能源学
Applied Energy
Special Issue on "100%RES: 100% Renewable: strategies, technologies and challenges for a fossil free future"
全文截稿: 2021-06-30
影响因子: 8.848
中科院JCR分区:
• 大类 : 工程技术 - 1区
• 小类 : 能源与燃料 - 2区
• 小类 : 工程:化工 - 1区
网址:
https://www.journals.elsevier.com/applied-energy
In the last 10 years, the share of renewable sources in the energy mix of several countries is increased with a steady pace. This is leading to a revolution in conceiving energy conversion and diffusion in comparison to a fossil fuel-based system. Nowadays, thinking to a full-renewable-based system is no more just a dream. Nevertheless, the transition to this future implies several critical issues both from the technical and economic point of view. Several issues need to be carefully addressed:
supply and demand need be matched by adapting to new power generation profiles with different time response and variability of the energy source to a complex management of the demand side;
a well balanced energy storage mix has to be created not only supporting the electric grid for short periods of time but also storing large amounts of energy for weekly and seasonal balance with Power-to-X efficient and scalable processes;
new technologies for renewable power generation and forecasting need be studied and deployed on the grid with a strong focus on optimization and integration of multienergy systems;
innovative policies for regulations of the energy markets should be enforced keeping the world on track driving the technological change through some decades of transition to the final aim of a fossil free planet.
This special issues is dedicated, in addition to including some selected papers from the 100RES conference that was organized in Pisa at the end of October 2020, to researchers looking for the opportunity to discuss the above topics, have an insight to new frontiers of engineering research, share new ideas and promote the cooperation between people operating in these fields. Interdisciplinary research papers are most welcome.
The target audience include academia, project developers, financiers, suppliers, policy decision-makers, even the public, and end-users.
Topics of interest include, but are not limited to, the following:
New technologies for intermittent and programmable renewable energy
Integration and optimization of renewable energy in grids with high renewable share
Power generation flexibility and power supply and demand matching
Energy resilience
Power-to-X technologies for short and long energy storage
Integration of energy grids and energy communities
Sustainable mobility as grid balancing and use of fuels from Power-to-Fuel processes
Innovation in energy policies leading to a fossil free future
LCA and environmental studies of renewable energy and energy storage technologies
Social and economic studies about future energy markets
能源学
Bioresource Technology
all for Papers on Special Issue: Recent Advances in Hydrothermal Treatment of Biomass
全文截稿: 2021-07-31
影响因子: 7.539
中科院JCR分区:
• 大类 : 工程技术 - 1区
• 小类 : 农业工程 - 1区
• 小类 : 生物工程与应用微生物 - 2区
• 小类 : 能源与燃料 - 2区
网址:
https://www.journals.elsevier.com/bioresource-technology
Biomass valorisation processes have attained a great deal of interest in the research domain due to their advantage of being renewable in nature. With the increasing requirements of every country to be self-reliant in terms of energy requirement, several kinds of feedstocks are being tested across the globe for their potential to produce chemicals and fuels. In this scenario, hydrothermal treatment has drawn importance as it has the capability to handle moisture-rich feedstocks. Feedstock drying is highly energy intensive and hence, any process that does not require excessive energy input for conversion is sought after. Hydrothermal treatment utilises moisture present in the feedstock during the conversion process.
This special issue of BIORESOURCE TECHNOLOGY aims to capture the latest scientific and technological developments in this area and will cover the following topics (dealing with lignocellulosic and algal biomass only):
Hydrothermal treatments in subcritical water and supercritical water
Hydrothermal pretreatment for the production of xylo-oligosaccharides and bioethanol
Structural modifications of biomass using hydrothermal treatment
Production of high value compounds/biofuels using hydrothermal pretreatment
Hydrothermal/catalytic liquefaction of biomass
Application of bio-oil and biochar produced using hydrothermal liquefaction
Hydrothermal carbonisation of biomass
Bioprocess integration and technoeconomic analysis using hydrothermal pretreatment
Engineering aspects, scale-up and continuous process of hydrothermal treatments
Life cycle assessment and environmental impact analysis using hydrothermal processing.
Timeline:
Submissions open: July 1, 2021
Submission closes: July 31, 2021
能源学
Applied Energy
Special Issue on "Modeling and Assessment of Integrated Multi-Energy Systems"
全文截稿: 2021-08-15
影响因子: 8.848
中科院JCR分区:
• 大类 : 工程技术 - 1区
• 小类 : 能源与燃料 - 2区
• 小类 : 工程:化工 - 1区
网址:
https://www.journals.elsevier.com/applied-energy
Joint Call for Papers byApplied Energy & Advances in Applied Energy
There is a growing call for the development of optimal energy generation and use configurations for new integrated systems and design of multiple energy sources. Integrated Energy Systems (IES) have advanced the evaluation of the coordinated use of renewable energy generators and energy storage to meet energy demands across the all sectors. IES offers a paradigm shift from the traditional approach to the hybrid modeling and techno-economic evaluation of energy systems because of the intrinsic nature of how the technologies are integrated. These evolutions offer opportunities for significant intellectual merit contributions along innovative models and methodologies to further advance our understanding of these new and emerging suite of technologies.
It is evident that the development of advanced modeling, simulation and optimization tools is leading to the evolution of the grid to accommodate more variable renewable energy generation and different combinations of storage systems minimizing carbon emission and the cost of ensuring a reliable grid. Amongst other benefits, flexibility, reliability and resilience are also being achieved through IES. This special issue welcomes papers that address the following topics in the context of IES:
Optimization, including but not limited to classical, stochastic and robust optimization, of IES
Statistical enhancements, machine learning and data-driven methods to forecast of renewable resource and/or demand profiles
Multimarket scenario modeling and analysis of heat, hydrogen generation of electricity, etc.
Techno-economic modeling and evaluation of integrated energy systems
Models to value the options for capacity storage in integrated energy systems
Models to examining the socio-economic impacts of novel technologies in IES
Advanced system models integrating the physics of heat transformations and the time dynamics of generation in IES with CHP (combined heat and power) technologies
New models of predicting load and supply under stochastic incidences of resource availability
Models for economic value of technologies across regional and spatio-temporal frameworks
Modeling the performance of variable renewable energy on techno-economic thresholds.
能源学
Energy and Buildings
Special Issue on Sustainable Underground Spaces: Design, Environmental Control and Energy Conservation
全文截稿: 2021-08-31
影响因子: 4.867
中科院JCR分区:
• 大类 : 工程技术 - 2区
• 小类 : 结构与建筑技术 - 1区
