Journal papers
[1] Wagiran W, Mujiyono M, Setiadi BR, Wibowo YE, Surahmanto F, Agata DA, et al. Temperature Distribution in Bio Stove using Saw Dust: An Integrated Project-based Learning. Indonesian Journal of Science and Technology. 2023; 8: 127-40.
[2] Siripaiboon C, Sarabhorn P, Areeprasert C, Scala F. Design and simulation of a novel top-lit downdraft gasifier cookstove and performance comparison with a conventional top-lit updraft cookstove. Energy. 2023: 126782.
[3] Ding L, Yang M, Areeprasert C, Cheng X, Chen X, Wang F, et al. Analysis of micro-particle effect and methanogenic potential of food waste model compounds by hydrothermal pretreatment. Fuel. 2023; 331: 125686.
[4] Yu J, Xia W, Areeprasert C, Ding L, Umeki K, Yu G. Catalytic effects of inherent AAEM on char gasification: A mechanism study using in-situ Raman. Energy. 2022; 238: 122074.
[5] Yang M, Ding L, Wang P, Wu Y, Areeprasert C, Wang M, et al. Formation of Melanoidins and Development of Characterization Techniques During Thermal Pretreatment of Organic Solid Waste: A Critical Review. Fuel. 2022.
[6] Xiao Y, Ding L, Yang Y, Areeprasert C, Gao Y, Chen X, et al. Iron valence state evolution and hydrochar properties under hydrothermal carbonization of dyeing sludge. Waste management. 2022; 152: 94-101.
[7] Raheem A, He Q, Mangi FH, Areeprasert C, Ding L, Yu G. Roles of Heavy Metals during Pyrolysis and Gasification of Metal-Contaminated Waste Biomass: A Review. Energ Fuel. 2022; 36: 2351-68.
[8] Leeabai N, Areeprasert C, Siripaiboon C, Khaobang C, Congsomjit D, Takahashi F. The effects of compost bin design on design preference, waste collection performance, and waste segregation behaviors for public participation. Waste management. 2022; 143: 35-45.
[9] Khaobang C, Sarabhorn P, Siripaiboon C, Scala F, Areeprasert C. Pilot-scale combined pyrolysis and decoupling biomass gasification for energy and metal recovery from discarded printed circuit board and waste cable. Energy. 2022; 245: 123268.
[10] Ketwong T, Halabaso ER, Nguyen TKA, Areeprasert C, Doong R-A. Comparative study on pilot-scale production of CuO-loaded activated biochar and hydrochar from oil-palm empty fruit bunches for high-performance symmetric supercapacitor application. Journal of Electroanalytical Chemistry. 2022; 905: 115970.
[11] Kaharn J, Khaobang C, Suemanotham A, Punsuvon V, Areeprasert C. Investigation of the molecular characterization and antioxidant activity of bio-oil produced from high moisture oil palm residues employing hydrothermal liquefaction. Biomass Bioenergy. 2022; 163: 106538.
[12] Inseemeesak B, Siripaiboon C, Somkeattikul K, Attasophonwattana P, Kiatiwat T, Punsuvon V, et al. Biocomposite fabrication from pilot-scale steam-exploded coconut fiber and PLA/PBS with mechanical and thermal characterizations. Journal of Cleaner Production. 2022; 379: 134517.
[13] Attasophonwattana P, Sitthichirachat P, Siripaiboon C, Ketwong T, Khaobang C, Panichnumsin P, et al. Evolving circular economy in a palm oil factory: Integration of pilot-scale hydrothermal carbonization, gasification, and anaerobic digestion for valorization of empty fruit bunch. Appl Energy. 2022; 324: 119766.
[14] Surahmanto F, Nurhadiyanto D, Mujiyono M, Areeprasert C, Syamsiro M. Hydrothermal Treatment of Herb Residue for Solid Fuel Production. ASEAN Journal of Chemical Engineering. 2021; 21: 83-92.
[15] Somkeattikul K, Areeprasert C, Sarabhorn P, Kiatiwat T. Design and fabrication of concrete-reinforced floating platform for canal and river-shore protection. ASEAN Engineering Journal. 2021; 11: 89-106.
[16] Lu H, Gong Y, Areeprasert C, Ding L, Guo Q, Chen W-H, et al. Integration of Biomass Torrefaction and Gasification based on Biomass Classification: A Review. Energy Technology. 2021; 9: 2001108.
[17] Leeabai N, Areeprasert C, Khaobang C, Viriyapanitchakij N, Bussa B, Dilinazi D, et al. The effects of color preference and noticeability of trash bins on waste collection performance and waste-sorting behaviors. Waste management. 2021; 121: 153-63.
