Search Results - "R, Yukesh Kannah"

Techno-economic assessment of various hydrogen production methods – A review by Yukesh Kannah, R., Kavitha, S., Preethi, Parthiba Karthikeyan, O., Kumar, Gopalakrishnan, Dai-Viet, N. Vo, Rajesh Banu, J.

“…[Display omitted] •Hydrogen has the potential to unlock 18% of global energy demand in 2050.•96% of H2 is produced from non-renewables and remaining 4% by…”
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Algal-based system for removal of emerging pollutants from wastewater: A review by Gondi, Rashmi, Kavitha, S., Yukesh Kannah, R., Parthiba Karthikeyan, Obulisamy, Kumar, Gopalakrishnan, Kumar Tyagi, Vinay, Rajesh Banu, J.

“…[Display omitted] •Various algal-bioremediation strategies for emerging pollutants are available.•Algal-bioremediation at pilot-scale level is still a…”
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A review on biopolymer production via lignin valorization by Rajesh Banu, J., Kavitha, S., Yukesh Kannah, R., Poornima Devi, T., Gunasekaran, M., Kim, Sang-Hyoun, Kumar, Gopalakrishnan

“…[Display omitted] •Lignin valorization for biopolymer production is the emerging technology.•Lignin biosynthesis pathway routes has been elucidated in detail…”
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A review on anaerobic digestion of energy and cost effective microalgae pretreatment for biogas production by Yukesh Kannah, R., Kavitha, S., Parthiba Karthikeyan, Obulisamy, Rene, Eldon R., Kumar, Gopalakrishnan, Rajesh Banu, J.

“…•Microalgae make use of carbon-dioxide to produce biomass and biomolecules.•Cell wall weakening followed by disintegration has positive impact on product…”
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Industrial wastewater to biohydrogen: Possibilities towards successful biorefinery route by Rajesh Banu, J., Kavitha, S., Yukesh Kannah, R., Bhosale, Rahul R., Kumar, Gopalakrishnan

“…[Display omitted] •Industrial wastewater is a renewable substrate for biohydrogen production.•Diverse microbes in reactor also shows negative impacts on…”
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Integrated biorefinery routes of biohydrogen: Possible utilization of acidogenic fermentative effluent by Rajesh Banu, J., Ginni, G., Kavitha, S., Yukesh Kannah, R., Adish Kumar, S., Bhatia, Shashi Kant, Kumar, Gopalakrishnan

“…•Integrating biorefinery routes of biohydrogen production is overviewed.•Utilization of acidogenic fermentation effluents for multiple products…”
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Biohythane production from food processing wastes – Challenges and perspectives by Meena, Ramakrishnan Anu Alias, Rajesh Banu, J., Yukesh Kannah, R., Yogalakshmi, K.N., Kumar, Gopalakrishnan

“…[Display omitted] •Carbohydrate rich food waste is a potential substrate for biohythane production.•Accumulation of volatile fatty acid inhibit methane…”
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A novel energetically efficient combinative microwave pretreatment for achieving profitable hydrogen production from marine macro algae (Ulva reticulate) by Dinesh Kumar, M., Yukesh Kannah, R., Kumar, Gopalakrishnan, Sivashanmugam, P., Rajesh Banu, J.

“…[Display omitted] •A maximum COD solubilisation of 34% was achieved in MHA.•MHA reduced pre-treatment energy from 32,400 to 17280 kJ/kg TS.•MHA achieved a…”
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Dispersion induced ozone pretreatment of waste activated biosolids: Arriving biomethanation modelling parameters, energetic and cost assessment by Yukesh Kannah, R., Kavitha, S., Rajesh Banu, J., Parthiba Karthikeyan, Obulisamy, Sivashanmugham, P.

