Kinetic studies of the dissolution of copper in ferric chloride solutions

Brooks, Robert Evans

08 1900

No description available.

Chemistry Theses

Copper

Ferric chloride

Chemical reactions

Kinetics of the reactions of active nitrogen with methyl chloride and ethylene.

Brown, George Ronald.

January 1970

No description available.

Active nitrogen

Methyl chloride.

Ethylene

Chemical kinetics.

The removal of color-causing organic substances from low alkalinity waters by coagulation with heavy metal hydrolyzing compounds.

Beaudry, Jean-Paul

January 1973

No description available.

Water -- Purification

Coagulation

Hydrolysis

Ferric chloride.

Thermal degradation of poly (vinyl chloride).

Gupta, Ved Prakash.

January 1970

No description available.

Polymers.

Polyvinyl chloride

Polymers -- Thermal properties.

Metakaolin Effects on Concrete Durability

Zeljkovic, J. Michael

18 February 2010

Partial replacement of cement by metakaolin is known to improve concrete durability, by refining the pore structure to improve fluid transport properties and by reducing the alkalinity of the pore solution to make ASR less problematic. A gap exists in the literature as to the salt scaling performance and magnesium sulphate performance of metakaolin concrete. 10 concrete mixes were cast at w/cm ratios of 0.4 and 0.5. In addition to metakaolin, grade 80 slag was used as well as CSA GU cement. All replacement levels were tested for setting properties, compressive strength, drying shrinkage, sulphate resistance, salt scaling, ASR mitigation and chloride diffusion characteristics according to the appropriate CSA and ASTM standards. It was found that metakaolin showed better performance in magnesium sulphate solutions than slag and that metakaolin concretes attained strength and other durability properties much faster than mixes without it. Keywords: metakaolin, ASR, sulphate, magnesium, scaling, setting, diffusion

Metakaolin

Sulphate Attack

Chloride

ASR

0543

Characterization of a macrocyclic lactone receptor subunit from Haemonchus contortus

Forrester, Sean Geritt

January 2002

Glutamate-gated chloride channels (GluCls) are the proposed site of action for macrocyclic lactone anthelminthics, such as IVM, and the milbemycins, such as MOX. The objective of this thesis was to determine whether Haemonchus contortus GluCls are important targets for these anthelminthics. To begin to address this we cloned a full length GluCl alpha-subunit cDNA from H. contortus (HcGluCla). This subunit shares a high homology with GluCl subunits from Caenhorhabditis elegans that have been shown to be important targets for IVM, suggesting that HcGluCla is also an IVM target. However, if HcGluCla is an IVM receptor then it should contain an IVM binding site. To investigate this, the HcGluCla gene was expressed in COS-7 cells. The resulting subunit bound [3H]IVM and [ 3H]MOX with affinities sufficiently high enough to explain their high in vivo potency. Interestingly, glutamate was an allosteric modulator of [ 3H]MOX and [3H]IVM binding where it increased the affinity of these drugs to HcGluCla. To gain further insight into the potentiation of IVM, various glutamatergic and non-glutamatergic ligands were screened for their ability to enhance [3H]IVM binding to HcGluCla. Of the ligands tested, only the GluCl agonists glutamate and ibotenate potentiated [3H]IVM binding. It is possible therefore that if IVM interacts with GluCls in vivo then IVM efficacy may be enhanced by GluCl agonists. To examine this, we tested whether ibotenate could enhance IVM efficacy in gerbils infected with H. contortus. In in vivo efficacy studies, ibotenate (at 1 mg/kg) increased IVM efficacy by 15% (p = 0.048). The enhancement of IVM efficacy in vivo by a GluCl agonist suggests that one of the IVM targets in H. contortus is the GluCl. Finally, to determine the potential physiological response from an interaction between IVM and H. contortus GluCls, we expressed HcGluCla in Xenopus oocytes. HcGluCla expressed in oocytes formed a homomeric channel that responded to

Haemonchus contortus.