[18] Congsomjit D, Areeprasert C. Hydrochar-derived activated carbon from sugar cane bagasse employing hydrothermal carbonization and steam activation for syrup decolorization. Biomass Conversion and Biorefinery. 2021; 11: 2569-84.
[19] Siripaiboon C, Sarabhorn P, Areeprasert C. Two-dimensional CFD simulation and pilot-scale experimental verification of a downdraft gasifier: effect of reactor aspect ratios on temperature and syngas composition during gasification. International Journal of Coal Science & Technology. 2020; 7: 536-50.
[20] Ngasan C, Areeprasert C, Suchairat P, Chamnan B, Pattamasuwan A, Withayagiat U. A fixed bed column using bagasse ash for brine wastewater treatment from the sugar refining process. Pollution Research. 2020; 39.
[21] Inseemeesak B, Areeprasert C. Fiber extraction and energy recovery from Cocos nucifera Linn mesocarp residues employing steam explosion and anaerobic digestion. Ind Crop Prod. 2020; 147: 112180.
[22] Ngasan C, Areeprasert C, Lionnet GRE, Busayapongchai P, Pattamasuwan A, Withayagiat U. Characterisation and utilisation of fly ash for treatment of brine wastewater in sugar refineries. Desalin Water Treat. 2019; 167: 133-44.
[23] Phasee P, Areeprasert C. An investigation on mechanical property of MSW-derived fuel pellet produced from hydrothermal treatment. Journal of Material Cycles and Waste Management. 2018; 20: 2028-40.
[24] Areeprasert C, Khaobang C. Pyrolysis and catalytic reforming of ABS/PC and PCB using biochar and e-waste char as alternative green catalysts for oil and metal recovery. Fuel Process Technol. 2018; 182: 26-36.
[25] Areeprasert C, Kaharn J, Inseemeesak B, Phasee P, Khaobang C, Kuhavichanun A, et al. A comparative study on characteristic of locally source-separated and mixed MSW in Bangkok with possibility of material recycling. Journal of Material Cycles and Waste Management. 2018; 20: 302-13.
[26] Pornpraipech P, Khusakul M, Singklin R, Sarabhorn P, Areeprasert C. Effect of temperature and shape on drying performance of cassava chips. Agriculture and Natural Resources. 2017; 51: 402-9.
[27] Pongsurapipat Y, Areeprasert C, Takahashi F, Tokimatsu K, Yoshikawa K. Life cycle analysis of low-temperature hydrothermal treatment pathway to produce biodiesel from microalgae. Biofuels. 2017; 8: 215-23.
[28] Areeprasert C, Chanyavanich P, Ma D, Shen Y, Yoshikawa K. Effect of hydrothermal treatment on co-combustion of paper sludge with coal: thermal behavior, NO emissions, and slagging/fouling tendency. Biofuels. 2017; 8: 187-96.
[29] Ma D, Zhang G, Areeprasert C, Li C, Shen Y, Yoshikawa K, et al. Characterization of NO emission in combustion of hydrothermally treated antibiotic mycelial residue. Chemical Engineering Journal. 2016; 284: 708-15.
[30] Areeprasert C, Scala F, Coppola A, Urciuolo M, Chirone R, Chanyavanich P, et al. Fluidized bed co-combustion of hydrothermally treated paper sludge with two coals of different rank. Fuel Process Technol. 2016; 144: 230-8.
[31] Ma D, Zhang G, Zhao P, Areeprasert C, Shen Y, Yoshikawa K, et al. Hydrothermal treatment of antibiotic mycelial dreg: More understanding from fuel characteristics. Chemical Engineering Journal. 2015; 273: 147-55.
[32] Areeprasert C, Coppola A, Urciuolo M, Chirone R, Yoshikawa K, Scala F. The effect of hydrothermal treatment on attrition during the fluidized bed combustion of paper sludge. Fuel Process Technol. 2015; 140: 57-66.
[33] Zhao P, Ge S, Ma D, Areeprasert C, Yoshikawa K. Effect of hydrothermal pretreatment on convective drying characteristics of paper sludge. ACS Sustain Chem Eng. 2014; 2: 665-71.
[34] Shen Y, Areeprasert C, Prabowo B, Takahashi F, Yoshikawa K. Metal nickel nanoparticles in situ generated in rice husk char for catalytic reformation of tar and syngas from biomass pyrolytic gasification. RSC Advances. 2014; 4: 40651-64.
