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An International Journal of Research and Development
The Chemical Engineering Journal focuses upon five aspects of chemical engineering: catalysis, chemical reaction engineering, environmental chemical engineering, green and sustainable science and engineering, and novel materials.
The Chemical Engineering Journal is an international research journal and invites contributions of original and novel fundamental research. The journal aims to provide an international forum for the presentation of original fundamental research, interpretative reviews and discussion of new developments in chemical engineering. Papers which describe novel theory and its application to practice are welcome, as are those which illustrate the transfer of techniques from other disciplines. Reports of carefully executed experimental work, which is soundly interpreted are also welcome. The overall focus is on original and rigorous research results that have generic significance.
Within the Chemical Engineering Journal, the Catalysis section presents Experimental and Theoretical studies in the fields of heterogeneous catalysis, molecular catalysis, and biocatalysis with industrial impact on chemicals, energy, materials, foods, healthcare, and environmental protection
Within the Chemical Engineering Journal, the Environmental Chemical Engineering section presents papers dealing with emerging topics in environmental chemical and process engineering, including pollution control, separation processes, advanced oxidation processes, adsorption of contaminants, resources recovery, waste-to-energy, environmental nanotechnology and bioprocesses, CO2 capture and utilization, and micro(nano) plastic detection and remediation.
Within the Chemical Engineering Journal, the Chemical Reaction Engineering section presents papers on a wide range of topics including reaction kinetics, simulation and optimization of different types of reactors, unsteady-state reactors, multiphase reactors, and process intensification including fundamental investigations of the processes of heat, mass and momentum transfer that take place along with chemical reactions. Innovative research works addressing critical areas of reactor engineering (e.g. novel reactor designs and materials, reactor safety and environmental issues), and emerging reactor technologies (e.g. membrane reactors, chromatographic reactors, unconventional fluidized bed reactors, electrochemical reactors, micro-reactors, photoreactors, fuel cells, enzymatic reactors, etc.) are particularly welcome. Submissions based entirely on e.g., numerical simulations with commercial CFD codes without novel experimental validation; novel sensing devices without a component of reaction engineering; theoretical mathematics; combustion in the context of energy conversion; or straightforward bioreactor applications (bacteria or animal cells) are highly discouraged, as these will find better fit in other existent journals.
Within the Chemical Engineering Journal, the Green and Sustainable Science and Engineering section presents papers focusing on innovative scientific and engineering solutions for sustainable future of human beings and nature. Topics in this section include, but are not limited to, the following: 1) Emerging materials and processes for green conversion of resources (including oil, gas, coal, biomass, plastics, and synthesis gas); 2) Green processes and system integration for renewable and clean energy production (including biofuels and H2), advanced treatment of air/water/solids, resource recovery (including nutrients, heavy metals, rare earth elements, and energy), energy-food-water nexus, and minimization of environmental pollution and hazardous materials (including environmental and economic impact assessment); and 3) Innovative separation, purification, and storage technologies for renewable and clean energy, greenhouse gases (e.g., CO2 and CH4), and intermediates/by-products.
