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High-probability grants
According to our matching algorithm, Alan M. Lane is the likely recipient of the following grants.
Years |
Recipients |
Code |
Title / Keywords |
Matching score |
1993 — 1994 |
Lane, Alan |
N/AActivity Code Description: No activity code was retrieved: click on the grant title for more information |
Us-China Cooperative Research: Model of Jet Loop Reactor For Carbonyl Synthesis @ University of Alabama Tuscaloosa
9311365 Lane This award provides travel costs for an Assistant Professor at the University of Alabama to visit China and work with the Qingdao Institute of Chemical Technology on modelling jet loop reactors for carbonyl synthesis. This is an important issue in chemical technology which the Chinese have been working on, and for which they have developed a reactor. During the three-month visit by Dr. Lane, a computer simulation will be constructed of a jet loop reactor used to synthesize butyraldehydes from propene, carbon monoxide and hydrogen over a homogenous cobalt catalyst. This cooperative work on a challenging technical problem will also open up opportunities for future scientific cooperation with China. ***
|
0.902 |
2000 — 2001 |
Nikles, David (co-PI) [⬀] Lane, Alan Wiest, John [⬀] Visscher, Pieter |
N/AActivity Code Description: No activity code was retrieved: click on the grant title for more information |
Acquisition of Rheometer For Information Storage (Materials Research and Education) @ University of Alabama Tuscaloosa
This is an award to the University of Alabama Tuscaloosa for the acquisition of a Rheometrics ARES Rheometer. This instrument will be used by an interdisciplinary group of four investigators and their students in the Materials for Information Technology Center at the University of Alabama for a variety of research projects in the general area of advanced materials development and processing as related to information storage technology. The projects include (1) investigation of the microstructure and microstructure evolution of magnetic dispersions, so as to enable the revolutionary advances necessary for step increases in information storage capacity (2) exploration and characterization of the constitutive behavior of magnetic dispersions, so as to provide the enabling science for development of next generation coating processes, and (3) development of solventless, electron- beam-cured formulations that will eliminate the large release of volatile organic compounds typically associated with magnetic media manufacture. Knowledge of the rheological properties of the materials involved is critical to each of these projects. In addition, the rheometer will be used in an undergraduate chemical engineering course in conjunction with a laboratory demonstration module and a numerical analysis project to educate undergraduate engineers on the importance of non-Newtonian behavior in fluid processing operations.
This is an award to the University of Alabama Tuscaloosa for the acquisition of a Rheometrics ARES rheometer. This instrument will be used by an interdisciplinary group of four investigators and their students in the Materials for Information Technology Center at the University of Alabama for a variety of research projects in the general area of advanced materials development and processing as related to information storage technology. In addition, the rheometer will be used in an undergraduate chemical engineering course in conjunction with a laboratory demonstration module and a numerical analysis project to educate undergraduate engineers on the importance of non-Newtonian behavior in fluid processing operations.
|
0.902 |