Kinetics of copper reduction by hydrogen from aquaeous solutions.

Hahn, Edmund Alexander Joachim

January 1963

The kinetics of the hydrogen reduction of aqueous cupric perchlorate and sulphate solutions were studied at 160°C and 5 to 10 atm hydrogen pressure. In sulphate solutions the observed rates were consistent with a rate law, derived from previously proposed mechanisms, that has the form [ Equations omitted ] The rate constants of the hydrogen activation steps of the reaction are represented by k₁and k₃ which reflect the activation rates by Cu'' and Cu' respectively and have the values 3.2 X 10¯³M¯¹sec¯¹ and 6.4 X 10¯²M¯¹sec¯¹ at 160°C. The ratios of the back- to net forward-reaction rate constants are k-₁/k₂ for the Cu'' activation step and k-₃/k₄ for the Cu' activation step. These have values of approximately 0.13 and 0.45 respectively at 160°C. In perchlorate solutions the rates were also consistent with the rate law applying to sulphate solutions if a necessary correction due to perchlorate decomposition was taken into account. In this system the second term of this rate law was found to be much smaller and more difficult to resolve. For the first term the value of k₁ was found to be 6.7 X 10¯³M¯¹sec¯¹ at 160°C and the value of k-₁/k₂ was 0.51. Exchange experiments with deuterium in place of hydrogen were also done. These gave rates consistent with previously proposed mechanisms, but in perchlorate solutions much higher exchange rates were observed than in sulphate solutions. The indicated value of k₃ is approximately the same in perchlorate as in sulphate solutions and the indicated value of k-₃/k₄ is much greater in perchlorate solutions. / Applied Science, Faculty of / Materials Engineering, Department of / Graduate

Solution (Chemistry)

Chemical kinetics

Copper

Hydrogen

Kinetics of the reaction between hydrazobenzene and iodine in aqueous ethanol solutions

May, John Walter

January 1959

The kinetics of the oxidation of hydrazobenzene by iodine in buffered ethanol-water solutions were studied between 0°C. and 25°C. A measurable rate was obtained by depressing the iodine concentration by the addition of excess iodide, so that most of the iodine was transformed to triiodide. The effects of initial concentrations, acidity, solvent composition and buffer ionic strength were determined, as well as that of adding quinone and several metal salts. Both iodine and triiodide were found to oxidize hydrazobenzene, but iodine Is about 100,000 times more reactive than triiodide. [formula omitted] The kinetics suggest that both reactions have a simple bimolecular mechanism, expressed by the rate law [formula omitted] The constants k₁ and k₂ were evaluated in 60 volume per cent ethanol and buffer ionic strength 0.31 as [formula omitted] In connection with this work it was found necessary to evaluate the equilibrium constant of formation of triiodide in the solvents used. The heat and entropy of formation from iodine and iodide in 60 volume per cent ethanol were found to be -9.5 ± 0.5 kcal.mol.⁻¹ and -13.2 e.u. respectively. / Science, Faculty of / Chemistry, Department of / Graduate

Chemistry, Physical and theoretical.

Chemistry, Organic.

Chemical kinetics.