“…[Display omitted] •Dispersion induced disaggregation was effective at 30s and 3000rpm.•0.014gO3/g SS of ozone dosage induced a biomass lysis of about 32.8% in…”
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Biorefinery of spent coffee grounds waste: Viable pathway towards circular bioeconomy by Rajesh Banu, J., Kavitha, S., Yukesh Kannah, R., Dinesh Kumar, M., Preethi, Atabani, A.E., Kumar, Gopalakrishnan

“…•Spent coffee ground is an excellent resource of nutrients rich feedstock.•Spent coffee ground biorefinery is a sustainable route to produce multiple…”
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Combined thermo-chemo-sonic disintegration of waste activated sludge for biogas production by Kavitha, S., Yukesh Kannah, R., Yeom, Ick Tae, Do, Khac-Uan, Banu, J. Rajesh

“…[Display omitted] •Thermo chemo sonic pretreatment enhances disintegration synergistically.•This novel method aid solubilization at lesser specific energy of…”
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Cost effective biomethanation via surfactant coupled ultrasonic liquefaction of mixed microalgal biomass harvested from open raceway pond by Rajesh Banu, J., Yukesh Kannah, R., Kavitha, S., Ashikvivek, A., Bhosale, Rahul R., Kumar, Gopalakrishnan

“…[Display omitted] •A microalgae harvesting efficiency of 96% was obtained at alum dosage of 40 mg/L.•A soluble organic liquefaction of 30.5% was achieved in…”
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Biohydrogen production from rice straw: Effect of combinative pretreatment, modelling assessment and energy balance consideration by Yukesh Kannah, R., Kavitha, S., Sivashanmugham, P., Kumar, Gopalakrishnan, Nguyen, Dinh Duc, Chang, Soon Woong, Rajesh Banu, J.

“…Biohydrogen production from agro waste biomass through combinative pretreatments is an emerging cost effective, alternative energy technology. The present…”
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Nanoparticle induced biological disintegration: A new phase separated pretreatment strategy on microalgal biomass for profitable biomethane recovery by Kavitha, S., Schikaran, M., Yukesh Kannah, R., Gunasekaran, M., Kumar, Gopalakrishnan, Rajesh Banu, J.

“…[Display omitted] •Phase separated biological pretreatment is a new microalgal disintegration process.•A higher biomass solubilization of 36% was achieved in…”
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Production and recovery of polyhydroxyalkanoates (PHA) from waste streams – A review by Yukesh Kannah, R., Dinesh Kumar, M., Kavitha, S., Rajesh Banu, J., Kumar Tyagi, Vinay, Rajaguru, P., Kumar, Gopalakrishnan

“…[Display omitted] •The selection of waste stream for synthesis of biopolymer is an important task.•Recycling of waste stream for biopolymer production reduces…”
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Recent advances on biogranules formation in dark hydrogen fermentation system: Mechanism of formation and microbial characteristics by Banu, J. Rajesh, Yukesh Kannah, R., Dinesh Kumar, M., Gunasekaran, M., Sivagurunathan, Periyasamy, Park, Jeong-Hoon, Kumar, Gopalakrishnan

“…[Display omitted] •Hydrogen Producing Granules effectively improves production performances.•Dark fermentation is a most favorable method for the harvesting of…”
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Valorization of agricultural residues: Different biorefinery routes by G, Ginni, S, Kavitha, R, Yukesh Kannah, Bhatia, Shashi Kant, S, Adish Kumar, M, Rajkumar, Kumar, Gopalakrishnan, Pugazhendhi, Arivalagan, Chi, Nguyen Thuy Lan, J, Rajesh Banu

“…Agricultural residues are naturally available lignocellulosic biomass having high content of carbon. These residues should imminently be discarded to prevent…”
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Mild hydrogen peroxide interceded bacterial disintegration of waste activated sludge for efficient biomethane production by Preethi, Rajesh Banu, J., Kavitha, S., Yukesh Kannah, R., Varjani, Sunita, Gunasekaran, M.

“…Regardless of the issue of sludge management all over the world, the role of phase separated pretreatment prior to anaerobic digestion are more promising in…”
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Effect of Solubilization on Acidification, Anaerobic Biodegradability, and Economic Feasibility via Ultrasonic–Zerovalent Iron–Acidic pH Pretreatment of Sludge by S, Kavitha, R, Yukesh Kannah, Zhen, Guangyin, Kumar, Gopalakrishnan, J, Rajesh Banu

“…The present study aimed to evaluate the effect of solubilization obtained via ultrasonic (US) homogenization, combined ultrasonic and zerovalent iron (UZ), and…”
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Biological disintegration of microalgae for biomethane recovery-prediction of biodegradability and computation of energy balance by Kavitha, S., Yukesh Kannah, R., Rajesh Banu, J., Kaliappan, S., Johnson, M.

“…[Display omitted] •Mixed bacterial disintegration achieves microalgal biomass lysis of about 26%.•Biopolymer release was enhanced through this combined…”
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