[35] Ma D, Zhang G, Areeprasert C, Lina G, Yoshikawa K. NO emission characteristics of hydrothermally pretreated antibiotic mycelial dreg combustion in a drop tube reactor. Energy Procedia. 2014; 61: 743-6.
[36] Areeprasert C, Zhao P, Ma D, Shen Y, Yoshikawa K. Alternative solid fuel production from paper sludge employing hydrothermal treatment. Energ Fuel. 2014; 28: 1198-206.
[37] Areeprasert C, Chanyavanich P, Ma D, Shen Y, Prabowo B, Yoshikawa K. Combustion characteristics and kinetics study of hydrothermally treated paper sludge by thermogravimetric analysis. Biofuels. 2014; 5: 673-85.
[38] Ge S, Zhao P, Areeprasert C, Yoshikawa K. Evaluation of energy recycling from sewage sludge by producing solid fuel with hydrothermal treatment. The 5th international conference on applied energy Pretoria, South Africa2013.
Conference proceedings
[1] Somkeattikul K, Areeprasert C, Kiatiwat T. Oil-palm empty fruit bunch fiber reinforcement in concrete-foam application for floating platform. IOP Conf Ser Earth Environ Sci: IOP Publishing; 2021. p. 012101.
[2] Ketwong T, Doong R-A, Areeprasert C. Effect of Activation Methods on the Supercapacitor Performance of Hydrochar Derived from Oil Palm Empty Fruit Bunch. IOP Conf Ser Earth Environ Sci: IOP Publishing; 2021. p. 012006.
[3] Leeabai N, Areeprasert C, Bussa B, Dilinazi D, Takahashi F. The color preference and noticeability of trash bins. Proceedings of the Annual Conference of Japan Society of Material Cycles and Waste Management The 31st Annual Conference of Japan Society of Material Cycles and Waste Management: Japan Society of Material Cycles and Waste Management; 2020. p. 443.
[4] Ketwong T, Sitthiseree S, Khembubpha A, Areeprasert C. Activated Carbon Production from Coconut Shell Charcoal Employing Steam and Chemical Activation for Ammonia Adsorption Application. Proceedings of the World Congress on Engineering and Computer Science 20192019.
[5] Kuhavichanan A, Kusolkumbot P, Sirisattha S, Areeprasert C. Mechanical Extraction of Protein Solution from Microalgae by Ultrasonication. IOP Conf Ser Earth Environ Sci: IOP Publishing; 2018. p. 012009.
[6] Areeprasert C, Leelachaikul P, Jangkobpattana G, Phumprasop K, Kiattiwat T. Biochar Preparation from Simulated Municipal Solid Waste Employing Low Temperature Carbonization Process. IOP Conference Series: Materials Science and Engineering: IOP Publishing; 2018. p. 012021.
[7] Phasee P, Areeprasert C. Thermal Decomposition Behavior during Combustion of Hydrothermally Treated MSW by Thermogravimetric Analysis. Energy Procedia. 2017; 138: 616-21.
[8] Khaobang C, Areeprasert C. Investigation on thermal decomposition and kinetics study of recovered oil from electronic waste by thermogravimetric analysis. Energy Procedia. 2017; 138: 506-11.
[9] Areeprasert C, Asingsamanunt J, Srisawat S, Kaharn J, Inseemeesak B, Phasee P, et al. Municipal Plastic Waste Composition Study at Transfer Station of Bangkok and Possibility of its Energy Recovery by Pyrolysis. Energy Procedia. 2017; 107: 222-6.
[10] Sarabhorn P, Kongdai P, Siwakosit W, Areeprasert C. Updraft co-gasification of wood pellet and charcoal effect of fuel mixing on important parameters. 54 Kasetsart University Annual Conference, Bangkok (Thailand), 2-5 Feb 20162016.
[11] Kongdai P, Sarabhorn P, Siwakosit W, Areeprasert C. Effect of bed depth on characterization of coconut shell charcoal in an updraft gasifier. 54 Kasetsart University Annual Conference, Bangkok (Thailand), 2-5 Feb 20162016.
[12] Ma D, Zhang G, Areeprasert C, Lina G, Yoshikawa K. NO emission characteristics of hydrothermally pretreated antibiotic mycelial dreg combustion in a drop tube reactor. Energy Procedia. 2014; 61: 743-6.
[13] Ge S, Zhao P, Areeprasert C, Yoshikawa K. Evaluation of energy recycling from sewage sludge by producing solid fuel with hydrothermal treatment. The 5th international conference on applied energy Pretoria, South Africa2013.