The Novel Materials for Energy and Advanced Applications section of Chemical Engineering Journal considers papers describing the development of new functional materials and/or materials processing strategies with demonstrated practical applications. Theoretical calculations can be included, but all papers considered must have an experimental component. Any paper with a demonstrated application will be considered, including:
• Materials for sensors (gas sensors, strain sensors, electrochemical sensors, biosensors, optical sensors, or biomedical sensors provided the emphasis is new materials development)
• Biomedical materials (nanomedicine, photothermal/photodynamic therapy, tissue engineering, drug delivery, wound healing, gene therapy)
• Materials for agriculture (agrochemical delivery vehicles, materials for pest management)
• Functional polymer composites (shape memory or self-healing materials with demonstrated applications, flame-retardant materials, adhesives, sustainable materials, thermal management materials, electromagnetic shielding materials)
• Functional surfaces (superhydrophobic/self-cleaning surfaces, antimicrobial surfaces, anti-icing surfaces, anti-corrosion coatings)
• Materials for photo(electro)catalytic fuel production (water splitting, nitrogen fixation, CO2 reduction)
• Materials for solar cells (dye-sensitized solar cells, perovskite solar cells, organic solar cells)
• Materials for electrochemical energy storage (primary and secondary batteries, flow batteries, supercapacitors, dielectric capacitors)
• Materials for thermal/thermochemical energy storage/conversion (phase change materials, energy storage materials, thermoelectric devices)
• Energetic materials (explosives, propellants)
• Materials for electrocatalytic reactions (water splitting, hydrogen/oxygen evolution)
• Light-emitting and light-filtering materials (LEDs/OLEDs, photodetectors, optical thermometry, electrochromic materials)
The GSSE section does NOT focus on traditional fabrication and modification (processes) of polymers, including membranes and porous materials, metal alloys, and construction materials. Papers pertaining to chemistry with lack of "innovative" engineering aspects, combustion and engines should be submitted to more specialized journals. Otherwise, they will be internally transferred to other journals more suited to their topic. |
| 编辑信息 |
Co-Editors Stephen AllenQueen's University Belfast, Belfast, United Kingdom Email Stephen Allen Liquid and gas phase adsorption processes. Nutrient removal. Removal of metals and persistent organics. Ion exchange. CO2 removal and Carbon capture. Constructed wetlands.University of Cincinnati, Cincinnati, Ohio, United States Email Dionysios DionysiouAdvanced oxidation technologies for water treatment, drinking water treatment and purification, water quality, treatment, reuse, and monitoring, sustainable water processes, physicochemical phenomena on particle-water interfaces, transition-metal oxidation and reverse electron transfer reactions, the use of ionic liquids in environmental applications, destruction of biological toxins in water, environmental nanotechnology (fundamental, fate, transport, and applications of nanomaterials), Remediation, Environmental catalysis. Moderate Experience: Some experience also on separations (membranes, adsorption, solvent extraction). Less experience: biological treatment processes, resource recovery, biofuels/bioenergy, microbial fuel cells. Ghent University, Gent, Belgium Email Guy Marin chemical kinetics; heterogeneous catalysis; (petro)chemical processes, polymerization, reactor design and modelling, reactor scale-up, crude oil refining, natural gas valorisation, renewables Hong Kong University of Science and Technology, Clear Water Bay, Kowloon, Hong KongEmail King-Lun Yeung heterogeneous catalysis (including environmental catalysis, photocatalysis and enzyme), novel and hybrid reactor system, miniature flow reactor and microreactor, green and fine chemistry. Soniya Education Trust's College of Pharmacy, Dharwad, India Email Tejraj AminabhaviMembranes and membrane processes (including toxic metal adsorption) for the treatment and/or separation of industrial effluents; Mitigation and biochars for sustainability, toxic metal separations and waste minimization; Biofuels, algal and municipal sludge dewatering (anaerobic and aerobic) processes, membrane bioreactors and microbial fuel cells, polymer membrane fuel cells; Coagulation, VOCs treatment processes, desulfurization, deep eutectic solvent, SO2/NO removal, phosphorus and nitrogen removal, degradation of toxic chemicals by electrochemical methods and sensors; Industrial catalytic processes and activated carbon composites University of Patras