环境科学与工程
IE 2024
International Conference on Intelligent Environments
全文截稿: 2024-01-03
开会时间: 2024-06-19
会议难度: ★★
会议地点: Ljubljana (Slovenia)
网址:
https://ie2024.ijs.si/index.php/cfp/
The 20th International Conference on Intelligent Environments (IE2024) is the major annual venue in the area and will be held in the beautiful Ljubljana (Slovenia), a vibrant historic city, from June 17th to June 20th. For those who cannot attend in person, online participation will also be an option.
IE2024 offers an international forum and welcomes contributions from all over the planet. Intelligent Environments refer to physical spaces in which information and communication technologies, artificial intelligence, interfaces, sensing and actuating technologies are woven together into interacting spaces. The ultimate objective of such environments is to enrich users’ activities while allowing users to manage them and be aware of each other’s capabilities.
Topics of interest include but are not limited to
Sensors and actuators
Internet of Things
Smart homes, buildings, vehicles, and cities
Smart spaces and communities
Smart agriculture, education, and healthcare
Industry 4.0
Mobile computing
Multimodal interaction
Robotics applied to smart environments (SEs)
Artificial intelligence and Computational intelligence
Virtual/Mixed Reality
Collaborative tools
Pervasive and ubiquitous computing
Context awareness
Human-Computer interaction
Energy efficiency
Ambient Assisted Living
Smart environment evaluation paradigms
Signal processing (incl. audio and image) for SEs
Software engineering applied to SEs
环境科学与工程
Environment International
Antibiotics and ARGs in Agro-environments: Fate, Risk and Control
全文截稿: 2024-04-15
影响因子: 7.577
中科院JCR分区:
• 大类 : 环境科学与生态学 - 1区
• 小类 : 环境科学 - 1区
网址:
https://www.journals.elsevier.com/environment-international
Antibiotics and antibiotic resistance genes (ARGs) can cause many issues to public health and have received global concerns. Their presence in the agricultural environments can influence human health and ecosystem services through environmental exposure, drinking water and food consumption. Many bioactive chemicals in the environment could also influence the behaviors and impacts of the ARGs. Better understanding on fate, distribution, healthy risk and the related processes of antibiotics and ARGs is the key to preventing deleterious impacts to human health. To update our current understanding and knowledge gaps in this research area, the journal opens a special issue focusing on the following topics:
(1) Occurrence, distribution, and fate of antibiotics and ARGs in agro-environments
(2) Transport and dissemination of antibiotics and ARGs in agricultural ecosystems
(3) Relationship between bioactive chemicals and ARGs
(4) Impact and risk of antibiotics and ARGs on agro-environmental quality and human health
(5) Innovative strategy to control and mitigate the impact of antibiotics and ARGs to agro-environmental quality and human health
Guest editors:
Dr. Yanzheng Gao
Nanjing Agricultural University, Nanjing, China
Email: [email protected]
Prof. Jason Bartz
Creighton University, Nebraska, USA
Email: [email protected]
Prof. Hui Li
Michigan State University, Michigan, USA
Email: [email protected]
Dr. Laura Carter
University of Leeds, UK
Email: [email protected]
环境科学与工程
Applied Geochemistry
Biogeochemical Processes of Micro(nano)plastics in the Environment
全文截稿: 2024-05-15
影响因子: 2.903
中科院JCR分区:
• 大类 : 地球科学 - 3区
• 小类 : 地球化学与地球物理 - 3区
网址:
https://www.journals.elsevier.com/applied-geochemistry
This special virtual issue focuses on biogeochemical processes of micro(nano)plastics (MnPs) in the environment. Examples include: biogeochemical cycling of carbon under MnP exposure, impacts of MnPs on the biogeochemical cycling of nutrients (e.g. phosphorus, sulfur, nitrogen), dynamics of the plastisphere and the degradation of MnPs, impacts of MnPs on on biogeochemical processes of heavy metals, impacts of MnPs on the transformation of organic contaminants, and interactions of MnPs and soil active substrates (e.g. minerals and organic matter).
Guest editors:
Lauren Pincus, PhD
Columbian College of Arts & Sciences; Princeton University
Fei Dang, PhD
Chinese Academy of Sciences, Beijing, China
Xuetao Guo, PhD
Northwest A&F University, Yangling, China
Jie Wang, PhD
China Agricultural University, Beijing, China
环境科学与工程
Building and Environment
Building Design and Operation after the COVID-19 Pandemic
全文截稿: 2024-05-31
影响因子: 4.971
中科院JCR分区:
• 大类 : 工程技术 - 1区
• 小类 : 结构与建筑技术 - 2区
• 小类 : 工程:土木 - 1区
• 小类 : 工程:环境 - 2区
网址:
https://www.journals.elsevier.com/building-and-environment
COVID-19, also known as the coronavirus disease 2019, has had a profound and far-reaching impact on society, highlighting the critical role of buildings in public health, occupant well-being, and resilience, and sustainability. This emphasis does not solely address the immediate concerns related to pandemics but also contributes significantly to the long-term well-being of occupants and the efficient utilization of resources. As the world navigates the transition to a post-pandemic era, it is imperative that we examine and disseminate knowledge about the design and operation of buildings to ensure safer, healthier, and more sustainable built environments. This calls for extensive research in building design and operation after COVID-19 pandemic for creating a healthy, safe, resilient, and sustainable society.
