แสดงข้อมูลผลงานตีพิมพ์ อ้างอิงจากฐาน pubswatch.psu.ac.th
| ลำดับ | รายละเอียดผลงาน | ||
|---|---|---|---|
| 1 | Tepsour, M., Usmanbaha, N., Rattanaya, T., Jariyaboon, R., O-Thong, S., Prasertsan, P. and Kongjan, P. (2019). Biogas Production from Oil Palm Empty Fruit Bunches and Palm Oil Decanter Cake using Solid-State Anaerobic co-Digestion. ENERGIES, 12(22) Cited: 8 doi: https://doi.org/10.3390/en12224368 | ||
| 2 | Kongjan, P., Reungsang, A., Phasukarratchai, N. and Sittijunda, S. (2019). Biogas Production from Single Digestion of Napier Grass Hydrolysate and Co-Digestion of Solid Fraction of Microwave Acid Pretreated Napier Grass with Swine Manure. CHIANG MAI JOURNAL OF SCIENCE, 46(4), 639-652. Cited: 5 | ||
| 3 | Suksong, W., Mamimin, C., Prasertsan, P., Kongjan, P. and O-Thong, S. (2019). Effect of inoculum types and microbial community on thermophilic and mesophilic solid-state anaerobic digestion of empty fruit bunches for biogas production. INDUSTRIAL CROPS AND PRODUCTS, 133, 193-202. Cited: 27 doi: https://doi.org/10.1016/j.indcrop.2019.03.005 | ||
| 4 | Mamimin, C., Kongjan, P., O-Thong, S. and Prasertsan, P. (2019). Enhancement of biohythane production from solid waste by co-digestion with palm oil mill effluent in two-stage thermophilic fermentation. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 44(32), 17224-17237. Cited: 30 doi: https://doi.org/10.1016/j.ijhydene.2019.03.275 | ||
| 5 | Salaeh, S., Kongjan, P., Panphon, S., Hemmanee, S., Reungsang, A. and Jariyaboon, R. (2019). Feasibility of ABE fermentation from Rhizoclonium spp. hydrolysate with low nutrient supplementation. BIOMASS & BIOENERGY, 127 Cited: 11 doi: https://doi.org/10.1016/j.biombioe.2019.105269 | ||
| 6 | Kongjan, P., Inchan, S., Chanthong, S., Jariyaboon, R., Reungsang, A. and O-Thong, S. (2019). Hydrogen production from xylose by moderate thermophilic mixed cultures using granules and biofilm up-flow anaerobic reactors. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 44(6), 3317-3324. Cited: 28 doi: https://doi.org/10.1016/j.ijhydene.2018.09.066 | ||
| 7 | Usmanbaha, N., Jariyaboon, R., Reungsang, A., Kongjan, P. and Chu, CY. (2019). Optimization of Batch Dark Fermentation of Chlorella sp. Using Mixed-Cultures for Simultaneous Hydrogen and Butyric Acid Production. ENERGIES, 12(13) Cited: 22 doi: https://doi.org/10.3390/en12132529 | ||
| 8 | O-Thong, S., Mamimin, C., Kongjan, P. and Reungsang, A. (2019). Thermophilic Fermentation for Enhanced Biohydrogen Production. BIOHYDROGEN, 2ND EDITION, 123-139. Cited: 8 doi: https://doi.org/10.1016/B978-0-444-64203-5.00005-8 | ||
| 9 | Suksong, W., Kongjan, P., Prasertsan, P. and O-Thong, S. (2019). Thermotolerant cellulolytic Clostridiaceae and Lachnospiraceae rich consortium enhanced biogas production from oil palm empty fruit bunches by solid-state anaerobic digestion. BIORESOURCE TECHNOLOGY, 291 Cited: 42 doi: https://doi.org/10.1016/j.biortech.2019.121851 | ||
| รวม WoS/ISI 9 รายการ 181 citations | |||
| ลำดับ | รายละเอียดผลงาน | ||
|---|---|---|---|
