Your search keyword '"Rishi Bharadwaj Morthala"' showing total 2 results

1. Design and characterization of visible-light LED sources for microstructured photoreactors

Author

Dorota Koziej, Simon Kuhn, Rishi Bharadwaj Morthala, Anca Roibu, Tom Van Gerven, and M. Enis Leblebici

Subjects

Materials science, Photon, Irradiance, 02 engineering and technology, 01 natural sciences, 7. Clean energy, Catalysis, law.invention, 010309 optics, Optics, law, 0103 physical sciences, Thermal, Chemical Engineering (miscellaneous), Goniophotometer, Fluid Flow and Transfer Processes, Microchannel, business.industry, Process Chemistry and Technology, 021001 nanoscience & nanotechnology, Viewing angle, Chemistry (miscellaneous), 0210 nano-technology, business, Visible spectrum, Light-emitting diode

Abstract

© 2018 The Royal Society of Chemistry. The design of stable, compact, and uniform LED light sources for continuous microstructured photoreactors is reported. The electrical and thermal properties of green LEDs are translated into an efficient control and cooling strategy. To study the irradiance uniformity and efficiency to irradiate the microfluidic channel, narrow viewing angle LEDs were configured in four arrays. The irradiance uniformity experienced by the microchannel is determined with an irradiance model, which is improved by using near-field goniophotometer measurements for small distances between the light source and reactor. Maximum light uniformity is achieved below the LED-reactor distance of 1.5 cm. Exceeding this distance and employing arrays with a larger number of LEDs did not improve the uniformity on the microchannel. Furthermore, the energy efficiency of the photoreactor is quantified by combining near-field goniophotometer measurements, irradiance modeling and actinometry. It was shown that below 2 cm the photon losses were reduced when the LED positions matched the microchannel geometry, however a low utilization of the consumed electrical energy is observed irrespective of the LED array design. The characterization methodology presented in this study enables the identification and quantification of the limiting factors. ispartof: Reaction Chemistry & Engineering vol:3 issue:6 pages:849-865 status: published

2. Modelling approaches to predict light absorption in gas-liquid flow photosensitized oxidations

Author

Anca Roibu, Keiran Mc Carogher, Rishi Bharadwaj Morthala, Roy Eyckens, and Simon Kuhn

Subjects

Technology, Engineering, Chemical, Science & Technology, ORGANIC-SOLVENTS, ALPHA-TERPINENE, 9,10-DIMETHYLANTHRACENE, Singlet oxygen, General Chemical Engineering, Engineering, Environmental, Ray tracing, General Chemistry, Industrial and Manufacturing Engineering, Two-phase flow, Microreactor, Photon absorption model, Engineering, YIELDS, ACTINOMETER, Environmental Chemistry, SCATTERING, REACTOR, PORPHYRINS, OPTICS, SINGLET OXYGEN PHOTOOXYGENATION

Abstract

ispartof: CHEMICAL ENGINEERING JOURNAL vol:452 status: published