All manuscripts must be written so as to be widely accessible and understandable to interdisciplinary and trans disciplinary oriented readers without neglecting the disciplinary excellence and clearness.
Letters to the editor and discussion papers are welcome in order to provide a forum for discussions on a high scientific level. Additionally, a news section provides an interesting variety of news, facts, forthcoming events and conferences as well as book reviews.
Sustainable Cities and Society (SCS) publishes a wide range of original high quality papers covering fundamental and applied research, critical reviews and case studies. It focuses on research and multi-disciplinary work aiming to reduce the environmental and societal impact of future cities and covers topics including design, modelling, analytical tools, testing/experimental work, optimization, environmental assessment, new codes, regulations, policy, economics, monitoring, post occupancy evaluation and legislation related to sustainable cities. In addition to fundamental and applied papers, review articles on important developments will be included. Special issues devoted to international conferences and reviews of books and major reports will be published too.Key areas covered by SCS are:Energy (creating and securing sustainable energy supplies and improving the efficiency of power generation, transmission and use);Water (sustainable water management and water preservation/recycling);Air (management of air pollution, improvement of air quality and reduction of CO2 emissions from buildings and transport;) andThe Earth (preservation of raw materials, new construction materials and energy efficient design).Submissions welcome from engineers (mechanical, building services, civil, buildings, electrical, manufacturing and chemical), architects, planners, scientists (physicists and chemists), energy experts, social scientists, economists and policy makers. All submissions are subjected to peer review from leading experts in the field.Topics covered by SCS include:Monitoring and improving air quality in buildings and cities (e.g., healthy buildings and air quality management), use of alternative energy sources (e.g., solar energy, wind, bio mass/bio-gas, geothermal energy and hybrid sources), waste recycling in cities (reduce waste and recycle materials) and development of new construction materials for building applications and transport (e.g., high performance insulation materials).Distributed energy generation such as integration of micro-generation with building services and control of renewable energy devices, dynamic demand management: matching demand to supply of renewable resources, adaptation of buildings to climate change (thermal comfort, green retrofit-buildings and interdisciplinary research such as socio-technical and economics and post occupancy evaluation).Low/zero carbon construction such holistic approaches to design, energy modelling and green retrofit, dynamic demand and local energy storage, occupant behaviour, smart metering/monitors and intelligent control.Planning, regulations, legislation, certification, economics, policy, social and environmental impact related to sustainable and future cities.Decarbonised society and low/zero carbon community buildings and sustainable development.Design and decision tools for low impact buildings, green retrofit of buildings and modelling/optimization of the energy performance of new and existing buildings.City transport (e.g., harness of thermal energy from vehicle engines and innovative transport methods using personal rapid transit cars)Water harvesting and management (development of household appliances designed to minimise water use, water recycling and solar-powered desalination systems)
Sustainable computing is a rapidly expanding research area spanning the fields of computer science and engineering, electrical engineering as well as other engineering disciplines. The aim of Sustainable Computing: Informatics and Systems (SUSCOM) is to publish the myriad research findings related to energy-aware and thermal-aware management of computing resource. Equally important is a spectrum of related research issues such as applications of computing that can have ecological and societal impacts. SUSCOM publishes original and timely research papers and survey articles in current areas of power, energy, temperature, and environment related research areas of current importance to readers. SUSCOM has an editorial board comprising prominent researchers from around the world and selects competitively evaluated peer-reviewed papers.Making computing sustainable - Software systems perspective:• Power-aware software• Code profiling and transformation for power management• Power-aware middleware• Multimedia systems• Scheduling and allocationComputing for sustainability - Use of computing to make the world a sustainable place:• Use of sensors for environmental monitoring• Smart control for eco-friendly buildings• Green Data Centers and Enterprise ComputingRe-inventing algorithms and applications for sustainability:• Theoretical aspect of energy, power, and temperature• Power-aware applications• Resource management to optimize performance and power• Power implications for portable and mobile computing• Algorithms for reduced power, energy and heat for high-performance computingModeling and evaluation of sustainable systems:• Reliability of Power-aware computers• Runtime systems that assist in power saving• Models for collective optimization of power and performance• Monitoring tools for power and performance of parallel and distributed systemsSustainable hardware platforms and devices - Hardware and architecture perspective:• Power aware networking• Real-time systems• Power-efficient architectures• Efficient circuit design for energy harvesting• Power management in memory, disk, storage and other peripheral devices• Configurable and renewable energy• Low power electronics• Embedded systems, ASICs and FPGSs• Power leakage and dissipationPlease submit your article via http://ees.elsevier.com/suscom/
The world must move toward a more sustainable energy future, and the development of technologies that facilitate this for transport, heating, and power systems is crucial. This journal encourages papers on any aspect and scale of technologies for energy generation and/or utilization that decrease the impact of that production and use, from the laboratory to commercial applications. Papers on:•technology development/improvement,•integration,•regulation, standards and policy are within the scope of the journal, as well as case studies.Technology assessments estimating and discussing metrics such as scale of application,size and weight per unit of energy output, economics, efficiency, and state of technology development are particularly welcomed, for both individual or comparative systems.The main fields of focus are generation, storage, and conversion; energy efficiency and distribution; and policy and economics. Energy fields include, but are not limited to, carboncapture and storage, wind, bioenergy, solar/PV, hydro, geothermal, and conventional fuels, along with system analysis, environmental issues, energy harvesting, and building design. Papers that incorporate more than one of these topics, either in a unified system or through a comparison of these fields, are encouraged.
