| ลำดับ | รายละเอียดผลงาน | ||
|---|---|---|---|
| 1 | Biochar and pyrolysis liquid production from durian peel by using slow pyrolysis process: Regression analysis, characterization, and economic assessment RATTANA JARIYABOON : 35% AJCHAREEYA MANMEEN : 40%,PRAWIT KONGJAN : 15%,ARKOM PALAMANIT : 10% (2023). Industrial Crops and Products, 203(Article nu), 1-15. Quartile: Q1 | ||
| 2 | Desulfurization of H2S-rich biogas using water scrubbing: Performance in pilot scale scrubber and scale-up estimation for the concentrated latex factory
RATTANA JARIYABOON : 40% AJCHAREEYA MANMEEN : 35%,PRAWIT KONGJAN : 15%,BENJAMAS CHEIRSILP : 5%,THIWA RATTANAYA : 2.5%,NATTAPOL RAYBUT : 2.5% (2023). Environmental Progress and Sustainable Energy, 42(3 Article ), 1-10. Quartile: Q3 | ||
| 3 | Effect of Organic Loading Rate and Effluent Recirculation on Biogas Production of Desulfated Skim Latex Serum using Up-Flow Anaerobic Sludge Blanket Reactor RATTANA JARIYABOON : 35% MARISA RAKETH : 40%,PRAWIT KONGJAN : 20%,NURTA SAMAHAE : 2.5%,ERIC TRABLY : 2.5% (2023). Journal of Environmental Management, 327(116886), 1-9. Quartile: Q1 | ||
| 4 | Enhancing Bio-hydrogen and Bio-methane Production of Concentrated Latex Wastewater (CLW) by Co-digesting with Palm Oil Mill Effluent (POME) : Batch and Continuous Performance Test and ADM-1 modeling RATTANA JARIYABOON : 30% PRAWIT KONGJAN : 25%,MARISA RAKETH : 20%,RUSNEE KANA : 15%,SOMPHONG O-THONG : 2.5%,CHONTICHA MAMIMIN : 2.5%,SYED ANUAR FAUA'AD SYED : 5% (2023). Journal of Environmental Management, 346(Article nu), 1-12. Quartile: Q1 | ||
| 5 | Potential of butanol production from Thailand marine macroalgae using Clostridium beijerinckii ATCC 10132-based ABE fermentation PRAWIT KONGJAN : 35% SIREETHORN KHAONUAN : 35%,RATTANA JARIYABOON : 15%,BENJAMAS CHEIRSILP : 5%,NIKANNAPAS USMANBAHA : 5%,NILS-KARE BIRKELAND : 5% (2023). Biotechnology Journal, 18(10 Article), 1-13. Quartile: Q1 | ||
| 6 | The biochar, and pyrolysis liquid characteristics, of three indigenous durian peel; Monthong, Puangmanee, and Bacho RATTANA JARIYABOON : 35% AJCHAREEYA MANMEEN : 40%,PRAWIT KONGJAN : 15%,ARKOM PALAMANIT : 10% (2023). Biomass and Bioenergy , 174(Article nu), 1-12. Quartile: Q1 | ||
| 7 | Thermophilic Dark Fermentation for Simultaneous Mixed Volatile Fatty Acids and Biohydrogen Production from Food Waste PRAWIT KONGJAN : 30% RATTANA JARIYABOON : 30%,SHAHRUL BIN ISMAIL : 5%,SURANANEE HAYEEYUNU : 10%,NIKANNAPAS USMANBAHA : 5%,SOMPONG O-THONG : 5%,CHONTICHA MAMIMIN : 5% (2023). Fermentation, 9(7 Article ), 1-14. Quartile: Q2 | ||
| 8 | Treatment and Recycling of Condensate Wastewater for By-Product Production Process of Canned Tuna Factory: Batch and Continuous Adsorption in a Real Production Plant RATTANA JARIYABOON : 45% SONGRIT BAIDUGEM : 25%,PRAWIT KONGJAN : 15%,SAOWAPA CHOTISUWAN : 7.5%,SAMITANUN SARALUCK : 2.5%,KHALIYAH SANI : 2.5%,MARISA RAKETH : 2.5% (2023). Desalination and Water Treatment, 311(-), 175-187. Quartile: Q4 | ||
| 9 | Application of palm oil mill waste to enhance biogas upgrading and hornwort cultivation RATTANA JARIYABOON : 40% PRAWIT KONGJAN : 15%,THIWA RATTANAYA : 25%,CHONLATEE CHEEWASEDTHAM : 5%,BENJAMAS CHEIRSILP : 5%,PAOWARIT YUSO : 2.5%,CHARUN BUNYAKAN : 7.5% (2022). Journal of Environmental Management, 309(Article nu), 1-9. Quartile: Q1 | ||