Kinetic studies of vitamin B6 metabolism in humans

Van der Westhuizen, Christian Abraham

24 February 2006

The primal aim of this thesis was to establish whether kinetic aspects of vitamin B6 metabolism predispose to earlier observed racial differences found in plasma pyridoxal-5'-phosphate (PLP). The active forms of vitamin B6 namely plasma PLP and pyridoxal (PL) as well as the three enzymes expressed in the erythrocyte involved in B6 metabolism, PL kinase, PLP phosphatase and pyridoxamine -5'- phosphate (pyridoxine -5'- phosphate) [PMP(PNP) ] oxidase were measured by high performance liquid chromatography. Phase one supported earlier experimental evidence and lower plasma PLP concentrations were found in blacks in a group of200 male volunteers recruited from the South African National Defence Force (SANDF). The respective enzyme activities involved in vitamin B6 metabolism, from the same test subjects, suggested similar PLP production from PMP and PL as well as PLP dephosphorylation which result in the release of PL into the circulating fluid. Since applied exclusion criteria eliminated the majority of biochemical, physiological, genetical - and disease related factors that influence vit B6 status, dietary factors and individual preferences regarding food intake, were most likely to be responsible for the significantly lower circulating plasma PLP encountered in blacks. Phase two compared pharmacokinetic parameters between 7 black - and 9 white test subjects recruited from the South African Police Services after a single 10 mg oral supplement ofpyridoxine hydrochloride. Statistical analysis of the parameters elimination half-life, elimination rate constant, clearance, volume of distribution, mean residence time, maximum peak concentration and time to maximum peak concentration failed to demonstrate any significant differences between the two groups. These results suggest consistent appearance rate, distribution and metabolism for the metabolites PLP and PL in the study population. A tendency in slower appearance rate, for both the metabolites PLP and PL, were observed in blacks and needs to be investigated further. The end product of vitamin B6 metabolism, 4-pyridoxic acid, which was expressed in terms of 24 hour urine volume, again failed to illustrate any significant differences between blacks and whites. These results suggested similar excretion properties in my population study. Furthermore, the pharmacokinetic parameters calculated for plasma PLP and PL respectively, were found to display one-compartment - and two-compartment pharmacokinetic model characteristics. This mono- and bi exponential elimination characteristics displayed by PLP and PL respectively could be of value in future research efforts in terms of sampling time. The distribution half-life can be determined by the calculation of two-compartment macro-rate constants. Fasting blood-samples should be collected when true baseline values are needed in the case of PL. Following vit B6 supplementation, one should allow at least 5 times the distribution half-life (5-6 hr in the case of PL) before blood-sampling in order to achieve true pharmacological response. Phase three of this study was conducted to illustrate the metabolic interplay ofthe enzymes PL kinase and PMP (PNP) oxidase involved in PLP production. The kinetic parameters, Michaelis- Menten constant and maximum velocity rate, at varying substrate concentrations, for the enzymes PL kinase and PMP (PNP) oxidase, were compared in 14 white - and 14 black male test subjects recruited from the SANDF. Both the average Michaelis-Menten constant and maximum velocity rate were higher in whites, but these differences were not statistically significant. The high individual variability for both parameters calculated, can possibly be ruled out if a crystalline enzyme form is used and should be investigated further. / Dissertation (MSc (Chemical Pathology))--University of Pretoria, 2001. / Chemical Pathology / unrestricted

Vitamin b6

Metabolism

Chemical kinetics

UCTD

Laser induced hydroxyl radical fluoresence at atmospheric pressure

Chan, Cornelius Yuk-kwan

01 January 1982

Laser Induced Fluorescence (LIF) is one of the chief methods for detecting ambient hydroxyl radicals. To measure the absolute concentration of this important atmospheric chemical species, accurately known quenching rate constants due to the dominant gases in the air are of paramount importance. Unfortunately, these rate constants have only been measured under conditions remote from those of ambient air. This dissertation reports the measurement of the rate constants of water, argon, nitrogen and oxygen under ambient conditions. As the LIF is carried out at atmospheric pressure, the OH fluorescence life-time becomes extremely short (about 1 ns). Time Correlated Photon Counting was used to study this short fluorescence phenomenon. The unique feature this study was that the deactivation processes of the excited OH could be described completely by a kinetic model. Detailed theoretical treatments of the LIF processes are presented. The data obtained are consistent with the accepted model, thereby demonstrating the usefulness and validity of the experimental approach. The rate constants (cc molecule('-1) sec('-1)) for quenching by water and argon were accurately measured. The vibrational relaxation rate constant by water (3.4 (+OR-) 0.6 x 10('-10)) is the first value ever reported, while the electronic quenching rate constants for water (k(,Q0) = 7.9 (+OR-) 0.47 x 10('-10), k(,Q1) = 1.48 (+OR-) 0.74 x 10('-10)) are the first measured at atmospheric pressure. The electronic quenching rate constants of the ('2)(SIGMA)(v' = 1) state (k(,Q1)) and the ('2)(SIGMA)(v' = 0) state (k(,Q0)) by argon are k(,Q0) = 0.48 (+OR-) 0.14 x 10('-12) and k(,Q1) = 0.24 (+OR-) 0.06 x 10('-11). The vibrational relaxation rate constant by argon is k(,10) = 0.34 (+OR-) 0.06 x 10('-11). The rate constants for oxygen (k(,Q1) (+OR-) k(,10) = 1.83 (+OR-) 0.43 x 10('-9) and k(,Q0) = 2.6 (+OR-) 0.6 x 10('-10)) are significantly higher than the limited measurements available at low pressure. The rate constants for nitrogen are k(,Q0) = 0.71 (+OR-) 0.08 x 10('-11) and k(,10) = 8.07 (+OR-) 0.65 x 10('-11). All these values are the first obtained at atmospheric pressure and although shown to be consistent with the widely scattered low pressure values, they allow more reliable analysis of ambient OH measurements, and result in a 31.2% increase in the published values.