Department of Chemical Engineering, Patras, Greece Email Dimitris Kondarides Heterogeneous catalysis and photocatalysis. Developmnt and evaluation of catalytic materials and processes for environmental and energy-related applications McMaster University, Hamilton, Ontario, Canada Email Todd Hoare Biomaterials, Drug delivery systems, Tissue engineering scaffolds, Encapsulation methods, Hydrogels, Functional polymers and polymer composites, Superhydrophobic/superoleophilic interfaces, oil recovery materials, fire retardant materials, phase change and thermal management materials, antibacterial/antifungal materials and interfaces, anti-corrosion materials, biosensors Reviews & Perspectives Editor Jesús SantamariaUniversity of Zaragoza, Zaragoza, Spain Email Jesús Santamaria Nanomaterials synthesis and characterization, nanomedicine, catalysis, advanced reactors (microwave-driven reactors, microreactors, laser pyrolysis reactors)Associate Editors Autonomous University of Madrid, Madrid, Spain Email Carolina Belver Water purification by photocatalysis, Design of novel heterostructures for environmental remediation, Water treatment by adsorption, Advanced oxidation technologies for water treatment, Environmental nanotechnology (fundamental and applications of nanomaterials). Soryong (Ryan) ChaeUniversity of Cincinnati, Cincinnati, Ohio, United States Email Soryong (Ryan) ChaeBiological processes for water and wastewater, resource recovery, membrane technology for water and energy, environmental nanotechnologyUniversity of Florida, Gainesville, Florida, United States Email Bin Gao Biochar technology, Environmental nanotechnology, Contaminant fate and transport, Adsorption, Engineered carbon materials, Nutrient removal and reuse, Heavy metal removal, Removal of emerging contaminants, Controlled release fertilizers Institute of Chemical Engineering Sciences, Patra, Greece Email Theophilos Ioannidescatalytic reaction engineering, Functional nanomaterials, ((electro)chemical) energy storage Sejong University Department of Energy and Environment, Seoul, Korea, Republic ofEmail Eilhann Kwon Waste-to-Energy (WtE), Combustion Chemistry, Thermo-Chemical Process (Pyrolysis and Gasification), Catalysis, Biofuels, Biorefinery, CO2 Utilization, Carbon Capture & Storage (CCS), Waste and Biomass Valorization, Green Chemistry, Environmental Sustainability, Air Pollution Controls Email Urška Lavrenčič Štangar heterogenous photocatalysis in water and air, AOPs, self-cleaning and antifogging surfaces, wet chemistry synthesis of materials, materials characterization Korea Advanced Institute of Science and Technology, Daejeon, Korea, Republic of Email Jinwoo Lee Aristotle University of Thessaloniki, Thessaloniki, Greece Email Angeliki LemonidouHeterogeneous catalysis, chemical kinetics, reactor design, (petro)chemical processes, carbon capture and utilization processes, process intensification (chemical looping), natural gas valorization, biomass chemo and thermocatalytic conversion. Nanjing University, Nanjing, China Email Bingcai Pan Nano-enabled water treatment; Environmental functional materials; Nanomaterials for environmental remediation; Industrial wastewater treatment; Municipal wastewater treatment; Drinking water treatment; Adsorption; Advanced oxidation processes (AOPs); Water quality analysis; POPs and PPCPs removal Institute of Technology Sligo, Nanotechnology and Bio-Engineering Research Group, Sligo, Ireland Email Suresh C. Pillai Nanomaterials, Advanced Oxidation Process, Energy materials, Photocatalysis, Supercapacitors, Hydrogen, Materials for Energy and Environmental science, Electrocatalysis, Electrochemistry, Photo-fenton process, Aerogels, Microwave chemistry, Sonochemical processing, Batteries and electrode materials. University of Bath, Bath, United Kingdom Email Nuno Reis micro-reactor technology, fluid mechanics, CFDs, gas-liquid mixing, multiphase reactors, process intensification, biological reactors, biofuels Education University of Hong Kong, New Territories, Hong Kong Email Yiu Fai TsangBiological wastewater treatment, bioremediation, resource recovery from organic waste, microbial CO2 fixation, odour pollution control Worcester Polytechnic Institute, Worcester, Massachusetts, United States Email Jennifer Wilcox Carbon Capture, Negative Emissions, Combustion, Adsorption, Membrane Separations University of Waterloo, Waterloo, Ontario, Canada Email Aiping Yu Nanomaterials development for polymer composites ( thermal management, corrosion) and energy storage/conversion (supercapacitors, batteries, photocatalysts) Editorial Board City University of New York, New York, New York, United States Email Teresa Bandosz, PhD, DSC New sorbents and catalysts, Surface characterization, Adsorption/desorption