| 10 | Biodegradation efficiencies and economic feasibility of single-stage and two-stage anaerobic digestion of desulfated Skim Latex Serum (SLS) by using rubber wood ash RATTANA JARIYABOON : 35% MARISA RAKETH : 40%,PRAWIT KONGJAN : 15%,BENJAMAS CHEIRSILP : 5%,KHALIYAH SANI : 2.5%,ERIC TRABLY : 2.5% (2022). Process Safety and Environmental Protection, 162(-), 721-732. Quartile: Q1 | ||
| 11 | Characterization of the integrated gas stripping-condensation process for organic solvent removal from model acetone-butanol-ethanol aqueous solution RATTANA JARIYABOON : 40% PRAWIT KONGJAN : 30%,SIREETHORN KHAONUAN : 2.5%,BENJAMAS CHEIRSILP : 5%,NASWANA TOHLANG : 22.5% (2022). Biochemical Engineering Journal, 182(Article nu), 1-8. Quartile: Q2 | ||
| 12 | Deploying two-stage anaerobic process to co-digest greasy sludge and waste activated sludge for effective waste treatment and biogas recovery PRAWIT KONGJAN : 35% BENJAMAS CHEIRSILP : 5%,RATTANA JARIYABOON : 15%,คอลีญะห์ สะนิ : 40%,มาริษา ราเขต : 1%,สมพงศ์ โอทอง : 2%,PRASAD KAPARAJU : 2% (2022). Journal of Environmental Management, 316(Article nu), 1-10. Quartile: Q1 | ||
| 13 | Integration of Dark Fermentation with Microbial Electrolysis Cells for Biohydrogen and Methane Production from Distillery Wastewater and Glycerol Waste Co?Digestion PRAWIT KONGJAN : 35% SUREEWAN SITTIJUNDA : 20%,SULFAN BAKA : 20%,RATTANA JARIYABOON : 15%,ALISSARA REUNGSANG : 5%,TSUYOSHI IMAI : 5% (2022). Fermentation-Basel, 8(10 Article), 1-16. Quartile: Q2 | ||
| 14 | Performance of pilot scale two-stage anaerobic co-digestion of waste activated sludge and greasy sludge under uncontrolled mesophilic temperature PRAWIT KONGJAN : 35% KHALIYAH SANI : 35%,SOMPONG O-THONG : 5%,PRASAD KAPARAJU : 3%,YI WANG : 2%,RATTANA JARIYABOON : 15%,BENJAMAS CHEIRSILP : 5% (2022). Water Research, 221(Article nu), 1-12. Quartile: Q1 | ||
| 15 | The Three-stage High Solid Anaerobic Digestion (TSHS-AD) under Ambient Temperature for Enhanced Biogas Production from Cow Manure PRAWIT KONGJAN : 30% RATTANA JARIYABOON : 15%,BURACHAT SRIPITAK : 35%,ALISSARA REUNGSANG : 5%,MARISA RAKETH : 5%,SOMPONG O-THONG : 5%,CHONTICHA MAMIMIN : 5% (2022). Chiang Mai Journal of Science, 49(5), 1273-1295. Quartile: Q4 | ||
| 16 | A syntrophic co-fermentation model for bio-hydrogen production PRAWIT KONGJAN : 5% YI WANG : 25%,YANYAN JING : 10%,CHAOYANG LU : 10%,JIAN WANG : 10%,MUKESH KUMAR AWASTHI : 10%,NADEEM TAHIR : 15%,QUANGUO ZHANG : 15% (2021). Journal of Cleaner Production, 317(Article nu), 1-9. Quartile: Q1 | ||
| 17 | Effectiveness of using two-stage anaerobic digestion to recover bio-energy
from high strength palm oil mill effluents with simultaneous treatment KHALIYAH SANI : 35% RATTANA JARIYABOON : 35%,PRAWIT KONGJAN : 15%,CHAROEN PAKHATHIRATHIEN : 2.5%,BENJAMAS CHEIRSILP : 5%,MARISA RAKETH : 2.5%,RUSNEE KANA : 2.5%,SOMPONG O-THONG : 2.5% (2021). JOURNAL OF WATER PROCESS ENGINEERING, 39(Article Nu), 1-12. Quartile: Q1 | ||