Pure sciences

Chemical kinetics

Hydroxyl group

Fluorescence

Chemical reaction and interphase mass transfer in gas fluidized beds.

Chaverie, Claude.

January 1973

No description available.

Mass transfer

Chemical kinetics.

Fluidized reactors

A study of free radical processes in the chemical shock tube /

Lee, William Edward

January 1959

No description available.

Chemistry

Chemical kinetics

Shock tubes

Radicals

A thermodynamic analysis of the critical properties of hydrocarbon mixtures /

Hissong, Doug

January 1968

No description available.

Engineering

Chemical kinetics

Hydrocarbons

Thermodynamics

Critical point

Turbulent mixing with chemical reaction /

McKelvey, Kenneth Norwood

January 1968

No description available.

Engineering

Mixing

Chemical kinetics

Turbulence

Chemical reactors

Fundamental Experimental Tests and Modeling of LOx/CH4 Engines at High Pressures

Baker, Jessica

01 January 2024

In recent years, the space travel industry has grown exponentially, resulting in the need for a low-cost, efficient rocket engine fuel. As such, there has been renewed interest in utilizing liquid natural gas (LNG) as it is less likely to soot than kerosene-based fuels and has widespread availability and low cost of use as compared to the traditional RP-X and even liquid methane (LCH4) fuels due to the reduced need for refinement. However, current literature does not fully cover varying blends of natural gas and the effects that impurities have on natural gas/methane fuels, with most studies being confined to low-pressure applications. Therefore, new experimental ignition delay time measurements at rocket engine relevant pressures are essential to ensure current chemical kinetic models capture the ignition behavior at these elevated conditions and to determine the optimal purity levels for a reliable, cost-efficient, aerospace-grade LCH4/LNG fuel. The current work explores various blends of natural gas/methane fuel with various impurities, including higher hydrocarbons as well as nitrogen-carriers. A shock tube study was carried out to study the ignition delay times and carbon monoxide time histories of these natural gas blends utilizing chemiluminescence and laser absorption spectroscopy at 20, 50 and 100 atm over temperatures ranging from 1400-1700 K and at an equivalence ratio of 1. The experimental data was then compared to two different chemical kinetic mechanisms: the industry-standard GRI 3.0 and the in-house UCF 2022. The data is used to improve chemical kinetic mechanisms and modeling of LNG fuels for rocket engine applications.

combustion

chemical kinetics

natural gas

methane

Kinetics and Mechanisms of Ligand Exchange Reactions of Chelate Complexes

Cortés, José E. (José Enrique)

05 1900

Certain ligand substitution reactions proceed to a complete displacement of the chelate ligand. Certain reactions proceed through a mechanism involving an initial fission of the tungsten-sulfur bond to afford a coordinatively-unsaturated intermediate which is rapidly attacked by chlorobenzene. The resulting solvated intermediate establishes an equilibrium which involves desolvation-solvation. Although main group organometallic chemistry has received a great deal of attention, this discussion will be centered in organotransition metal chemistry, in particular, metal carbonyls.

exchange reactions

chemical kinetics

ligands

organometallic compounds

Ligands.

Chelates.

Exchange reactions.

Chemical kinetics.