Chemical reaction engineering as a discipline started in the early 1950s under the impulse of researchers at the Shell Amsterdam research center and the university of Delft. The term chemical reaction engineering was apparently coined by J.C. Vlugter while preparing the 1st European Symposium on Chemical Reaction Engineering which was held in Amsterdam in 1957.
Discipline
Chemical reaction engineering aims at studying and optimizing chemical reactions in order to define the best reactor design. Hence, the interactions of flow phenomena, mass transfer, heat transfer, and reaction kinetics are of prime importance in order to relate reactor performance to feed composition and operating conditions. Although originally applied to the petroleum and petrochemical industries, its general methodology combining reaction chemistry and chemical engineering concepts allows optimization of a variety of systems where modeling or engineering of reactions is needed. Chemical reaction engineering approaches are indeed tailored for the development of new processes and the improvement of existing technologies.
Chemical Reaction Engineering, Octave Levenspiel, 1999, John Wiley & Sons,,
Elements of Chemical Reaction Engineering, H. Scott Fogler, 2005, Prentice Hall,,
Chemical Reactor Analysis and Design, Gilbert F. Froment and Kenneth B. Bischoff, 1990, John Wiley & Sons,,
Fundamentals of Chemical Reaction Engineering, Mark E. Davis and Robert J. Davis, 2003, The McGraw-Hill Companies, Inc.,,
ISCRE Symposia
The most important series of symposia are the International Symposia on Chemical Reaction Engineering or . These three-day conferences are held every two years, rotating among sites in North America, Europe, and the Asia-Pacific region, on a six-year cycle. These conferences bring together for three days distinguished international researchers in reaction engineering, prominent industrial practitioners, and new researchers and students of this multifaceted field. ISCRE symposia are a unique gathering place for reaction engineers where research gains are consolidated and new frontiers explored. The state of the art of various sub-disciplines of reaction engineering is reviewed in a timely manner, and new research initiatives are discussed.
Awards in Chemical Reaction Engineering
The ISCRE Board administers two premiere awards in chemical reaction engineering for senior and junior researchers every three years.
Neal R. Amundson Award for Excellence in Chemical Reaction Engineering
In 1996, the ISCRE Board of Directors established the Neal R. Amundson Award for Excellence in Chemical Reaction Engineering. This award recognizes a pioneer in the field of Chemical Reaction Engineering who has exerted a major influence on the theory or practice of the field, through originality, creativity, and novelty of concept or application. The award is made every three years at an ISCRE meeting, and consists of a Plaque and a check in the amount of $5000. The Amundson Award is generously supported by a grant from the ExxonMobil Corporation. Winners of the award include:
Rutherford Aris Young Investigator Award in Chemical Reaction Engineering
In 2016, the ISCRE, Inc. Board of Directors will bestow the first Rutherford Aris Young Investigator Award for Excellence in Chemical Reaction Engineering. This award will recognize outstanding contributions in experimental and/or theoretical reaction engineering research of investigators in early stages of their career. The recipient must be less than 40 years of age at the end of the calendar year in which the award is presented. The Aris Award is generously supported by a grant from the UOP, L.L.C., a Honeywell Company. The award consists of a plaque, an honorarium of $3000, and up to $2000 in travel funds to present at an ISCRE/NASCRE conference and to present a lecture at UOP. This award complements ISCRE's other major honor, the Neal R. Amundson Award. Winners of the award include:
2016: Paul J. Dauenhauer, Professor - University of Minnesota, USA
