响的相互作用、空气污染物的减排以及碳中和过程的发展。2. 可再生能源和废物管理:从废物、焚烧、填埋和绿色能源中回收能源除了传统的废物处理和循环利用,本节还致力于以下具体领域更全面的科学和工程知识:可再生能源生产、废物转化为能源技术、废物资源回收、零废物、危险废物处理、与废物有关的土壤修复和生物炭。3.环境生物技术与生态学:纳米生物传感器、环境基因组学、生物能源、环境生态工程环境生物技术领域包括微生物生理学、微生物群落、基因组/蛋白质组学研究、生物膜、生物修复和生物技术的应用。该领域正在处理的具体主题包括纳米/生物传感器和监测环境有毒物质的传感系统。环境生态与生态工程领域包括:生态技术;生境重建;恢复生态学;生态系统保护;生态系统恢复;河流修复;湿地恢复;以及生态学的各个方面。4. 理化技术:膜技术及高级氧化本节涵盖与物理和/或化学方法有关的新环境技术的综合主题。特别感兴趣的主题包括膜过滤、高级氧化、吸附、颗粒过滤、消毒以及水处理的光电化学技术。以上主题的跨学科主题的文章被高度鼓励。5. 环境系统工程:海水淡化、ICA(仪器、控制、自动化)、水回用本节强调应用系统工程原理解决水资源管理、土壤和地下水污染、综合环境管理等复杂的环境问题。具体的研究领域如下:理化和生物过程的优化和发展,污染物的监测和控制,污染物命运和运输的模拟和建模,以及海水淡化和水再利用系统。6. 环境健康与毒理学:微污染物、有害物质、生态毒性、环境风险评估本节涉及环境健康与毒理学的跨学科科学领域,包括环境组学。环境健康与毒理学的各种主题的整合将为改善人类健康和生态系统的可持续性提供新的视角和系统的解决方案。特别感兴趣的主题包括新兴微污染物、健康危害、环境组学科学、生态毒性和环境风险评估。
The Environmental Engineering Research (EER) is published quarterly by the Korean Society of Environmental Engineers (KSEE). The EER covers a broad spectrum of the science and technology of air, soil, and water management while emphasizing scientific and engineering solutions to environmental issues encountered in industrialization and urbanization. Particularly, interdisciplinary topics and multi-regional/global impacts (including eco-system and human health) of environmental pollution as well as scientific and engineering aspects of novel technologies are considered favorably. The scope of the Journal includes the following areas, but is not limited to:1. Atmospheric Environment & Climate Change: Global and local climate change, greenhouse gas control, and air quality modelingThis topical section covers a wide range of atmospheric pollution issues, including monitoring and modeling of global climate change, quantitative assessment and solutions of local air pollution, interactions of local and global air pollution impacts, emission reduction of air pollutants, and carbon neutral process development.2. Renewable Energy & Waste Management: Energy recovery from waste, incineration, landfill, and green energyIn addition to traditional waste treatment and recycling, this section is dedicated to more comprehensive scientific and engineering knowledge in the following specific areas: renewable energy production, waste-to-energy conversion technologies, resources recovery from wastes, zero waste, hazardous waste treatment, soil remediation related to waste, and biochar.3. Environmental Biotechnology & Ecology: Nano-biosensor, environmental genomics, bioenergy, and environmental eco-engineeringThe Environmental Biotechnology area covers microbial physiology, microbial community, genomic/proteomic studies, biofilm, bioremediation, and applied aspects of biotechnology. Specific topics being dealt with in this area include nano-/biosensors and sensing systems to monitor environmental toxic substances. The Environmental Ecology and Eco-engineering area covers the followings: ecotechnology; habitat reconstruction; restoration ecology; ecosystem conservation; ecosystem rehabilitation; stream and river restoration; wetland restoration; and aspects of ecology.4. Physical & Chemical Technology: Membrane technology and advanced oxidationThis section covers comprehensive topics in novel environmental technologies related to physical and/or chemical approaches. Specific topics of interest include membrane filtration, advanced oxidation, adsorption, granular filtration, and disinfection as well as photoelectrochemical technologies for water treatment. The articles dealing with interdisciplinary topics of above mentioned topics are highly encouraged.5. Environmental System Engineering: Seawater desalination, ICA (instrument, control, and automation), and water reuseThe section emphasizes the application of system engineering principles to solve complex environmental problems, such as water resources management, soil and groundwater pollution, and integrated environmental management. Specific areas of interest are as follows: optimization and development of physicochemical and biological processes, monitoring and control of contaminants, simulation and modeling for the fate and transport of pollutants, and desalination and water reuse systems.6. Environmental Health & Toxicology: Micropollutants, hazardous materials, ecotoxicity, and environmental risk assessmentThis section deals with an interdisciplinary scientific field in environmental health & toxicology including environmental OMICS. The integration of a variety of topics in environmental health & toxicology will provide novel perspectives and systematic solutions for the improvement of human health and ecosystem sustainability. Specific topics of interest include emerging micropollutants, health hazards, environmental OMICS sciences, ecotoxicity, and environmental risk assessment.
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