October 2019 | AIChE

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October 2019

AIChE Annual Meeting - 2019 - Dow Chemical Company

Upcoming LGBTQ+ & Allies Events at the Annual Meeting and Annual Student Conference

October 9, 2019
October 11, 2019

Join LGBTQ+ chemical engineers and their allies for social and networking events in Orlando as well as for workshops and panels to promote inclusion, awareness, and diversity.

IRETRIZES PARA SEGURANÇA DE PROCESSO BASEADA EM RISCO

January, 2014
Ao ler este livro, em sua totalidade ou em partes, o leitor terá acesso a um conteúdo de qualidade, que reflete o melhor que a indústria e a academia juntas puderam, até o presente momento, produzir e sistematizar, e espera-se que, com a efetiva adoção dos princípios contidos no texto, se...

DIRETRIZES PARA GERENCIAMENTO DE MUDANÇA PARA SEGURANÇA DE PROCESSO

September, 2019
Este livro é destinado a um público que varia de instalação e gerentes corporativos de segurança de processo para os trabalhadores que têm diferentes níveis de conhecimento sobre os princípios de gestão da mudança com segurança. Este livro foi projetado para dotar as pessoas responsáveis por...

Modeling the Total Cost of Ownership for Scaling-Up via Modular Chemical Process Intensification

October 9, 2019
This project represents a collaboration between the RAPID Module Manufacturing Focus Area (MMFA) and the Construction Industry Institute, within the Cockrell School of Engineering at the University of Texas at Austin. The research objective is to model the total cost of ownership (TCO) for scaling up via modular chemical process intensification (MCPI) and apply this model to four RAPID projects over the remaining course of the effort.
Module Manufacturing
Oregon State University
University of Texas at Austin

Deploying Intensified, Automated, Mobile, Operable, and Novel Designs "DIAMOND" For Treating Shale Gas Wastewater

October 9, 2019
One of the key technology gaps identified in the RAPID roadmap was to develop design tools and practices that would reduce the need for non-recurring engineering design costs in modular applications. This project is focused on developing integrated design and operating approaches for modular systems that can be deployed in the treatment of flowback and produced water resulting from shale gas production. Because of the highly distributed nature and variable characteristics of shale-gas wastewater (SGWW), there is a unique opportunity to deploy modular systems.
Module Manufacturing
Texas A&M University
University of Pittsburgh
University of Texas at Austin
US Clean Water Technology
5

On Demand Treatment of Wastewater Using 3D-Printed Membrane

October 9, 2019
This project will demonstrate on-demand separation of multicomponent and multiphase water-oil mixtures using 3D-printed membranes. It is focused on wastewater treatment that is critical to the chemical industry. Application and adoption of intensified process design and 3D-printed membranes offers the prospect of revolutionizing the multicomponent and multiphase water-oil separation.
Module Manufacturing
University of Pittsburgh
Siemens
Lubrizol
4

Bob Miller

Bob Miller is Vice President of yet2, a global Open Innovation services provider specializing in connecting organizations having technology needs with those having solutions…and vice-versa.  Accomplished in technology scouting, technology licensing, analysis/valuation and deal facilitation, Bob currently leads the company’s Technology Monetization practice.

Bob has held global business and commercial development positions in large polymer, materials, and specialty chemicals companies such as W. R. Grace/Hampshire Chemical, The Dow Chemical Company and smaller companies...Read more

Modular Catalytic Partial Oxidation Reactors Using Microstructured Catalyst Structures with Combined High Thermal Conductivity and Flame Extinction Capacity to Enhance Process Safety Margins and Enable High Per Pass Conversion and High Selectivity

October 9, 2019
This project looks to use IntraMicron’s platform technology of microfibrous entrapped catalysts (MFEC) to create a safer and more efficient process for the production of ethylene oxide (EO). Ethylene oxide is produced via the exothermic reaction of oxygen with ethylene. Because of the poor heat transfer and flow distribution in current packed bed reactors, hotspots form in the bed, resulting in poor selectivity. To mitigate these issues, EO processes are typically operated with sub-stoichiometric oxygen concentrations resulting in only a 10-12% ethylene conversion per pass.
Intensified Process Fundamentals
Auburn University
University of South Carolina
IntraMicron
3

Faculty Candidates in CoMSEF/Area 1a

October 8, 2019
Monday, November 11, 2019,
8:00am to 10:30am
EST
This session highlights outstanding faculty candidates with research interests related to thermodynamics and computational molecular science and engineering.Read more

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