Engineering research centers

B. H. Daugherty, Ph.D., Consulting Engineer, Research Center, Reliance Electric Company Member, Institute of Electrical and Electronics Engineers (Section 29, Process Macliinery Drives)... 

The authors would like to thank Pascal Deprez, Martial Deruelle, David P. Smith, Matthew Tirrell, Alphonsus V. Pocius, and Frank S. Bates for their input on this subject over the course of the last several years. They would also like to thank 3M and the Center for Interfacial Engineering, a National Science Foundation sponsored engineering research center at the University of Minnesota, for financial support. 

The authors wish to express their appreciation to the Engineering Research Center of the University of Nebraska-Lincoln for financial support of this research. 

Centers and Academic-Industrial Consortia NSF Science and Technology Centers Engineering Research Centers... 

Cross-Disciplinary Research Engineering Research Centers 3,638... 

A variety of support mechanisms for carrying out such research could be envisioned that would include sponsorship of individttal research projects in academia or federal laboratories, where appropriate a DOE eqrrivalent of the NSF Engineering Research Centers, but with more cooperative involvement from industry and stimrrlation by DOE of industrial cortsortia both to carry out joint research among companies on nonproprietary topics and to support relevant research in academia. The... 

George Olsen and Thomas Jonas contributed substantially to the project. The financial support of the Engineering Research Center and Brunswick Defense is acknowledged. 

School of Chemical and Biological Engineering Research Center for Energy Conversion and Storage, Seoul National University, Seoul 151-744, Korea... 

Faculty of Applied Chemical Engineering, Research Center for Photonic Materials and Devices, Chonnam National University, 500-757 Gwangju, Korea... 

Ayers, D.M., Davis, A.P., and Gietka, P.M., Removing Heavy Metals from Wastewater, Report, University of Maryland, Engineering Research Center, 1994. 

The authors appreciate the financial support from the Engineering Research Center and from the Brunswick Corporation, Defense Division. 

Department of Chemical Engineering and BioProcess Engineering Research Center, Korea Advanced Institute of Science and Technology, 373-1 Kusong-dong, Yusong-gu, Taejon 305-701, Korea,... 

National Inst, of Adv. Industrial Sci. Tech. (AIST), Tissue Engineering Research Center... 

Qian Dong-Jin National Inst, of Adv. Industrial Sci. Tech. (AIST), Tissue Engineering Research Center AIST Kansai, Amagasaki Site, 3-11-46 Nakoji, Amagasaki, Hyogo 661-0974, Japan +81-6-6494-7803 dongjin-sen aist.go.jp... 

Engineering prototypes, stereolithographic generation of, 19 117-118 Engineering Research Centers (ERC), 24 395... 

Millennium Pharmaceuticals, Inc., Cambridge, Massachusetts 02142 and tBioMolecular Engineering Research Center, College of Engineering, Boston University, Boston, Massachusetts 02215... 

A new large pit was constructed at the Agronomy-Agricultural Engineering Research Center with two thicknesses of 6-mil black polyethylene plastic film as a liner. More intensive research was conducted in 56 plastic mlniplts to evaluate chemical interactions, degradation, and biological activity (2). 

The work described here was financially supported by the Advanced Combustion Engineering Research Center (funded by NSF, the State of Utah, 23 industrial participants, and US DOE). 

Engineering Research Center, AT T, Box 900, Princeton, NJ 08540 AT T Bell Laboratories, Whippany, NJ 07981... 

He received his Ph.D. from Cornell University in 1974 and worked on semiconductor manufacturing techniques at the Engineering Research Center of Western Electric Co. until 1976. He then spent a year as a director s postdoctoral staff member at Los Alamos National Laboratory and moved to Madison as an assistant professor in 1977. He was chair of the department from 1995 to 1998, and is currently chair of the Committee on Professional Training of the American Chemical Society. His research in chemical reaction dynamics uses lasers to explore and control the course of chemical reactions in both gases and liquids. He is a member of the National Academy of Sciences. 

Particle Engineering Research Center and Materials Science and Engineering,... 

Western Electric Co., Inc., Engineering Research Center, Princeton, NJ 08540... 

BioProcess Engineering Research Center and 2Department of BioSystems and Bioinformatics Research Center ... 

Fig. 9.20 Cross sections obtained from cooling experiments of a 2.5-in-diameter 26.5 length-to-diameter ratio screw extruder. Material rigid PVC. Operating conditions are listed in the figure Tb is the barrel temperature, N the screw speed, P the pressure at the die, and G the mass flow rate. Numbers denote turns from the beginning (hopper side) of the screw. The screw was of a metering type with a 12.5 turn feed section 0.37 in deep, a 9.5 turn transition section, and a 4.5 turn metering section 0.127 in deep. [Reprinted by permission from Z. Tadmor and I. Klein, Engineering Principles of Plasticaling Extrusion, Van Nostrand Reinhold, New York, 1970. The experiments were carried out at the Western Electric Engineering Research Center, Princeton, NJ.]...

Fig. 9.37 Simulated and measured pressure profiles for an LDPE extruded in a 2.5-in-diameter, 26.5 length-to-diameter ratio extruder, with a metering-type screw having 12.5 feed section with channel depth of 0.37 in and 4.5 turns of metering section of depth of 0.1275. The flow rate is 136 lb/h, the screw speed 60 rpm, and the barrel temperature was set at 300°F. The SBP is shown in Fig. 9.24. The screw geometry is shown at the top of the figure. Simulation was carried out by the first computer simulation package for plasticating extrusion developed by the Western Electric Princeton Engineering Research Center team (17). [Reprinted by permission from Z. Tadmor and I. Klein, Engineering Principles of Plasticating Extrusion, Van Nostrand Reinhold, New York, 1970.]...

Fig. 14.11 Schematic representation of fiber spinning process simulation scheme showing the multiple scale simulation analysis down to the molecular level. This is the goal of the Clemson University-MIT NSF Engineering Research Center for Advanced Engineering Fibers and Films (CAEFF) collaboration. CAEFF researchers are addressing fiber and film forming and structuring by creating a multiscale model that can be used to predict optimal combinations of materials and manufacturing conditions, for these and other processes.

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