Edison / Geneva / Cincinnati / Boca Raton / Newark / New York / Washington / DC / Bajpai / Amsterdam / Robbins / Lyon / London / San Diego / Fendorf / Wiley / /
Company
DuPont Company / Matsuda / Cherokee Co. / Rohrzucker durch Sa / CRC Press / McGraw-Hill / F. Muller & Co. / Ford / Ni and Co / /
Country
France / / /
Event
Reorganization / Product Issues / /
Facility
Prentice Hall / Plant Anal / Center Hill Avenue / /
IndustryTerm
metal precipitation / energy barrier / chemical safety / multinuclear metal-ion complexes / mixed metal / metal adsorption kinetics / stable metal precipitates / metal oxides / less energy requirements / free energy / pure metal hydroxide phase / metal sorption kinetics / energy barrier increases / metal carbonate / heterogeneous systems / metal refineries / chemical reaction processes / metal precipitation reactions / metal surface / aqueous solution / parabolic rate law / metal sorption / metal uptake / energy / elementary solution / chemical reactions / mineral systems / Activation energy values / reactive site / thermodynamic solubility product / pure and mixed systems / layered singleand double-metal hydroxide precipitates / gas constant / energy requirement / heavy metal / metal precipitates / potential energy surface / Chemical kinetics / aqueous solutions / typical metal-sorption behavior / soil chemical processes / activation energy / metal hydroxide precipitates / metal hydroxides / /
Organization
World Health Organization / Univ. of Delaware / USDA / National Risk Management Research Lab. / Environmental Protection Agency / /
Person
Donald L. Sparks / C.J. Chisholm-Brause / S.N. Towle / Kirk G. Scheckel / J.R. Bargar / Trivedi / G.E. Brown / Jr. / Barrow / G.A. Parks / Svante Arrhenius / /
Position
Ae⫺Ea/RT / Ea/RT / RT / H‡/RT / diffusion model / linear-isotherm model / ⌬G‡/RT / physical chemist / different diffusion model / /
Product
soil / /
ProvinceOrState
New Jersey / Ohio / S.K. / New York / Delaware / Florida / California / /