D. Yogi Goswami scite author profile

Scientific research on photocatalytic oxidation of hazardous chemicals has been conducted extensively over the last three decades. Use of solar radiation in photocatalytic detoxification and disinfection has only been explored in the last decade. Developments of engineering scale systems, design methodologies, and commercial and industrial applications have occurred even more recently. A number of reactor concepts and designs including concentrating and nonconcentrating types and methods of catalyst deployment have been developed. Some commercial and industrial field tests of solar detoxification systems have been conducted. This paper reviews the engineering developments of the solar photocatalytic detoxification and disinfection processes, including system design methodologies.

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Photocatalytic Disinfection of Indoor Air

Goswami

Trivedi

Block

1997

106

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The present study demonstrated the antibacterial effect of photocatalytic oxidation in indoor air using titanium dioxide as the catalyst. Through a series of experiments, it was determined that titanium dioxide did enhance the inactivation rate of the microorganisms under certain conditions. In these experiments the air velocity, relative humidity, and UV (350 nm) intensity were varied. It was found that higher velocities retarded the destruction rate due to the low retention time in the reactor. TiO2 also did not accelerate the reaction at low humidities (30 percent). At a relative humidity of 50 percent, there was complete inactivation of the organisms, but at higher humidities (85 percent), 10 percent of the organisms were still viable. The experiments showed that at higher UV intensities, most of the inactivation was done by the UV photons. However, the photons were not able to completely inactivate the microorganisms. In the photocatalysis experiments there was complete inactivation of the bacteria.

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Enhanced photocatalytic disinfection of indoor air

Vohra

Goswami

Deshpande

et al. 2006

Applied Catalysis B: Environmental

155

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Bound states of edge dislocations: The quantum dipole problem in two dimensions

et al. 2010

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We investigate bound-state solutions of the two-dimensional Schrödinger equation with a dipole potential originating from the elastic effects of a single edge dislocation. The knowledge of these states could be useful for understanding a wide variety of physical systems, including superfluid behavior along dislocations in solid 4 He. We present a review of the results obtained by previous workers together with an improved variational estimate of the ground-state energy. We then numerically solve the eigenvalue problem and calculate the energy spectrum. In our dimensionless units, we find a ground-state energy of −0.139, which is lower than any previous estimate. We also make successful contact with the behavior of the energy spectrum as derived from semiclassical considerations.

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Enhanced photocatalytic inactivation of bacterial spores on surfaces in air

Vohra

Goswami

Deshpande

et al. 2005

J IND MICROBIOL BIOTECHNOL

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TiO(2) photocatalysis with ultraviolet (UV-A) light has proven to be a highly effective process for complete inactivation of airborne microbes. However, the overall efficiency of the technology needs to be improved to make it more attractive as a defense against bio-terrorism. The present research investigates the enhancement in the rate of destruction of bacterial spores on metal (aluminum) and fabric (polyester) substrates with metal (silver)-doped titanium dioxide and compares it to conventional photocatalysis (TiO(2) P25/+UV-A) and UV-A photolysis. Bacillus cereus bacterial spores were used as an index to demonstrate the enhanced disinfection efficiency. The results indicate complete inactivation of B. cereus spores with the enhanced photocatalyst. The enhanced spore destruction rate may be attributed to the highly oxidizing radicals generated by the doped TiO(2).

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A computationally efficient method for the design of the heliostat field for solar power tower plant

2014

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Optimal heliostat aiming strategy for uniform distribution of heat flux on the receiver of a solar power tower plant

Besarati

Goswami

Stefanakos

2014

Energy Conversion and Management

110

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D. Yogi Goswami

Study of an aqueous lithium chloride desiccant system: air dehumidification and desiccant regeneration

A Review of Engineering Developments of Aqueous Phase Solar Photocatalytic Detoxification and Disinfection Processes

Photocatalytic Disinfection of Indoor Air

Enhanced photocatalytic disinfection of indoor air

Bound states of edge dislocations: The quantum dipole problem in two dimensions

Enhanced photocatalytic inactivation of bacterial spores on surfaces in air

A computationally efficient method for the design of the heliostat field for solar power tower plant

Optimal heliostat aiming strategy for uniform distribution of heat flux on the receiver of a solar power tower plant

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