Technology international

Anonymous, Food Packaging Technology International 1991, issue 4, ComhiU Pubhcations Ltd., London, 1991. [Pg.455]

J. Levins, in Glass Production Technology International, Sterling PubHcations Limited, London, 1992, pp. 47—50. [Pg.317]

Food Science and Technology International Food Information Data-Star, Dialog, Orbit, STN food science... [Pg.116]

G. Davis, Proceedings of the Second International Symposium on O ne Technology, International Ozone Association, Pan American Group, Stamford, Conn., 1975, p. 421. [Pg.506]

Eur. Pat. 216,635 (April 1, 1982), S. Berenyi (to Eusion Aided Combustion Technology International Corp.). [Pg.144]

R. Bakish, ed., "Electron and Ion Beam Science and Technology," International Conferences. [Pg.52]

Second International Symposium on Koofing Technology, International Union of Testing and Research Laboratories for Materials Stmctures, NBS, and NRCA, 1985. [Pg.217]

S. C. Che and co-workers. Report No. GRI-8710004 Kinetic Technology International Corp., Monrovia, Calif., 1987. [Pg.425]

H. S. Olsen, Food Technology International Europe 1988, Sterhng Pubhcations Limited, 1988, pp. 245—250. [Pg.305]

Isbell, W.M., Historical Overview of Hypervelocity Impact Diagnostic Technology, Internal. J. Impact Engrg. 5 (1-4), 389-410 (1987). [Pg.373]

W. Spalek, B. Bachman, and A. Winter, Hydrocarbon Technology International, Spring 117 (1995). [Pg.165]

Cabot-Stellite Carpenter Technology International Nickel Co. [Pg.23]

Dream Machines, Tire Technology International, 27 December, 2004. [Pg.933]

A.R. Williams, Tire Technology International Annual Issue, pp. 5-6, 2006. [Pg.1039]

G.S. Cmtchley and S.J. Choi, A study of nanoparticles and their use in tires. Tire Technology International Annual Issue, pp. 26-29, 2006. [Pg.1039]

Update section in Tire Technology International, p. 6 (March 2007). [Pg.1040]

Fig. 8. Dependence of (A) corrected diffusion coefficient (D), (B) steady-state fluorescence intensity, and (C) corrected number of particles in the observation volume (N) of Alexa488-coupled IFABP with urea concentration. The diffusion coefficient and number of particles data shown here are corrected for the effect of viscosity and refractive indices of the urea solutions as described in text. For steady-state fluorescence data the protein was excited at 488 nm using a PTI Alphascan fluorometer (Photon Technology International, South Brunswick, New Jersey). Emission spectra at different urea concentrations were recorded between 500 and 600 nm. A baseline control containing only buffer was subtracted from each spectrum. The area of the corrected spectrum was then plotted against denaturant concentrations to obtain the unfolding transition of the protein. Urea data monitored by steady-state fluorescence were fitted to a simple two-state model. Other experimental conditions are the same as in Figure 6.

$Fig. 8. Dependence of (A) corrected diffusion coefficient (D), (B) steady-state fluorescence intensity, and (C) corrected number of particles in the observation volume (N) of Alexa488-coupled IFABP with urea concentration. The diffusion coefficient and number of particles data shown here are corrected for the effect of viscosity and refractive indices of the urea solutions as described in text. For steady-state fluorescence data the protein was excited at 488 nm using a PTI Alphascan fluorometer (Photon Technology International, South Brunswick, New Jersey). Emission spectra at different urea concentrations were recorded between 500 and 600 nm. A baseline control containing only buffer was subtracted from each spectrum. The area of the corrected spectrum was then plotted against denaturant concentrations to obtain the unfolding transition of the protein. Urea data monitored by steady-state fluorescence were fitted to a simple two-state model. Other experimental conditions are the same as in Figure 6.$

Leistner, L. (2000) Basic aspects of food preservation by hurdle technology . International Journal of Food Microbiology, 55, 181-186. [Pg.451]

Janies S. Murday, National Research Laboratory Catherine J. Murphy, University of South Carolina James Y. Oldshue, Oldshue Technologies International, Inc. Thomas L. Netzel, Georgia State University Mark Nicholas, AstraZeneca International Tucker Norton, DuPont... [Pg.206]

Source Adapted from Qianlin, Z., GE Gasification, the best available Clean Coal Technology, International Forum on Cl Chemical Industry and Clean Coal Technology, Jun. 13-17, Shihezi, China, 2005. [Pg.113]

Eiki S., The Status of the EAGLE Project, Advanced Clean Coal Technology International Symposium 2006, Sep. 5, Tokyo, Japan, 2006. [Pg.125]

BUTACRACKING A process for converting iso-butanes to iso-butene, which can then be converted to gasoline-blending components such as methyl /-butyl ether. Developed by Kinetics Technology International. [Pg.46]

Chloroff A process for removing chlorine from organic chlorides such as polychlorinated biphenyls by reaction with hydrogen under pressure, over a proprietary catalyst. Developed by Kinetics Technology International. See also Hi-ChlorofiF. [Pg.64]

Relube A process for removing sulfur and chlorine compounds from waste oils, particularly those contaminated by polychlorinated biphenyls. Developed by Kinetics Technology International, The Netherlands, and operated first in Greece. [Pg.226]

Pikal, M. Freeze-drying of proteins. Part I Process design. Pharmaceutical Technology International, p. 37-43, 1991... [Pg.121]

Demirbas, A., Karshoglu, S., and Ayas, A. (1996). Hydrogen Resources Conversion of Black Liquor to Hydrogen Rich Gaseous Products, Fuel Science and Technology International 14(3). pp. 451-463. [Pg.140]

Tire Technology International Annual Review 2002, p.126-8 NON-LABELLED PROCESS OILS FOR THE TIRE AND RUBBER INDUSTRIES... [Pg.44]

Anonymous. Announcement for the Nara Institute of Science and Technology International Symposium Nanotechnology and biotechnology for future devices. Nara Institute of Science and Technology, Nara, Japan, 1998. [Pg.554]

R.P. Eilbert and K.D. Krug, Dual-energy x-ray scanner for detecting contraband, in Contraband and Cargo Inspection Technology International Symposium, 28—30 October 1992, Washington, DC, ONDCP and NIJ (1992) 209-217. [Pg.129]

Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...