SEGAN is an interdisciplinary journal that aims to bring together researchers from academia and industry from across Energy, Engineering, Computer Science, Mathematics and Energy Policy/Regulation.
SEGAN publishes original articles and short communications, as well as selected review articles by invitation and/or approval of the Editor-in-Chief. Proposals for review articles and special issues should be submitted to the Editor-in-Chief for consideration.
SEGAN particularly welcomes papers on the following topics:
Sustainable Materials and Technologies (SM&T) is an international, cross-disciplinary and fully open access journal, published by Elsevier. SM&T publishes original full-length research articles and reviews in applied or fundamental science of nano-, micro-, meso-, and macro-scale aspects of materials and technologies for sustainable development with special attention to contributions that reduce the knowledge gap between materials and system designs.
Aims and Scope
SM&T acknowledges the interdisciplinary nature of scientific research on sustainable development and covers a broad and wide scope. It provides a scientific platform for physicists, mathematicians, chemists material scientists, engineers and other technical experts to contribute innovative works and combine the different disciplines in Sustainability Science and Technology related to:
• Resource-efficiency optimization (e.g., minimize amount of precious metals in product design)
• Waste minimization and management (e.g., CO2 capture and water purification)
• Material recycling and materials recovery from complex products
• Material substitution to enable lower-impact production and/or use (e.g., composites)
• Life cycle analyses of sustainable technologies
• Energy sources for the long term
• Materials performance targets in the context of a system design
• Advanced manufacturing processes with reduced energy, water, and materials footprint
Submissions focusing only on policy/decision making or economic aspects are unsuitable to SM&T.
Paper type
There are several options for authors to publish their recent works in SM&T:
• Fast track communication: Outstanding short articles reporting novel, recent and interesting works with high impact can benefit from accelerate publication procedure.
• Paper: Original scientific articles that are in line with the aims and scope of the journal.
• Notes: Brief descriptions of a technique, a small but important experiment or theoretical point, or a novel solution to a commonly encountered problem in sustainable science and technology fall in this category.
• Comments and replies: Critiques about a published article which should not be more than 500words (1 to 2 journal pages). The original authors will be invited to submit a reply.
• Invited topical reviews: Intended to summarize an accepted report on a recent development. Invited by the Editorial board and written by experts in related fields.
Papers from engineers, natural and social scientists as well as philosophers are invited and those at the interface between these disciplines are particularly encouraged. Types of article published by the journal include original research, perspectives, short communications, policy and review papers. All papers should include some elements of life cycle thinking and should clearly demonstrate that they are addressing topics related to sustainable production and consumption. Note that papers on end-of-pipe treatment technologies are outside the scope.
The areas and topics covered by the journal include but are not limited to:
Concepts and approaches
• Circular economy
• Clean technology/cleaner production
• Climate change mitigation
• Consumer engagement and communication
• Corporate social responsibility
• Eco-efficiency
• Ecosystem services
• Ethical investment and consumption
• Green/sustainable chemistry
• Industrial ecology
• Intra/Intergenerational equity
• Life cycle management
• Life cycle thinking
• Life cycle sustainability assessment
• Producer responsibility
• Rebound effect
• Supply chain management
• Sustainable design
• Sustainable lifestyles
• Sustainable policies
• Sustainable procurement
• Sustainable products and services
Tools
• Carbon and water footprinting
• Analysis of consumer preferences and attitudes
• Economic instruments
• Integrated product policies
• Internalisation of environmental and social costs
• Life cycle assessment
• Life cycle costing
• Material flow analysis
• Multi-criteria decision analysis
• Scenario analysis
• Social life cycle assessment
• Stakeholder analysis
• Sustainability indicators
• System optimisation
Sectors
• Chemicals
• Construction and buildings
• Energy
• Financial
• Food
• Health
• Manufacturing
• Resources and feedstocks
• Retail
• Tourism
• Transport and mobility
• Waste
• Water
