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Chemical Engineering Science

Resumen/Descripción – provisto por la editorial en inglés
Chemical Engineering Science publishes papers on the fundamentals of chemical engineering, including the development of chemical engineering knowledge and process into and from other disciplines including biology, chemistry, physics, and applied mathematics. We welcome manuscripts describing original research, with significant results based on experiments and/or developments in theory. Such results may be the outcome of studies that range from the molecular level to the plant level. Increasingly, published research addresses and impacts global issues. We also will consider critical reviews of cutting-edge developments, and prospective authors are encouraged to contact an Executive Editor prior to submission.

Industrial areas covered by the journal include biotechnology, chemicals, energy, food, materials, microelectronics, nanotechnology, specialty chemicals and pharmaceuticals.

The journal classifies research into the following main fields within chemical engineering:

Biomolecular and biological engineering - the chemical engineering of molecular and cellular products or systems, including through the use of modern tools such as protein and enzyme engineering and directed evolution; all fields at the intersection of chemical engineering and biology, including systems biotechnology, tissue engineering, drug and therapeutic delivery and bioassay development;

Biochemical and bioprocess engineering - the chemical engineering of (bio-)processes where biology or biochemical approaches are used to effect a transformation of material including, but not limited to, studies in waste treatment, bioreaction engineering, high-throughput process development, molecular simulation of process performance, downstream processing and bioreactor modeling;

Energy, water, environment, and sustainability - chemical energy generation, conversion, storage, distribution and utilisation; water quality, water treatment and water analysis; green processes, waste minimization, environmental remediation and environmental impact;

Materials engineering - chemical engineering of materials synthesis, characterization, design and scale up of nanomaterials synthesis, multiphase phenomena, reverse materials engineering (i.e. process-informed definition of materials properties); materials including particles, thin films, membranes, multifunctional materials, hierarchical porous structures etc.; synthesis methods including chemical vapor deposition, atomic layer deposition, hydrothermal synthesis, colloidal synthesis, etc; nucleation and growth mechanisms and control for nanomaterials;

Particle technology - the chemical engineering of particulate systems, including studies on the fundamental phenomena of nucleation, growth, breakage, and aggregation; modeling of particle population dynamics; fluid dynamics of particulate systems in chemical processes; all process steps to manipulate the properties of particulate systems;

Process systems engineering - simulation, analysis, synthesis, optimization, and control of (bio-)chemical production systems based on mathematical modeling approaches; advanced modeling strategies for all process levels (molecular level, phase level, process unit level, plant level); advanced methods for model parameter identification and design of experiments;

Reaction engineering and catalysis - simulation and experiments on reaction kinetics, catalyst synthesis and characterization, reactor design, process intensification, multifunctional reactors, microreactors, multiphase reactors, molecular and quantum scale phenomena, density functional theory, multiscale modeling, transport phenomena related to multiphase reactors;

Separations science and technology - general principles: phase equilibria, mass transfer, mixing and phase segregation; processes and unit operations: distillation, absorption, liquid-liquid extraction, membrane processes, adsorption separation processes, ion-exchange, preparative chromatography, crystallization and precipitation, supercritical fluid separation processes, biochemical separation processes; equipment design.

Submissions from other fields of chemical engineering, and from other areas within the fields above, are welcome. Papers are assessed only with regard to quality and their potential for fundamental and generic contribution to chemical engineering.

For a list of Journal keywords, please click here.
Palabras clave – provistas por la editorial

No disponibles.

Disponibilidad
Institución detectada Período Navegá Descargá Solicitá
No detectada desde ene. 1951 / hasta dic. 2023 ScienceDirect

Información

Tipo de recurso:

revistas

ISSN impreso

0009-2509

ISSN electrónico

1873-4405

Editor responsable

Elsevier

País de edición

Reino Unido

Fecha de publicación

Cobertura temática

Tabla de contenidos

Layered two- and four-bed PSA processes for H2 recovery from coal gas

Sol Ahn; Young-Woo You; Dong-Geun Lee; Ki-Hyun Kim; Min Oh; Chang-Ha Lee

Pp. 413-423

Modeling and control of a solar thermal power plant with thermal energy storage

Kody M. Powell; Thomas F. Edgar

Pp. 138-145

Synthesis of hydroxymethylfurfural from cellulose using green processes: A promising biochemical and biofuel feedstock

Prasant Kumar Rout; Ashween Deepak Nannaware; Om Prakash; Alok Kalra; Ram Rajasekharan

Pp. 318-346

Modeling the phase equilibrium in liquid–liquid extraction of copper over a wide range of copper and hydroxyoxime extractant concentrations

Fedor VasilyevORCID; Sami VirolainenORCID; Tuomo SainioORCID

Pp. 88-99

2D flow fields in fixed-bed reactor design: a robust methodology for continuum models

Philipp J. Donaubauer; Leonhard Schmalhorst; Olaf Hinrichsen

Palabras clave: Applied Mathematics; Industrial and Manufacturing Engineering; General Chemical Engineering; General Chemistry.

Pp. 115137

The prediction multi-phase, multi reactant equilibria by minimizing the Gibbs energy of the system: Review of available techniques and proposal of a new method based on a Monte Carlo technique

Qi Liu; Christophe ProustORCID; Francois Gomez; Denis Luart; Christophe Len

Palabras clave: Industrial and Manufacturing Engineering; Applied Mathematics; General Chemistry; General Chemical Engineering.

Pp. 115433

Universally applicable kinetic model for mixed ionic-electronic conducting membranes

Yue Zhu; Wenping Li; Lili Cai; Xuefeng ZhuORCID; Weishen Yang

Palabras clave: Industrial and Manufacturing Engineering; Applied Mathematics; General Chemistry; General Chemical Engineering.

Pp. 115455

Sustainable product design: A life-cycle approach

Xiang ZhangORCID; Lei ZhangORCID; Ka Yip Fung; Bhavik R. Bakshi; Ka Ming Ng

Palabras clave: Industrial and Manufacturing Engineering; Applied Mathematics; General Chemistry; General Chemical Engineering.

Pp. 115508

Influence of statistical activity variations in diluted catalyst beds on the thermal reactor behavior: Derivation of an a priori criterion

Gunnar Ganzer; Hannsjörg Freund

Palabras clave: Industrial and Manufacturing Engineering; Applied Mathematics; General Chemistry; General Chemical Engineering.

Pp. 115607

A new heat transfer correlation suited for the design of fixed-bed reactors via numerical optimization

Alexander PietschakORCID; Anthony G. Dixon; Hannsjörg Freund

Palabras clave: Industrial and Manufacturing Engineering; Applied Mathematics; General Chemistry; General Chemical Engineering.

Pp. 115614