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W221363054 abstract "With the growing scarcity of water resources and increasing demand in energy, research efforts in effective water treatment and liquid waste management have been expanding steadily. The ability of UV light present in various electric discharges to disinfect water makes the use of plasma based technologies an effective alternative to the traditional methods like reverse-osmosis, distillation, etc. The interaction of plasmas with liquids has been a subject of current research and the present thesis includes both experimental and theoretical work done to better understand the physics of contact glow discharge electrolysis applied to waste water treatment. Other aspects of the interaction between electric fields and electrolytes have also been analyzed in this work. For instance, electric double layer theory has been used to model the interaction between electric field and liquid waste close to the solid surface incorporating joule heating and evaporation. The presence of the electric field results in a coupling of the momentum, energy, and mass transfer equations which are solved simultaneously with the Poisson-Boltzmann equation that describes the electric potential distribution. The results show that the rate of evaporation at the air-liquid interface is a strong function of the applied electric field and bulk ion-concentration.Temperature patterns observed in electrolytic cell experiments has been explained using buoyancy-driven flow model. As the heating element does not extend along the entire axial length of the cylindrical tank, this configuration displays very particular vortex patterns inside the cell and divides the domain into two regions of different temperatures.To model electrohydrodynamics accurately, boundary conditions for Navier-Stokes equations are revisited and a new formulation has been proposed to numerically solve the Navier-Stokes equations. The proposed formulation is particularly suitable for transient problems including start-up problems. In addition, a novel projection scheme has been proposed which is coupled with Navier-Stokes algorithm to produce numerical solutions on non-staggered grids, which is 2$^{nd}$ order accurate in both space and time. The proposed projection scheme is also suitable for generating compatible initial data from given initial data at the start of any numerical simulation. The methodology developed can be adapted to study the dynamics of plasma based on a two-fluid formulation." @default.
W221363054 created "2016-06-24" @default.
W221363054 creator A5090151283 @default.
W221363054 date "2014-01-01" @default.
W221363054 modified "2023-09-27" @default.
W221363054 title "Contact glow discharge electrolysis for liquid waste processing" @default.
W221363054 cites W1513925740 @default.
W221363054 cites W1521454588 @default.
W221363054 cites W1580710173 @default.
W221363054 cites W1967848746 @default.
W221363054 cites W1972836252 @default.
W221363054 cites W1973148001 @default.
W221363054 cites W1974617541 @default.
W221363054 cites W1975255474 @default.
W221363054 cites W1978446170 @default.
W221363054 cites W1979499035 @default.
W221363054 cites W1980331683 @default.
W221363054 cites W1981372548 @default.
W221363054 cites W1983016294 @default.
W221363054 cites W1986423178 @default.
W221363054 cites W1993205689 @default.
W221363054 cites W1995349293 @default.
W221363054 cites W1998618139 @default.
W221363054 cites W1999265190 @default.
W221363054 cites W2002445855 @default.
W221363054 cites W2002574831 @default.
W221363054 cites W2004093845 @default.
W221363054 cites W2004356922 @default.
W221363054 cites W2005716268 @default.
W221363054 cites W2008805077 @default.
W221363054 cites W2014735608 @default.
W221363054 cites W2019673510 @default.
W221363054 cites W2020309973 @default.
W221363054 cites W2021041911 @default.
W221363054 cites W2021622572 @default.
W221363054 cites W2022206844 @default.
W221363054 cites W2026796856 @default.
W221363054 cites W2033748168 @default.
W221363054 cites W2034598676 @default.
W221363054 cites W2039812736 @default.
W221363054 cites W2043442484 @default.
W221363054 cites W2044036955 @default.
W221363054 cites W2047653361 @default.
W221363054 cites W2051160655 @default.
W221363054 cites W2052548157 @default.
W221363054 cites W2053437713 @default.
W221363054 cites W2059755284 @default.
W221363054 cites W2061385928 @default.
W221363054 cites W2063015890 @default.
W221363054 cites W2065274883 @default.
W221363054 cites W2067285326 @default.
W221363054 cites W2068599282 @default.
W221363054 cites W2071148915 @default.
W221363054 cites W2072013036 @default.
W221363054 cites W2073394870 @default.
W221363054 cites W2074888733 @default.
W221363054 cites W2075502353 @default.
W221363054 cites W2075581098 @default.
W221363054 cites W2082237252 @default.
W221363054 cites W2084908157 @default.
W221363054 cites W2087047507 @default.
W221363054 cites W2090335127 @default.
W221363054 cites W2093113067 @default.
W221363054 cites W2093670066 @default.
W221363054 cites W2112384369 @default.
W221363054 cites W2121609886 @default.
W221363054 cites W2124192278 @default.
W221363054 cites W2124756493 @default.
W221363054 cites W2129898915 @default.
W221363054 cites W2144320311 @default.
W221363054 cites W2145169366 @default.
W221363054 cites W2162639998 @default.
W221363054 cites W2170998484 @default.
W221363054 cites W2314734713 @default.
W221363054 cites W3133957666 @default.
W221363054 cites W572725144 @default.
W221363054 cites W1497079597 @default.
W221363054 cites W2055923566 @default.
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