Organization environment

Centre European Des SUicones (CES), Proceedings of the Joint American European MeetingAnal Quest. Concern. Si-Organ. Environ., Washington, D.C., 1993. [Pg.68]

In both aqueous and organic environments the crack velocity is related to the instantaneous stress intensity factor, as shown in Fig. 8.53. Three regions may be observed I, II and III. Regions I and III are not always observed and the specific relationship observed depends upon the alloy composition and heat treatment, the environmental composition and the experimental conditions. ... [Pg.1266]

Homeostasis involves maintaining a relatively constant intracellular and intra-organ environment despite wide flucmations in the external environment via appropriate changes in the rates of biochemical reactions in response to physiologic need. [Pg.79]

Standley LJ, TL Bott (1998) Trifluoroacetate, an atmospheric breakdown product of hydrofluorocarbon refrigerants biomolecular fate in aquatic organisms. Environ Sci Technol 32 469-475. [Pg.47]

Berends AG, JC Bouttonet, CG de Rooij, RS Thompson (1999) Toxicity of trifluoroacetate to aquatic organisms. Environ Toxicol Chem 18 1053-1059. [Pg.382]

After polymerization took place an additional EPR signal located at g = 2.002 was observed. This signal can be assigned to Ti + centers within an organic environment [142,143]. This result points towards a change of the chemical environment of the Ti center at the interface during polymerization. The signal intensity and width varies considerably from preparation to preparation, but there is no simple correlation of these quantities with the activity. [Pg.143]

Farrington JW. 1991. Biogeochemical processes governing exposure and uptake of organic pollutant compounds in aquatic organisms. Environ Health Perspect 90 75-84. [Pg.174]

To prepare an oil-based cement, the cement is suspended in hydrocarbons instead of water. In this organic environment, no setting takes place and the cement particles remain fine. Therefore they may penetrate into small pores. The setting starts when the cement particles come in contact with water. This takes place in the formation. Oil-based cements are mainly used as plugging cements and squeeze cements. [Pg.132]

Michelson, D.L., Wallis, D.A., and Sebba, R, In-situ biological oxidation of hazardous organics, Environ. Prog., 3, 103-107, 1984. [Pg.587]

Ahel M, McEvoy J, Giger W (1993) Bioaccumulation of the lipophilic metabolites of nonionic surfactants in fresh-water organisms. Environ Pollut 79 243-248... [Pg.104]

DeFoe DL, Holcombe GW, Hammermeister DE, Beisinger KE (1990) Solubility and toxicity of eight phthalate esters to four aquatic organisms. Environ Toxicol Chem 9 623-636... [Pg.134]

Adams WJ, Biddinger GR, Robillard KA, Gorsuch JW (1995) A summary of the acute toxicity of 14 phthalate-esters to representative aquatic organisms. Environ Toxicol Chem 14 1569-1574... [Pg.134]

Brasquet, C., Roussy, J., Subrenat, E. and Le Cloirec, P., Adsorption and selectivity of activated carbon fibers application to organics, Environ. Technol., 1996, 17(11), 1245 1252. [Pg.138]

Brent, R.N. and E.E. Herricks. 1998. Postexposure effects of brief cadmium, zinc, and phenol exposures on freshwater organisms. Environ. Toxicol. Chem. 17 2091-2099. [Pg.69]

Siriwardena, P.P.G.S.N., K.J. Rana, and D.J. Baird. 1995. A method for partitioning cadmium bioaccumulated in small aquatic organisms. Environ. Toxicol. Chem. 14 1575-1577. [Pg.76]

Connell, D.B., J.G. Sanders, G.F. Riedel, and G.R. Abbe. 1991. Pathways of silver uptake and trophic transfer in estuarine organisms. Environ. Sci. Technol. 25 921-924. [Pg.575]

Erickson, R.J., L.T. Brooke, M.D. Kahl, F.V. Venter, S.L. Harting, T.P. Markee, and R.L. Spehar. 1998. Effects of laboratory test conditions on the toxicity of silver to aquatic organisms. Environ. Toxicol. Chem. 17 572-578. [Pg.576]

Miura, T. and R.M. Takahashi. 1974. Insect developmental inhibitors. Effects of candidate mosquito control agents on nontarget aquatic organisms. Environ. Entomol. 3 631-636. [Pg.1020]

Miller, R.A., L.A. Norris, and C.L. Hawkes. 1973. Toxicity of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) in aquatic organisms. Environ. Health Perspec. 5 177-186. [Pg.1063]

Barron, M.G. 1990, Bioconcentration Will water-borne organic chemicals accumulate in aquatic organisms. Environ. Sci. Technol. 24 1612-1618. [Pg.24]

Figure 1.33 Magneto-controlled on ofP switching of microperoxidase-11-catalyzed reduction of cumene hydroperoxide in an organic environment. (Reprinted with permission from Ref [166]. 2000 American Chemical Society.)...

Hobbs, M.S., Grippo, R.S., Farris, J.L., Griffin, B.R., and Harding, L.L. Comparitive acute toxicity of potassium permanganate to nontarget aquatic organisms, Environ. Toxicol. Chem., 25(ll) 3046-3052, 2006. [Pg.1669]

Mayer, F.L., Jr. and Sanders, H.O. Toxicology of phthalate acid esters in aquatic organisms. Environ. HealthPerspect, 3 153-157,1973. [Pg.1694]

The enhancement of kerosene dissolution occurs even at low humic acid content in the aqueous solution. In view of the fact that humic substances are relatively high molecular weight species containing nonpolar organic moieties, Chiou et al. (1986) assumed that a partition-like interaction between a solute of very low solubility in aqueous solution and a microscopic organic environment of dissolved humic molecules can explain solute solubility enhancement. [Pg.140]

Zweidinger, R. B., R. K. Stevens, C. W. Lewis, and H. Westburg, Identification of Volatile Hydrocarbons as Mobile Source Tracers for Fine-Particulate Organics, Environ. Sci. Technol., 24, 538-542 (1990). [Pg.435]

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