Add to ORKGA new method for design and scale-up of photocatalytic and thermocatalytic processes is disclosed. The method is based on optimizing photoprocess energetics by decoupling of the process energy efficiency from the DRE for target contaminants. The technique is applicable to photo-thermocatalytic reactor design and scale-up. At low irradiance levels, the method is based on the implementation of low pressure drop biopolymeric and synthetic polymeric support for titanium dioxide and other band-gap media. At high irradiance levels, the method utilizes multifunctional metal oxide aerogels and other media within a novel rotating fluidized particle bed reactor
The design and testing of a solar-powered fiber-optic cable reactor prototype for the photocatalytic...
Owing to the limited amount of energy sources and the recent effects of fossil fuel use on the globa...
An integral reactor design methodology was developed to address the optimal design of photocatalytic...
A new method for design and scale-up of photocatalytic and thermocatalytic processes is disclosed. T...
A new method for design and scale-up of thermocatalytic processes is disclosed. The method is based ...
A new method for design and scale-up of photocatalytic and thermocatalytic processes is disclosed. T...
A new apparatus for design and scale-up of photocatalytic and thermocatalytic processes is disclosed...
A new method for design and scale-up of photocatalytic and thermocatalytic processes is disclosed. T...
Apparatus for decontaminating a contaminated fluid by using photocatalytic particles. The apparatus ...
Methods of destroying toxic volatile air-borne toxins are disclosed. In a preferred embodiment, a pi...
Thermoplastic surface modification is achieved with photocatalysts, such as titanium dioxide, tungst...
Methods of destroying toxic volatile air-borne toxins are disclosed. In a preferred embodiment, a pi...
A new method for design and scale-up of thermocatalytic processes is disclosed. The method is based ...
A process for the in-situ transformation of chemical species present in the flue gas to form sulfur ...
A proposal for scaling-up photocatalytic reactors is described and applied to catalytic walls coated...
The design and testing of a solar-powered fiber-optic cable reactor prototype for the photocatalytic...
Owing to the limited amount of energy sources and the recent effects of fossil fuel use on the globa...
An integral reactor design methodology was developed to address the optimal design of photocatalytic...
A new method for design and scale-up of photocatalytic and thermocatalytic processes is disclosed. T...
A new method for design and scale-up of thermocatalytic processes is disclosed. The method is based ...
A new method for design and scale-up of photocatalytic and thermocatalytic processes is disclosed. T...
A new apparatus for design and scale-up of photocatalytic and thermocatalytic processes is disclosed...
A new method for design and scale-up of photocatalytic and thermocatalytic processes is disclosed. T...
Apparatus for decontaminating a contaminated fluid by using photocatalytic particles. The apparatus ...
Methods of destroying toxic volatile air-borne toxins are disclosed. In a preferred embodiment, a pi...
Thermoplastic surface modification is achieved with photocatalysts, such as titanium dioxide, tungst...
Methods of destroying toxic volatile air-borne toxins are disclosed. In a preferred embodiment, a pi...
A new method for design and scale-up of thermocatalytic processes is disclosed. The method is based ...
A process for the in-situ transformation of chemical species present in the flue gas to form sulfur ...
A proposal for scaling-up photocatalytic reactors is described and applied to catalytic walls coated...
The design and testing of a solar-powered fiber-optic cable reactor prototype for the photocatalytic...
Owing to the limited amount of energy sources and the recent effects of fossil fuel use on the globa...
An integral reactor design methodology was developed to address the optimal design of photocatalytic...