1,800,514 research outputs found
High pressure chemical engineering : proceedings of the 3rd International Symposium on High Pressure Chemical Engineering, Zürich, Switzerland, October 7-9, 1996 /
No full textThis present volume contains the text of all contributions (oral and posters), except for the four invited papers, which were presented at the 3rd International Symposium on High Pressure Chemical Engineering on October 7-9, 1996. The symposium was divided into three major sections, namely - Chemical reaction engineering - Separation processes and phase equilibria - Plant, apparatus, machinery, measurements, control.This present volume contains the text of all contributions (oral and posters), except for the four invited papers, which were presented at the 3rd International Symposium on High Pressure Chemical Engineering on October 7-9, 1996. The symposium was divided into three major sections, namely - Chemical reaction engineering - Separation processes and phase equilibria - Plant, apparatus, machinery, measurements, control.Includes bibliographical references and indexes.Print version record.Front Cover; High Pressure Chemical Engineering; Copyright Page; Preface; Scientific Committee, Organizing Committee; Table of Contents; Part A: Chemical Reaction Engineering; Part B: Separation Processes and Phase Equilibria; Part C: Plant, Apparatus, Machinery, Measurements, Control; Appendix.Elsevie
Research progress in materials-oriented chemical engineering in China
No full textMaterials-oriented chemical engineering involves the intersection of materials science and chemical engineering. Development of materials-oriented chemical engineering not only contributes to material research and industrialization techniques but also opens new avenues for chemical engineering science. This review details the major achievements of materials-oriented chemical engineering fields in China, including preparation strategies for advanced materials based on the principles of chemical engineering as well as innovative separation and reaction techniques determined by new materials. Representative industrial applications are also illustrated, highlighting recent advances in the field of materials-oriented chemical engineering technologies. In addition, we also look at the ongoing trends in materials-oriented chemical engineering in China
Forty years of computers & chemical engineering: A bibliometric analysis
No full text© 2020 Elsevier Ltd Computers & Chemical Engineering (CCE) is one of the premier international journals in the field of chemical engineering. CCE published its first issue in 1977 and completed forty years in 2016. More than four decades of continuous and successful journey influenced us to celebrate its contribution through a comprehensive bibliometric study. Using the Web of Science Core Collection database we depict trends of the journal in terms of papers, topics, authors, institutions, and countries. Networks visualization of co-citation of journals and authors, bibliographic coupling institutions and countries, and co-occurrence of author keywords are prepared using the visualization of similarities (VOS) viewer software. The present analysis explores publication and citation patterns of the journal. Professor Ignacio E. Grossmann, Carnegie Mellon University, and USA respectively appear as the most productive and influential author, institution, and country in CCE publications. Optimization based research topics received most attention in CCE publications
UMD Chemical Engineering Newsletter for Alumni & Friends (2007 Summer)
No full textUniversity of Minnesota Duluth. Department of Chemical Engineering. (2007). UMD Chemical Engineering Newsletter for Alumni & Friends (2007 Summer). Retrieved from the University Digital Conservancy, https://hdl.handle.net/11299/263016
Japan-Croatia Joint Symposium on Chemical Engineering & Plasma Agriculture for Young Scientists Global Networking (JC-JSChEPA) : knjiga sažetaka
No full textBook of abstracts of the Japan-Croatia Joint Symposium on Chemical Engineering & Plasma Agriculture for Young Scientists Global Networking (JC-JSChEPA). JC-JSChEPA is organized to give a unique opportunity for students and young scientists to connect on an international scale with the keyword of "Chemical engineering".Knjiga sažetaka s međunarodnog simpozija pod nazivom "Japan-Croatia Joint Symposium on Chemical Engineering & Plasma Agriculture for Young Scientists Global Networking (JC-JSChEPA)" koji je organiziran u svrhu povezivanja studenata i mladih znanstvenika na međunarodnoj razini u području kemijskog inženjerstva
Computational chemical engineering – Towards thorough understanding and precise application
No full textThe paradigms of chemical engineering discipline are discussed. The first paradigm of Unit Operations and the second paradigm of Transport Phenomena are well recognized among the chemical engineers all over the world, and what the next paradigm is remains still an open question. Several proposals such as Chemical product engineering , Sustainable chemical engineering and Multi-scale methodology are considered as candidates for next paradigm. Might Computational Chemical Engineering be the next one, which is advancing the discipline of chemical engineering toward ultimate mechanism-based understanding of chemical processes? This possibility is comparatively expounded with other proposals, and the scope and depth of computational chemical engineering are shortly listed
Computational chemical engineering - Towards thorough understanding and precise application
No full text
The paradigms of chemical engineering discipline are discussed. The first paradigm of Unit Operations and the second paradigm of Transport Phenomena are well recognized among the chemical engineers all over the world, and what the next paradigmis remains still an open question. Several proposals such as Chemical product engineering, Sustainable chemical engineering and Multi-scale methodology are considered as candidates for next paradigm. Might Computational Chemical Engineering be the next one, which is advancing the discipline of chemical engineering toward ultimate mechanism-based understanding of chemical processes? This possibility is comparatively expounded with other proposals, and the scope and depth of computational chemical engineering are shortly listed. (C) 2016 The Chemical Industry and Engineering Society of China, and Chemical Industry Press. All rights reserved.</p
Internet for chemical engineering
No full textInternet for chemical engineering is a tutorial from the Virtual Training Suite. The Virtual Training Suite tutorials aim to help university and college students to develop Internet research skills to assist with their coursework and assignments. The tutorials were written by a national team of UK university or college lecturers and librarians. They recommend key websites in their subject and help students to make discerning use of the Internet to help find information for coursework, literature reviews or personal research. This is an archived version of the tutorial. As of the 1st of August 2011 any further development of the tutorials is being undertaken by TutorPro at http://www.vtstutorials.co.uk
Maximizing information from chemical engineering data sets: Applications to machine learning
Full text linkIt is well-documented how artificial intelligence can have (and already is having) a big impact on chemical engineering. But classical machine learning approaches may be weak for many chemical engineering applications. This review discusses how challenging data characteristics arise in chemical engineering applications. We identify four characteristics of data arising in chemical engineering applications that make applying classical artificial intelligence approaches difficult: (1) high variance, low volume data, (2) low variance, high volume data, (3) noisy / corrupt / missing data, and (4) restricted data with physics-based limitations. For each of these four data characteristics, we discuss applications where these data characteristics arise and show how current chemical engineering research is extending the fields of data science and machine learning to incorporate these challenges. Finally, we identify several challenges for future research
Design acceleration in chemical engineering
Full text linkNowadays, Chemical Engineering has to face a new industrial context with for example: the gradually falling of hydrocarbon reserves after 2020-2030, relocation, emerging of new domains of application (nano-micro technologies) which necessitate new solutions and knowledges… All this tendencies and demands accelerate the need of tool for design and innovation (technically, technologically). In this context, this paper presents a tool to accelerate innovative preliminary design. This model is based on the synergy between: TRIZ (Russian acronym for Theory of Inventive Problem Solving) and Case Based Reasoning (CBR). The proposed model offers a structure to solve problem, and also to store and make available past experiences in problems solving. A tool dedicated to chemical engineering problems, is created on this model and a simple example is treated to explain the possibilities of this tool
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