Search Results - "Illathukandy, Biju"

Direct internal methane reforming in biogas fuelled solid oxide fuel cell; the influence of operating parameters by Saadabadi, S. Ali, Illathukandy, Biju, Aravind, Purushothaman Vellayani

“…Internal dry reforming (IDR) of methane for biogas‐fed solid oxide fuel cell (SOFC) applications has been experimentally investigated on planar Ni‐GDC (cermet…”
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Thermodynamic analysis of a novel integrated biomass pyrolysis-solid oxide fuel cells-combined heat and power system for co-generation of biochar and power by Kuo, Po-Chih, Illathukandy, Biju, Özdemir, Faruk, Woudstra, Theo, Aravind, P. V.

“…Biochar derived from pyrolysis or gasification has been gaining significant attention in the recent years due to its potential wide applications for the…”
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The effect of H2S on internal dry reforming in biogas fuelled solid oxide fuel cells by Wasajja, Henry, Saadabadi, S. Ali, Illathukandy, Biju, Lindeboom, Ralph E. F., Lier, Jules. B., Vellayani Aravind, Purushothaman

“…Internal dry reforming of methane is envisaged as a possibility to reduce on capital and operation costs of biogas fuelled solid oxide fuel cells (SOFCs)…”
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Negative emissions at negative cost-an opportunity for a scalable niche by Aravind, P. V., Champatan, Vipin, Gopi, Girigan, Vijay, Vandit, Smit, C., Pande, S., van den Broeke, L. J. P., John, T. D., Illathukandy, Biju, Sukesh, A., Shreedhar, Sowmya, Nandakishor, T. M., Purushothaman, Sachin J., Posada, John, Lindeboom, R. E. F., Nampoothiri, K. U. K.

“…In the face of the rapidly dwindling carbon budgets, negative emission technologies are widely suggested as required to stabilize the Earth’s climate. However,…”
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Plasma gasification performances of various raw and torrefied biomass materials using different gasifying agents by Kuo, Po-Chih, Illathukandy, Biju, Wu, Wei, Chang, Jo-Shu

“…[Display omitted] •Plasma gasification performances of various raw and torrefied biomass are evaluated.•The developed plasma gasifier is reliable to predict…”
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Energy, exergy, and environmental analyses of renewable hydrogen production through plasma gasification of microalgal biomass by Kuo, Po-Chih, Illathukandy, Biju, Wu, Wei, Chang, Jo-Shu

“…In this study, an energy, exergy, and environmental (3E) analyses of a plasma-assisted hydrogen production process from microalgae is investigated. Four…”
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Efficient conversion of waste-to-SNG via hybrid renewable energy systems for circular economy: Process design, energy, and environmental analysis by Kuo, Po-Chih, Illathukandy, Biju, Sun, Zhuang, Aziz, Muhammad

“…[Display omitted] •Waste valorization via hybrid renewable energy system is modeled.•One- and two-step thermochemical conversion processes of waste are…”
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Process simulation development of a clean waste-to-energy conversion power plant: Thermodynamic and environmental assessment by Kuo, Po-Chih, Illathukandy, Biju, Kung, Chi-Hsiu, Chang, Jo-Shu, Wu, Wei

“…Waste-to-energy (WTE) conversion technologies for generating renewable energy and solving the environmental problems have an important role in the development…”
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Solid oxide fuel cells (SOFCs) fed with biogas containing hydrogen chloride traces: Impact on direct internal reforming and electrochemical performance by Illathukandy, Biju, Saadabadi, S. Ali, Kuo, Po-Chih, Wasajja, Henry, Lindeboom, Ralph E.F., Vijay, V.K., Aravind, P.V.

“…•Direct internal reforming (DIR) experiments are performed with simulated biogas and steam addition.•Experiments at 850 °C with up to 12 ppm(v) HCl in biogas…”
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Biohydrogen production through dark fermentation from waste biomass: Current status and future perspectives on biorefinery development by D' Silva, Tinku Casper, Khan, Sameer Ahmad, Kumar, Subodh, Kumar, Dushyant, Isha, Adya, Deb, Saptashish, Yadav, Saurabh, Illathukandy, Biju, Chandra, Ram, Vijay, Virendra Kumar, Subbarao, Paruchuri M.V., Bagi, Zoltán, Kovács, Kornél L., Yu, Liang, Gandhi, Bhushan P., Semple, Kirk T.

“…[Display omitted] •Biohydrogen production through dark fermentation (DF) has been extensively reviewed.•Current and future status of DF-based biorefinery…”
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The effect of H 2 S on internal dry reforming in biogas fuelled solid oxide fuel cells by Wasajja, Henry, Saadabadi, S. Ali, Illathukandy, Biju, Lindeboom, Ralph E. F., van Lier, Jules. B., Vellayani Aravind, Purushothaman

“…Internal dry reforming of methane is envisaged as a possibility to reduce on capital and operation costs of biogas fuelled solid oxide fuel cells (SOFCs)…”
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