Jan
2021
Feb
2021
Mar
2021
The conference is dedicated to providing the platform and opportunities for researchers, scientists, engineers and scholars to exchange and share their experiences, new ideas and research in the common research field of Energy and Environmental Engineering, and to discuss practical issues, the challenges encountered as well as the solutions adopted. Energy security, environmental degradation, soil & water loss, and climate change are the current and future grand challenges of the world. Energy and environmental engineering contribute immensely to these grand challenges and are important to the economic and ecological sustainability of the world. While the public has established the local-realism-based vision that the new energies (solar & wind power, biofuel, carbon capture and storage, etc.) and environmental engineering technologies (ecological restoration, wetlands, water & soil reservation, wastewater and sludge treatment, desalination, etc.) may be beneficial for resource conservation and climate change mitigation, the far-reaching ecological impact of these engineering projects to the environment is little explored. The ecosystem is an entity of complex network connections, where one slight change can affect the whole, but these complex interconnections remain little known to humans. For instance, it has been increasingly realized that all forms of renewable energy production rely on machines built with non-renewable minerals, which means that with current technologies, no form of renewable energy is 100% “renewable”. The interlinkage of different ecological elements calls for a systems vision. We recognize that the future for energy and environmental scientists is one where they will be working in interdisciplinary teams, especially in partnership with social scientists, to solve new, complex and evolving problems that will require innovative solutions. Therefore, we strongly encourage participation of interdisciplinary disciplines (such as social hydrology, energy and environmental policy, ecological economics, systems embodiment analysis, etc.) in this conference where multidisciplinary researches are presented. CoEEE 2021 will be held in the beautiful capital of Norway, Oslo, in summer, which is the wonderful season in Northern Europe. The conference will start with the registration and material collection on June 26, 2021 followed by two days of technical sessions consisting of plenary lectures and keynote speeches to overall audience and oral presentations and poster presentations by participants in various sessions as well as social networking events. We truly believe that CoEEE 2021 will provide the best platform for all the participants to have spirited discussions and exchange insightful thoughts on the broad field of energy and environmental engineering. Finally, we do wish all of you to have a memorable experience on the conference and seize this opportunity to promote future international collaborations.
The topics of interest include, but are not limited to: Environmental Engineering; Optimization of collection systems; Advanced treatment of water and secondary effluents; Ozone layer depletion; Advances in biological, physical and chemical processes; Physical and Social hydrology; Aesthetic quality of drinking water; Physical oceanography; Agricultural sustainability; Process modelling; Air emission trading; Public participation; Air pollution and control; Quality guidelines, environmental regulation and monitoring; Anaerobic treatment; Recycling and reuse; Applications in agriculture; Regulatory practice; Atmospheric modelling and numerical prediction; Resource management; Atmospheric physics; Reuse of reclaimed waters; Bio-engineering; Safety for all; Biodegradation of hazardous substances; Satellite applications in the environment; Biodiversity conservation; Sludge treatment and reuse; Carbon capture and storage; Soil decontamination; Clean technologies; Solid waste management; Climate and climatic changes; Storage technology; Deforestation; Storm-water management; Disinfection and disinfection by-products; Suspended and fixed film biological processes; Effect of distribution systems on potable water quality; Sustainability in process industries; Emission sources; Sustainable cities; Environmental dynamics; Systems embodiment accounting and input-output analysis; Environmental restoration and ecological engineering; Technical aspects of treatment and disposal methods; Environmental science and technology; Toxicity assessment and epidemiological studies; Environmental sustainability; Trans-boundary cooperation; Environmental systems approach; Waste management; Fate of hazardous substances; Waste minimization; Geophysics; Waste valorization; Global environmental change and ecosystems management; Wastewater and sludge treatment; Global warming; Water and Soil reservation; Green infrastructures; Water quality; Green manufacturing; Water quality objectives standard setting; Ground water management; Water resources and river basin management; Ground water remediation; Water treatment and reclamation; Habitat reconstruction; Wetlands; Hazardous substances and detection techniques; Zero energy building; Health and the environment; Energy Engineering; Health related organisms; Control technologies; Hybrid energy systems; Demand-side management; Indoor air pollution; Distributed energy resources; Industrial wastewater treatment; Distributed ledger systems for energy; Institutional development; Eco-technology; Integrated ecosystems management; Economic instruments; Interaction between pollutants; Electricity market and electricity supply chain; Landscape degradation and restoration; Energy efficient systems; Leachate treatment; Energy management and audit; Legal, economic and managerial aspects of solid waste management; Energy policies and economics; Life cycle analysis and Systems process accounting; Energy security and clean use; Management and regulation of point and diffuse pollution; Energy stock-exchanges; Management of hazardous solid waste; Energy-efficient computing; Management of water treatment residuals; Grid and off-grid issues; Meteorology; Modelling and decision support tools; Remote area power supply; Monitoring and analysis of environmental contaminant; Renewable sources of energy-energy savings; Nutrients removal; Smart grid; On site and small scale systems; Sustainable energy and environment.