| 18 | Enhanced biogas production by co-digestion of crude glycerol and ethanol with palm oil mill effluent and microbial community analysis POONSUK PRASERTSAN : 50% CHONTICHA LEAMDUM : 30%,SUKONLARAT CHANTHONG : 10%,CHONTICHA MAMIMIN : 5%,PRAWIT KONGJAN : 5%,SOMPONG O-THONG : 10% (2021). BIOMASS & BIOENERGY, 148(Article Nu), 1-9. Quartile: Q1 | ||
| 19 | Strategies for recovery of imbalanced full-scale biogas reactor feeding with palm oil mill effluent POONSUK PRASERTSAN : 10% ์NANTHARAT WONGFAED : 30%,PRAWIT KONGJAN : 20%,SOMPONG O-THONG : 30% (2021). PEERJ, 9(Article Nu), 1-21. Quartile: Q2 | ||
| 20 | Sulfate removal using rubber wood ash to enhance biogas production from
sulfate-rich wastewater generated from a concentrated latex factory RATTANA JARIYABOON : 35% RATTANA JARIYABOON : 35%,PRAWIT KONGJAN : 15%,SAOWAPA CHOTISUWAN : 2.5%,BURACHAT SRIPITAK : 2.5%,ALISSARA REUNGSANG : 2.5%,ERIC TRABLY : 2.5%,ERIC TRABLY : 2.5% (2021). BIOCHEMICAL ENGINEERING JOURNAL, 173(Article Nu), 1-9. Quartile: Q2 | ||
| 21 | Upgrading biogas to biomethane using untreated groundwater-NaOH absorbent: Pilot-scale experiment and scale-up estimation for a palm oil mill RATTANA JARIYABOON : 30% THIWA RATTANAYA : 35%,PRAWIT KONGJAN : 15%,AJCHAREEYA MANMEEN : 2.5%,KULCHANAT PRASERTSIT : 5%,CHARUN BUNYAKAN : 7.5%,ALISSARA REUNGSANG : 2.5%,LIDIA LOMBARDI : 2.5% (2021). Journal of Water Process Engineering, 44(Article nu), 1-12. Quartile: Q1 | ||
| 22 | Biogas production from palm oil mill effluent and empty fruit bunches by coupled liquid and solid-state anaerobic digestion SOMPONG O-THONG : 30% WISARUT TUKANGHAN : 5%,WANTANASAK SUKSONG : 40%,KANATHIP PROMNUAN : 5%,PRAWIT KONGJAN : 10%,ALISSARA REUNGSANG : 5%,HERIBERT INSAM : 5% (2020). BIORESOURCE TECHNOLOGY , 296(Article Nu), 1-11. Quartile: Q1 | ||
| 23 | Effect of oil and derivative in palm oil mill effluent on the process imbalance of biogas production SOMPONG O-THONG : 30% NANTHARAT WONGFAED : 40%,POONSUK PRASERTSAN : 10%,PRAWIT KONGJAN : 20% (2020). JOURNAL OF CLEANER PRODUCTION, 247(Article Nu), 1-11. Quartile: Q1 | ||
| 24 | Enhanced solid-state biomethanisation of oil palm empty fruit bunches following fungal pretreatment สมพงศ์ โอทอง:30% WANTANASAK SUKSONG : 40%,NANTHARAT WONGFAED : 5%,ฺีืBUNTITA SANGSRI : 5%,PRAWIT KONGJAN : 5%,POONSUK PRASERTSAN : 5%,SABINE MARIE PODMIRSEG : 5%,HERIBERT INSAM : 5% (2020). INDUSTRIAL CROPS AND PRODUCTS, 145(Article Nu), 1-9. Quartile: Q1 | ||
| 25 | Mathematical modeling of ethanol production from glycerol by Enterobacter aerogenes concerning the influence of impurities, substrate, and product concentration POONSUK PRASERTSAN : 30% JULI NOVIANTO SUNARNO : 50%,WIRIYA DUANGSUWAN : 5%,PRAWIT KONGJAN : 5%,BENJAMAS CHEIRSILP : 10% (2020). BIOCHEMICAL ENGINEERING JOURNAL, 155(Article Nu), 1-11. Quartile: Q2 | ||
| 26 | Simultaneous biohythane production and sulfate removal from rubber sheet wastewater by two-stage anaerobic digestion SOMPONG O-THONG : 30% KANATHIP PROMNUAN : 40%,TAKAYA HIGUCHI : 5%,PRAWIT KONGJAN : 15%,TSUYOSHI IMAI : 5%,ALISSARA REUNGSANG : 5% (2020). INTERNATIONAL JOURNAL OF HYDROGEN ENERGY , 45(1), 263-274. Quartile: Q2 | ||