phenomena, Gas separation, Deep desulfurization of fuels, Catalytic photooxidation, Graphite oxide based composite, Gas sensors, Energy storage University of Cambridge Department of Chemical Engineering and Biotechnology, Cambridge, United Kingdom Email Silvana Cardoso Fluid Mechanics, Environment, Buoyancy, Plumes & Jets, Porous Media Raf DewilKU Leuven Science and Technology Group Department of Chemical Engineering, Heverlee, Belgium Email Raf DewilUniversity of Wyoming School of Energy Resources, Laramie, Wyoming, United StatesEmail Maohong Fan Integrating multiple methods and processes including (homogenous, heterogeneous and photo as well as bio) catalysis and separation with sorption and membrane for conversion of coal, oil and gases to value-added chemicals and clean fuelsDeveloping new materials (e.g., ionic liquids and nanostructure as well as magnetic materials) for clean and renewable energy production with conventional and unconventional technologies such as supercritical fluids and advanced crystallization as well as chemical vapor depositionUnderstanding the reaction mechanisms associated with chemical and energy generation processes through various theoretical and experimental tools including computation chemistryControlling air pollution (e.g., CO2 and Hg as well as H2S captures), and managing water qualities (e.g., heavy metal and chemical oxygen demand removals)Life cycle assessments of chemical and energy generation processes King Abdullah University of Science and Technology, Thuwal, Saudi Arabia Email Jorge Gascon Virginia Polytechnic Institute and State University, Blacksburg, Virginia, United StatesEmail Zhen (Jason) He, PhD Water pollution and treatment; Environmental biotechnology; Resource recovery from wastes; Bioelectrochemical systems; Bioenergy; Membrane technology; Bioremediation; Desalination University of Technology Eindhoven Department of Chemical Engineering and Chemistry, Eindhoven, Netherlands Email Hans Kuipers, PhD Multiphase Reactors, Multiphase Flow, Computational Fluid Dynamics, Multi-Scale Modelling Loughborough University Department of Chemical Engineering, Loughborough, United Kingdom Email Gianluca Li Puma Harbin Institute of Technology, School of Environment, Harbin, China Email Heng Liang, PhD Membrane, Drinking water treatment; Water reuse; Advanced oxidation; Desalination Harbin Institute of Technology School of Municipal and Environmental Engineering, Haerbin, China Email Jun Ma National Risk Management Research Laboratory, Cincinnati, Ohio, United States Email Malikarjuna N. Nadagouda Nanotechnology, Green Chemistry, Water Research, Polymer Chemistry, Materials Chemistry Korea University Division of Environmental Science and Ecological Engineering, Seoul, Korea, Republic of Email Yong Sik Ok, PhD Biochar, Resilience, Soil remediation, Biomass, Bioenergy Dalian University of Technology School of Environmental Science and Technology, Dalian, China Email Xie Quan Advanced oxidation technologies(AOTs), Functional materials for environmental application, Electrocatalysis, Photocatalysis, Membrane separation Princeton University, Princeton, New Jersey, United States Email Zhiyong Jason RenWater resource recovery, Wastewater treatment, Microbial electrochemistry, Functional membranes University of Porto, Porto, Portugal Email Alirio Rodrigues Cyclic adsorption/reaction processes, Perfume Engineering, Lignin valorization, CO2 capture and utilization, Modeling and simulation Potosi Institute of Scientific and Technological Research, San Luis Potosi, Mexico Email Vicente Rodriguez Gonzalez Photo-inactivation, Agricultural photocatalysis, H2 production, Hydrothermal method, Microwave synthesis The University of Melbourne Department of Chemical Engineering, Parkville, Victoria, Australia Email Geoff STEVENS Separation Processes, Solvent Extraction, Ion Exchange Otto von Guericke University, Magdeburg, Germany Email Andreas Seidel-MorgensternReaction Engineering, Forced Dynamic Operation, Chromatography, Crystallization Central Leather Research Institute CSIR, Chennai, India Email Mahadevan Surianarayanan Environmental remediation/degradation of toxic chemicals, Membrane bioreactors for the treatment or separation of toxic/industrial effluents, Chemical process safety, Bioprocess monitoring and control through metabolic heats. University of Kansas, Lawrence, Kansas, United States Email Laurence Russell Weatherley Process intensification, Liquid-Liquid systems, Ion Exchange, Biocatalysis, Phase transfer catalysis Central South University, Changsha, China Email Ruiyang (Ray) Xiao Advanced oxidation processes, Radical chemistry, Computational chemistry, Environmental modelling
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