Chloride channels.

Ivermectin.

Drug resistance.

Thermal desorption techniques for the analysis of trace level VOC's in landfill gas

Allen, Matthew Robert

January 1998

No description available.

628.53

CFC's; Vinyl chloride; Mass spectrometry

Characterization of Reductive Dehalogenases in a Chlorinated Ethene-degrading Bioaugmentation Culture

Chan, Winnie Wing Man

06 April 2010

Perchloroethene and trichloroethene are among the most persistent groundwater pollutants, and Dehalococcoides is the only known species that can degrade these compounds completely to non-toxic ethene. Characterization of the reductive dehalogenase (RDase) enzymes responsible for dechlorination is important to understanding this process. A series of dechlorination assays were performed with whole cell suspensions and cell-free extracts of three Dehalococcoides-containing mixed microbial consortia to compare dechlorination kinetics and to characterize co-contaminant inhibition. Michaelis-Menten kinetic parameters Vmax and Km, as well as non-competitive inhibition coefficients for 1,1,1-trichloroethane and 1,1-dichloroethane inhibitors are reported. Secondly, blue native gel electrophoresis was developed as a method to isolate active protein complexes containing RDases. Thirdly, sources of variability in the isotopic fractionation of vinyl chloride to ethene reaction step were examined using cell-free extracts and whole-cell suspensions. Understanding the function and range of RDases are goals towards the successful application of Dehalococcoides-containing cultures to remediate contaminated sites.

Bioremediation

Trichloroethene

Vinyl chloride

Dehalococcoides

0542

0410

Saprolite Leaching and Iron Control in Concentrated Magnesium Chloride Brines

Duffy, Douglass

11 July 2013

MgCl2 brines present a number of potential advantages for the processing of saprolite ores for nickel production. Concentrated MgCl2 solutions enhance the activity of acid used, allow atmospheric leaching at elevated temperature and inhibit magnesium dissolution, which reduces acid consumption and increases metal selectivity. However, with a chloride system it is economically requisite to recover hydrochloric acid, conventionally accomplished by pyrohydrolysis. This work was performed in conjunction with a novel flowsheet for the processing on saprolite ores, which recovers HCl by the precipitation and subsequent decomposition of magnesium hydroxychlorides, alleviating some of the issues with pyrohydrolysis. Leaching and iron control experiments have been conducted in concentrated MgCl2 brines, up to 4.5 m, to determine the most amenable process conditions. It was determined that > 95% extraction of metals was possible using both aqueous and gaseous HCl. In addition, the feasibility of iron control by precipitation with MgO addition was proven.

Saprolite

Magnesium Chloride

Atmospheric Leaching

Nickel

0542

Characterization of Reductive Dehalogenases in a Chlorinated Ethene-degrading Bioaugmentation Culture

Chan, Winnie Wing Man

06 April 2010

Perchloroethene and trichloroethene are among the most persistent groundwater pollutants, and Dehalococcoides is the only known species that can degrade these compounds completely to non-toxic ethene. Characterization of the reductive dehalogenase (RDase) enzymes responsible for dechlorination is important to understanding this process. A series of dechlorination assays were performed with whole cell suspensions and cell-free extracts of three Dehalococcoides-containing mixed microbial consortia to compare dechlorination kinetics and to characterize co-contaminant inhibition. Michaelis-Menten kinetic parameters Vmax and Km, as well as non-competitive inhibition coefficients for 1,1,1-trichloroethane and 1,1-dichloroethane inhibitors are reported. Secondly, blue native gel electrophoresis was developed as a method to isolate active protein complexes containing RDases. Thirdly, sources of variability in the isotopic fractionation of vinyl chloride to ethene reaction step were examined using cell-free extracts and whole-cell suspensions. Understanding the function and range of RDases are goals towards the successful application of Dehalococcoides-containing cultures to remediate contaminated sites.

Bioremediation

Trichloroethene

Vinyl chloride

Dehalococcoides

0542

0410