| 27 | Upgrading biogas to biomethane: Alkaline recovery of absorbed solution by thermal decomposition RATTANA JARIYABOON : 35% THIWA RATTANAYA : 35%,PRAWIT KONGJAN : 15%,ALISSARA REUNGSANG : 5%,CHARUN BUNYAKARN : 10% (2020). PROCESS SAFETY AND ENVIRONMENTAL PROTECTION, 138(-), 157-166. Quartile: Q1 | ||
| 28 | Biogas Production from Oil Palm Empty Fruit Bunches and Palm Oil Decanter Cake using Solid-State Anaerobic co-Digestion
PRAWIT KONGJAN : 50% MUTHITA TEPSOUR : 15%,RATTANA JARIYABOON : 15%,POONSUK PRASERTSAN : 5%,NIKANNAPAS USMANBAHA : 2.5%,SOMPONG O-THONG : 10%,THIWA RATTANAYA : 2.5% (2019). Energies, 12(22 Article), 1-14. Quartile: Q3 | ||
| 29 | Biogas Production from Single Digestion of Napier Grass Hydrolysate and Co-Digestion of Solid Fraction of Microwave Acid Pretreated Napier Grass with Swine Manure PRAWIT KONGJAN : 50% SUREEWAN SITTIJUNDA : 30%,NAPHATSARNAN PHASUKARRATCHAI : 10%,ALISSARA REUNGSANG : 10% (2019). CHIANG MAI JOURNAL OF SCIENCE, 46(4), 639-652. Quartile: Q4 | ||
| 30 | Effect of inoculum types and microbial community on thermophilic and mesophilic solid-state anaerobic digestion of empty fruit bunches for biogas production WANTANASAK SUKSONG : 40% PRAWIT KONGJAN : 5%,CHONTICHA MAMIMIN : 5%,POONSUK PRASERTSAN : 10%,SOMPONG O-THONG : 40% (2019). INDUSTRIAL CROPS AND PRODUCTS, 133(-), 193-202. Quartile: Q1 | ||
| 31 | Enhancement of biohythane production from solid waste by co-digestion with palm oil mill effluent in two-stage thermophilic fermentation POONSUK PRASERTSAN : 30% CHONTICHA MAMIMIN : 40%,PRAWIT KONGJAN : 10%,SOMPONG O-THONG : 20% (2019). International Journal of Hydrogen Energy , 44(32), 17224-17237. Quartile: Q2 | ||
| 32 | Feasibility of ABE fermentation from Rhizoclonium spp. hydrolysate with low nutrient supplementation RATTANA JARIYABOON : 50% PRAWIT KONGJAN : 25%,SOMRAK PANPHON : 5%,SUKALLAYA HEMMANEE : 2.5%,SUHAILA SALAEH : 15%,ALISSARA REUNGSANG : 2.5% (2019). BIOMASS & BIOENERGY, 127(Article Nu), 1-9. Quartile: Q1 | ||
| 33 | High efficient biohydrogen production from palm oil mill effluent by two-stage dark fermentation and microbial electrolysis under thermophilic condition SOMPONG O-THONG : 30% PEERAWAT KONGKLIANG : 40%,AMINEE JEHLEE : 5%,PRAWIT KONGJAN : 20%,ALISSARA REUNGSANG : 5% (2019). INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 44(60), 31841-31852. Quartile: Q2 | ||
| 34 | Hydrogen production from xylose by moderate thermophilic mixed cultures using granules and biofilm up-flow anaerobic reactors
PRAWIT KONGJAN : 50% RATTANA JARIYABOON : 10%,SOMPONG O-THONG : 20%,ALISSARA REUNGSANG : 10%,SUPATTRA INCHAN : 5%,SUKONRAT CHANTHONG : 5% (2019). International Journal of Hydrogen energy , 44 (6 Special ), 3317-3324. Quartile: Q1 | ||
| 35 | Optimization of Batch Dark Fermentation of Chlorella sp. Using Mixed-Cultures for Simultaneous Hydrogen and Butyric Acid Production NIKANNAPAS USMANBAHA : 30% CHEN-YEON CHU : 25%,PRAWIT KONGJAN : 25%,RATTANA JARIYABOON : 15%,ALISSARA REUNGSANG : 5% (2019). Energies, 12(13 Article), 1-14. Quartile: Q3 | ||
| 36 | Thermotolerant cellulolytic Clostridiaceae and Lachnospiraceae rich consortium enhanced biogas production from oil palm empty fruit bunches by solid-state anaerobic digestion SOMPONG O-THONG : 40% POONSUK PRASERTSAN : 10%,WANTANASAK SUKSONG : 40%,PRAWIT KONGJAN : 10% (2019). na, 291(18), 121851-121851. Quartile: Q1 | ||