This special issue aims to provide a comprehensive and timely platform for research and discourse on the evolving building design and operation in the post-pandemic era. The special issue will focus on the building design and operation after the COVID-19 pandemic. The scope of this special issue includes but is not limited to these topics: health-centric design within buildings, resilient building practice in response to pandemics with a focus on adaptability and preparedness, real-world solutions in building design and operation in the post-COVID-19 era, sustainability and environmental considerations that reduce the carbon footprint of the built environment, technology integration to optimize building performance, occupant health and energy efficiency, policy and regulatory changes influenced by the pandemic, and interdisciplinary insights that combines expertise in architecture, engineering, public health, environmental science, technology, and policy to address the complex challenges posed by the pandemic.
Guest editors:
Associate Prof. Dr. Sumei LiuTianjin University, Tianjin, China
Prof. Dr. Tengfei ZhangTianjin University, Tianjin, China
Manuscript submission information:
Open for Submission: 01-Nov-2023 - 31-May-2024
环境科学与工程
Transportation Research Part D: Transport and Environment
Evolving Connections between Land Use and Emerging Mobilities
全文截稿: 2024-07-31
影响因子: 4.577
中科院JCR分区:
• 大类 : 工程技术 - 2区
• 小类 : 环境研究 - 2区
• 小类 : 交通运输 - 2区
• 小类 : 运输科技 - 3区
网址:
https://www.journals.elsevier.com/transportation-research-part-d-transport-and-environment
With rapid technological advancements, innovative mobility solutions, such as shared mobility, electric vehicles, and autonomous vehicles, have become increasingly popular in cities around the world. These emerging modes of mobility have expanded travel options available to individuals and changed their travel behavior in terms of mode use, destination choice, parking demand, etc. Some of these innovations have the potential to disrupt the existing transportation system, while others require the land use-transport connection to evolve to facilitate their adoption and use. Thus, it is imperative for planners to understand how to effectively leverage land use interventions in advancing the sustainability of these emerging mobilities.
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Guest editors:
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1) Mi Diao, College of Architecture and Urban Planning, Tongji University, [email protected]) Yi Zhu, School of Public Economics and Administration, Shanghai University of Finance and Economics, [email protected]) Scott Hardman, Institute of Transportation Studies, University of California, Davis, [email protected]) Sung Hoo Kim, Department of Transportation and Logistics Engineering, Hanyang University ERICA Campus, [email protected]
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Special issue information:
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The special issue focuses on the relationship between land use and emerging mobilities, exploring key issues such as:
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- How does land use influence the use of emerging mobility options?
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- How do emerging mobility options disrupt individuals’ location and travel choices?
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- How do emerging mobility options reshape urban spatial structure?
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- Do emerging mobilities impact certain demographic groups adversely?
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- What are the environmental and social implications associated with these impacts?
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- What land use policy changes are needed to facilitate adoption and use of emerging mobility options?
环境科学与工程
Environmental Research
Transport, transformation and emission of carbon and nitrogen in inland water: Processes, pathways, and underlying mechanisms
全文截稿: 2024-08-01
影响因子: 5.715
中科院JCR分区:
• 大类 : 环境科学与生态学 - 2区
• 小类 : 环境科学 - 2区
• 小类 : 公共卫生、环境卫生与职业卫生 - 1区
网址:
https://www.journals.elsevier.com/environmental-research
Inland waters play a fundamental role in the global transport, transformation and emission of carbon (C) and nitrogen (N). They receive the bulk of allochthonous C and N and return to the atmosphere in the form of greenhouse gases (GHG) including CO2, CH4 and N2O, which establishes a biogeochemical couple between continents, waters and atmosphere. The C and N exports from terrestrial environments highly constrain their level and magnitude, while hydrological conditions modulate dissolved and particulate C and N allocation, and aquatic chemistry and biology accelerate C and N transformation among various forms. Human activities have significantly altered the natural biogeochemical processes of C and N in inland waters. Therefore, understanding the transport, transformation and emission of C and N is crucial in predicting and mitigating human-induced environmental stressors such as water pollution, climate change and global warming.
This Special Issue aims to uncover the specific biogeochemical processes and pathways involved in C and N transport and transformation, as well as subsequent GHG emissions, including topics such as:
Hydrological transport of dissolved and particulate C and N in inland waters
Tracing spatiotemporal patterns of C and N magnitude, source and fate in inland waters
Depicting the dynamics and turnover of C and N receiving from terrestrial ecosystems before delivery to oceans
Biochemical processes and pathways involved in C and N transformation in aquatic ecosystems
Ecological and environmental drivers of the linkages between inland water C and N
Anthropogenic stressors e.g., river damming, land use change, and urbanization on C and N transport and transformation
Quantifying, managing and mitigating GHG e.g., CO2, CH4 and N2O emissions from inland waters
Modelling and predicting of C and N cycling in response to climate change in inland waters
Guest editors:
Prof. Siyue Li
School of Environmental Ecology and Biological Engineering, Institute of Changjiang Water Environment and Ecological Security, Wuhan Institute of Technology, Wuhan, China
Email: [email protected]
Prof. Y. Jun Xu
School of Renewable Natural Resources, Louisiana State University, Baton Rouge, Louisiana, USA
Email: [email protected]
Assoc. Prof. Maofei Ni
College of Eco-Environmental Engineering, Guizhou Minzu University, Guiyang, China
Email: [email protected]