CoEEE 2021 | International Joint Conference on Energy and Environmental Engineering
The conference is dedicated to providing the platform and opportunities for researchers, scientists, engineers and scholars to exchange and share their experiences, new ideas and research in the common research field of Energy and Environmental Engineering, and to discuss practical issues, the challenges encountered as well as the solutions adopted. Energy security, environmental degradation, soil & water loss, and climate change are the current and future grand challenges of the world. Energy and environmental engineering contribute immensely to these grand challenges and are important to the economic and ecological sustainability of the world. While the public has established the local-realism-based vision that the new energies (solar & wind power, biofuel, carbon capture and storage, etc.) and environmental engineering technologies (ecological restoration, wetlands, water & soil reservation, wastewater and sludge treatment, desalination, etc.) may be beneficial for resource conservation and climate change mitigation, the far-reaching ecological impact of these engineering projects to the environment is little explored. The ecosystem is an entity of complex network connections, where one slight change can affect the whole, but these complex interconnections remain little known to humans. For instance, it has been increasingly realized that all forms of renewable energy production rely on machines built with non-renewable minerals, which means that with current technologies, no form of renewable energy is 100% “renewable”. The interlinkage of different ecological elements calls for a systems vision. We recognize that the future for energy and environmental scientists is one where they will be working in interdisciplinary teams, especially in partnership with social scientists, to solve new, complex and evolving problems that will require innovative solutions. Therefore, we strongly encourage participation of interdisciplinary disciplines (such as social hydrology, energy and environmental policy, ecological economics, systems embodiment analysis, etc.) in this conference where multidisciplinary researches are presented. CoEEE 2021 will be held in the beautiful capital of Norway, Oslo, in summer, which is the wonderful season in Northern Europe. The conference will start with the registration and material collection on June 26, 2021 followed by two days of technical sessions consisting of plenary lectures and keynote speeches to overall audience and oral presentations and poster presentations by participants in various sessions as well as social networking events. We truly believe that CoEEE 2021 will provide the best platform for all the participants to have spirited discussions and exchange insightful thoughts on the broad field of energy and environmental engineering. Finally, we do wish all of you to have a memorable experience on the conference and seize this opportunity to promote future international collaborations.
The topics of interest include, but are not limited to: Environmental Engineering; Optimization of collection systems; Advanced treatment of water and secondary effluents; Ozone layer depletion; Advances in biological, physical and chemical processes; Physical and Social hydrology; Aesthetic quality of drinking water; Physical oceanography; Agricultural sustainability; Process modelling; Air emission trading; Public participation; Air pollution and control; Quality guidelines, environmental regulation and monitoring; Anaerobic treatment; Recycling and reuse; Applications in agriculture; Regulatory practice; Atmospheric modelling and numerical prediction; Resource management; Atmospheric physics; Reuse of reclaimed waters; Bio-engineering; Safety for all; Biodegradation of hazardous substances; Satellite applications in the environment; Biodiversity conservation; Sludge treatment and reuse; Carbon capture and storage; Soil decontamination; Clean technologies; Solid waste management; Climate and climatic changes; Storage technology; Deforestation; Storm-water management; Disinfection and disinfection by-products; Suspended and fixed film biological processes; Effect of distribution systems on potable water quality; Sustainability in process industries; Emission sources; Sustainable cities; Environmental dynamics; Systems embodiment accounting and input-output analysis; Environmental restoration and ecological engineering; Technical aspects of treatment and disposal methods; Environmental science and technology; Toxicity assessment and epidemiological studies; Environmental sustainability; Trans-boundary cooperation; Environmental systems approach; Waste management; Fate of hazardous substances; Waste minimization; Geophysics; Waste valorization; Global environmental change and ecosystems management; Wastewater and sludge treatment; Global warming; Water and Soil reservation; Green infrastructures; Water quality; Green manufacturing; Water quality objectives standard setting; Ground water management; Water resources and river basin management; Ground water remediation; Water treatment and reclamation; Habitat reconstruction; Wetlands; Hazardous substances and detection techniques; Zero energy building; Health and the environment; Energy Engineering; Health related organisms; Control technologies; Hybrid energy systems; Demand-side management; Indoor air pollution; Distributed energy resources; Industrial wastewater treatment; Distributed ledger systems for energy; Institutional development; Eco-technology; Integrated ecosystems management; Economic instruments; Interaction between pollutants; Electricity market and electricity supply chain; Landscape degradation and restoration; Energy efficient systems; Leachate treatment; Energy management and audit; Legal, economic and managerial aspects of solid waste management; Energy policies and economics; Life cycle analysis and Systems process accounting; Energy security and clean use; Management and regulation of point and diffuse pollution; Energy stock-exchanges; Management of hazardous solid waste; Energy-efficient computing; Management of water treatment residuals; Grid and off-grid issues; Meteorology; Modelling and decision support tools; Remote area power supply; Monitoring and analysis of environmental contaminant; Renewable sources of energy-energy savings; Nutrients removal; Smart grid; On site and small scale systems; Sustainable energy and environment.
| Category | Early (Until Feb. 20) |
Regular (Until Apr. 15) |
Late (After Apr. 15) |
On-site (June 26-28) |
Online Presentation (Until June 27) |
| Member Author | 600 USD | 650 USD | 700 USD | 750 USD | 350 USD |
| Author | 650 USD | 700 USD | 750 USD | 800 USD | 380 USD |
| Student Author | 550 USD | 600 USD | 650 USD | 700 USD | 320 USD |
| Presentation only | 450 USD | 500 USD | 550 USD | 600 USD | 250 USD |
| Listener | 380 USD | 450 USD | 500 USD | 550 USD | 200 USD |
| Social Networking Event | TBD | ||||
| Academic Visit Optional | TBD | ||||
| Extra Page/Per page | USD 70 | ||||
| Extra Paper Upload | USD 370 | ||||
| Extra Banquet Ticket | USD 70 | ||||
The accepted and registered papers will be sent to be published in the digital conference proceeding, which will be sent to be indexed by major citation databases. Selected good papers after significant extension can be recommended to Energies for publication.