| 37 | Feasibility of bio-hythane production by co-digesting skim latex serum (SLS) with palm oil mill ef?uent (POME) through two-phase anaerobic process
PRAWIT KONGJAN : 30% RATTANA JARIYABOON : 25%,ALISSARA REUNGSANG : 25%,KHALIYAH SANI : 5%,KULLACHAT SAMA : 15% (2018). International Journal of Hydrogen Energy, 43(20), 9577-9590. Quartile: Q1 | ||
| 38 | Continuous hydrogen production from cassava
starch processing wastewater by two-stage
thermophilic dark fermentation and microbial
electrolysis PEERAWAT KONGKLIANG : 40% PRAWIT KONGJAN : 10%,BUSSAKORN UTARAPICHAT : 10%,ALISSARA REUNGSANG : 10%,SOMPONG O-THONG : 30% (2017). International Journal of Hydrogen Energy, 42(45), 27584-27592. Quartile: Q1 | ||
| 39 | Effect of biogas sparging on the performance of bio-hydrogen reactor over a long-term operation CHATCHAWIN NUALSRI : 40% PRAWIT KONGJAN : 25%,ALISSARA REUNGSANG : 30%,IMAI TSUYOSHI : 5% (2017). Plos One, 12(2), e0171248(1)-e0171248(13). Quartile: Q1 | ||
| 40 | Effects of volatile fatty acids in biohydrogen effluent on biohythane production from palm oil mill effluent under thermophilic condition CHONTICHA MAMIMIN : 50% POONSUK PRASERTSAN : 10%,PRAWIT KONGJAN : 10%,SOMPONG O-THONG : 30% (2017). Electronic Journal of Biotechnology, 29(-), 78-85. Quartile: Q3 | ||
| 41 | Thermophilic solid-state anaerobic digestion of solid waste residues from palm oil mill industry for biogas production. POONSUK PRASERTSAN : 10% WATANASAK SUKSONG : 20%,AMINEE JEHLEE : 10%,APINYA SINGKHALA : 10%,TSUYOSHI IMAI : 10%,SOMPONG O-THONG : 30%,PRAWIT KONGJAN : 10% (2017). Industrial Crops and Products, 95(-), 502-511. Quartile: Q1 | ||
| 42 | Optimization and microbial community analysis for production of biogas
from solid waste residues of palm oil mill industry by solid-state
anaerobic digestion WANTANASAK SUKSONG : 40% PRAWIT KONGJAN : 10%,POONSUK PRASERTSAN : 10%,SOMPONG O-THONG : 30%,TSUYOSHI IMAI : 10% (2016). Bioresource Technology, 214(-), 166-174. Quartile: Q1 | ||
| 43 | Bio-hydrogen and bio-methane potentials of skim latex serum in batch thermophilic two-stage anaerobic digestion RATTANA JARIYABOON : 60% PRAWIT KONGCHAN : 30%,SOMPONG O-THONG : 10% (2015). Bioresource Technology, 198(-), 198-206. Quartile: Q1 | ||
| 44 | Two-stage thermophilic fermentation and mesophilic methanogen process for biohythane production from palm oil mill effluent. POONSUK PRASERTSAN : 15% CHONTICHA MAMIMIN : 30%,APINYA SINGKHALA : 10%,PRAWIT KONGJAN : 10%,BENJAPORN SURARAKSA : 5%,TSUYOSHI IMAI : 5%,SOMPONG O-THONG : 25% (2015). International Journal of Hydrogen Energy, 40(19), 6319-6328. Quartile: Q2 | ||
| 45 | Anaerobic digestion of skim latex serum (SLS) for hydrogen and methane production using a two-stage process in a series of up-flow anaerobic sludge blanket (UASB) reactor PRAWIT KONGCHAN : 70% RATTANA JARIYABOON : 20%,SOMPONG O-THONG : 10% (2014). International Journal of Hydrogen Energy, 39(33), 19343-19348. Quartile: Q1 | ||
| รวม 45 รายการ | |||
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