Introduction:To tackle complex real world problems, scientists have been looking into natural processes and creatures - both as model and metaphor - for years. Optimization is at the heart of many natural processes including Darwinian evolution, social group behavior and foraging strategies. Over the last few decades, there has been remarkable growth in the field of nature-inspired search and optimization algorithms. Currently these techniques are applied to a variety of problems, ranging from scientific research to industry and commerce. The two main families of algorithms that primarily constitute this field today are the evolutionary computing methods and the swarm intelligence algorithms. Although both families of algorithms are generally dedicated towards solving search and optimization problems, they are certainly not equivalent, and each has its own distinguishing features. Reinforcing each other's performance makes powerful hybrid algorithms capable of solving many intractable search and optimization problems.About the journal:Swarm and Evolutionary Computation is the first peer-reviewed publication of its kind that aims at reporting the most recent research and developments in the area of nature-inspired intelligent computation based on the principles of swarm and evolutionary algorithms. It publishes advanced, innovative and interdisciplinary research involving the theoretical, experimental and practical aspects of the two paradigms and their hybridizations. Swarm and Evolutionary Computation is committed to timely publication of very high-quality, peer-reviewed, original articles that advance the state-of-the art of all aspects of evolutionary computation and swarm intelligence. Survey papers reviewing the state-of-the-art of timely topics will also be welcomed as well as novel and interesting applications.Topics of Interest:Topics of interest include but are not limited to: Genetic Algorithms, and Genetic Programming, Evolution Strategies, and Evolutionary Programming, Differential Evolution, Artificial Immune Systems, Particle Swarms, Ant Colony, Bacterial Foraging, Artificial Bees, Fireflies Algorithm, Harmony Search, Artificial Life, Digital Organisms, Estimation of Distribution Algorithms, Stochastic Diffusion Search, Quantum Computing, Nano Computing, Membrane Computing, Human-centric Computing, Hybridization of Algorithms, Memetic Computing, Autonomic Computing, Self-organizing systems, Combinatorial, Discrete, Binary, Constrained, Multi-objective, Multi-modal, Dynamic, and Large-scale Optimization.Applications:Furthermore, the journal fosters industrial uptake by publishing interesting and novel applications in fields and industries dealing with challenging search and optimization problems from domains such as (but not limited to): Aerospace, Systems and Control, Robotics, Power Systems, Communication Engineering, Operations Research and Decision Sciences, Financial Services and Engineering, (Management) Information Systems, Business Intelligence, internet computing, Sensors, Image Processing, Computational Chemistry, Manufacturing, Structural and Mechanical Designs, Bioinformatics, Computational Biology, Mathematical and Computational Psychology, Cognitive Neuroscience, Brain-computer Interfacing, Future Computing Devices, Nonlinear statistical and Applied Physics, and Environmental Modeling and Software.
The international journal Synergy is dedicated to the understanding, development and application of the principle of "synergy" at the molecular, cellular and organismic levels and its application in the prevention and treatment of disease.Multimodal treatments or multitarget approaches are increasingly applied to treat complex diseases in different disciplines of medicine – mainly based on empirical knowledge. There is a need to elucidate and define further the combinatory actions in the context of the theoretical basis, experimental design and quantification of synergy at different dose and effect levels, including optimal combination ratios or sequences and the prevention of potential adverse events.The journal Synergy aims to serve as an international platform for the dissemination, exchange and discourse of innovative research on the systematic development of combination therapies based on synergistic effects and the quantification and quantitative simulation of synergistic and/or antagonistic modes of action. Preclinical and clinical research results are invited from the fields of medicine, molecular and cellular biology, toxicology, pharmacology, pharmacy, and bioinformatics.Synergy publishes research on combinations of single and multicomponent drugs of synthetic or of natural origin. Its scope includes "Omic" approaches, which contribute to the understanding of complex disease traits and bring them into the context of system biology.Synergy welcomes relevant contributions in the forms of original research papers, reviews, rapid communications, perspectives and letters to the editor. Commentaries are by invitation only.
This journal is an international medium for the rapid publication of original research papers, short communications and subject reviews dealing with research on and applications of electronic polymers and electronic molecular materials including novel carbon architectures. These functional materials have the properties of metals, semiconductors or magnets and are distinguishable from elemental and alloy/binary metals, semiconductors and magnets.Materials considered to be within the purview of this journal include:• low-dimensional conductors and superconductors such as organic charge-transfer compounds and metal chain compounds• conducting and semiconducting polymers and molecular materials• fullerenes, carbon nanotubes and related novel carbon architectures• supramolecular conjugated architectures• nanoscale electronic molecular and electronic polymer materials• molecule- and polymer-based magnets.Experimental, theoretical and application papers on the chemistry, physics and engineering of these materials are encouraged for submission. Original manuscripts on their chemical, electrochemical, electrical, photonic and magnetic properties will be considered for publication. Papers on electronic, electroluminescent, lasing, solar cell, anticorrosion, sensor, actuator, biological and other potential device applications of these materials are encouraged.