| 1 | Tepsour M., Usmanbaha N., Rattanaya T., Jariyaboon R., O&apos, Thong S., Prasertsan P. and Kongjan P. (2019). Biogas Production from Oil Palm Empty Fruit Bunches and Palm Oil Decanter Cake using Solid-State Anaerobic co-Digestion. Energies, 12(22) Cited: 11 doi: https://doi.org/10.3390/en12224368 | ||
| 2 | Kongjan P., Reungsang A., Phasukarratchai N. and Sittijunda S. (2019). Biogas production from single digestion of napier grass hydrolysate and co-digestion of solid fraction of microwave acid pretreated napier grass with swine manure. Chiang Mai Journal of Science, 46(4), 639-652. Cited: 4 | ||
| 3 | Suksong W., Mamimin C., Prasertsan P., Kongjan P., O&apos and Thong S. (2019). Effect of inoculum types and microbial community on thermophilic and mesophilic solid-state anaerobic digestion of empty fruit bunches for biogas production. Industrial Crops and Products, 133, 193-202. Cited: 21 doi: https://doi.org/10.1016/j.indcrop.2019.03.005 | ||
| 4 | Mamimin C., Kongjan P., O&apos, Thong S. and Prasertsan P. (2019). Enhancement of biohythane production from solid waste by co-digestion with palm oil mill effluent in two-stage thermophilic fermentation. International Journal of Hydrogen Energy, 44(32), 17224-17237. Cited: 23 doi: https://doi.org/10.1016/j.ijhydene.2019.03.275 | ||
| 5 | Salaeh S., Kongjan P., Panphon S., Hemmanee S., Reungsang A. and Jariyaboon R. (2019). Feasibility of ABE fermentation from Rhizoclonium spp. hydrolysate with low nutrient supplementation. Biomass and Bioenergy, 127 Cited: 7 doi: https://doi.org/10.1016/j.biombioe.2019.105269 | ||
| 6 | Khongkliang P., Jehlee A., Kongjan P. and Reungsang A. (2019). High efficient biohydrogen production from palm oil mill effluent by two-stage dark fermentation and microbial electrolysis under thermophilic condition. International Journal of Hydrogen Energy, 44(60), 31841-31852. Cited: 21 doi: https://doi.org/10.1016/j.ijhydene.2019.10.022 | ||
| 7 | Kongjan P., Inchan S., Chanthong S., Jariyaboon R., Reungsang A., O&apos and Thong S. (2019). Hydrogen production from xylose by moderate thermophilic mixed cultures using granules and biofilm up-flow anaerobic reactors. International Journal of Hydrogen Energy, 3317-3324. Cited: 22 doi: https://doi.org/10.1016/j.ijhydene.2018.09.066 | ||
| 8 | Usmanbaha N., Jariyaboon R., Reungsang A., Kongjan P. and Chu C. (2019). Optimization of batch dark fermentation of chlorella sp. using mixed-cultures for simultaneous hydrogen and butyric acid production. Energies, 12(13) Cited: 18 doi: https://doi.org/10.3390/en12132529 | ||
| 9 | O-Thong S., Mamimin C., Kongjan P. and Reungsang A. (2019). Thermophilic Fermentation for Enhanced Biohydrogen Production. Biomass, Biofuels, Biochemicals: Biohydrogen, Second Edition, 123-139. Cited: 7 doi: https://doi.org/10.1016/B978-0-444-64203-5.00005-8 | ||
| 10 | Suksong W., Kongjan P., Prasertsan P., O&apos and Thong S. (2019). Thermotolerant cellulolytic Clostridiaceae and Lachnospiraceae rich consortium enhanced biogas production from oil palm empty fruit bunches by solid-state anaerobic digestion. Bioresource Technology, 291 Cited: 24 doi: https://doi.org/10.1016/j.biortech.2019.121851 | ||
| รวม Scopus 10 รายการ 158 citations | |||
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