KKU Scholar | WEB : researcher

Worapong Wongarmat

คณะเทคโนโลยี,

มหาวิทยาลัยขอนแก่น

57221864844: H-INDEX 5

บทความ

TCI อ้างอิงจาก http://www.tci-thaijo.org/

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SCOPUS

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PUBMED

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ISI

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TCI

	Title	Author	Year	SCOPUS	PUBMED	ISI	TCI
1.	Anaerobic co-digestion of biogas effluent and sugarcane filter cake for methane production	Worapong Wongarmat Alissara Reungsang Sureewan Sittijunda Chen-Yeon Chu	2021
2.	Acidogenic phase anaerobic digestion of pretreated sugarcane filter cake for co-digestion with biogas effluent to enhance the methane production	Sittijunda, S.	2022
3.	Anaerobic co-digestion of biogas effluent and sugarcane filter cake for methane production	Sittijunda, S.	2022
4.	Advancing Energy Recovery from Sugarcane Leaf via Two-Stage Anaerobic Digestion for Hydrogen and Methane Production: Impacts on Greenhouse Gas Mitigation and Sustainable Energy Production	Sukphun, P. Ponuansri, C. Wongarmat, W. Sittijunda, S. Promnuan, K.	2023
5.	Two-stage biohydrogen and methane production from sugarcane-based sugar and ethanol industrial wastes: A comprehensive review.	Sukphun, P. Wongarmat, W. Imai, T. Sittijunda, S. Chaiprapat, S.	2023
6.	Co-digestion of filter cake, biogas effluent, and anaerobic sludge for hydrogen and methane production: Optimizing energy recovery through two-stage anaerobic digestion	Wongarmat, W. Sittijunda, S. Imai, T.	2025
7.	Optimizing hydraulic retention time for methane production from the hydrogenic effluent left over from the co-digestion of vinasse and spent brewer's yeast cell	Nualsri, C. Sreela-or, C. Tharangsri, P. Wongarmat, W.	2025
	Count			6	1	1	0

	Title	Authors	Year	Publication name	Cited count
	Title	Authors	Year	Publication name	< 2020	2021	2022	2023	2024	2025	รวม
1.	Acidogenic phase anaerobic digestion of pretreated sugarcane filter cake for co-digestion with biogas effluent to enhance the methane production	Sittijunda, S.	2022	Fuel (310), pp.
2.	Anaerobic co-digestion of biogas effluent and sugarcane filter cake for methane production	Sittijunda, S.	2022	Biomass Conversion and Biorefinery 3 (12), pp. 901-912
3.	Advancing Energy Recovery from Sugarcane Leaf via Two-Stage Anaerobic Digestion for Hydrogen and Methane Production: Impacts on Greenhouse Gas Mitigation and Sustainable Energy Production	Sukphun, P. Ponuansri, C. Wongarmat, W. Sittijunda, S. Promnuan, K.	2023	Energies 23 (16), pp.
4.	Two-stage biohydrogen and methane production from sugarcane-based sugar and ethanol industrial wastes: A comprehensive review	Sukphun, P. Wongarmat, W. Imai, T. Sittijunda, S. Chaiprapat, S.	2023	Bioresource Technology (386), pp.
5.	Co-digestion of filter cake, biogas effluent, and anaerobic sludge for hydrogen and methane production: Optimizing energy recovery through two-stage anaerobic digestion	Wongarmat, W. Sittijunda, S. Imai, T.	2025	Carbon Resources Conversion 2 (8), pp.
6.	Optimizing hydraulic retention time for methane production from the hydrogenic effluent left over from the co-digestion of vinasse and spent brewer's yeast cell	Nualsri, C. Sreela-or, C. Tharangsri, P. Wongarmat, W.	2025	Carbon Resources Conversion (), pp.

	Title	Authors	Year	Journal title
1.	Two-stage biohydrogen and methane production from sugarcane-based sugar and ethanol industrial wastes: A comprehensive review.	Sukphun, P Wongarmat, W Imai, T Sittijunda, S Chaiprapat, S Reungsang, A	2023	Bioresource technology (386), pp. 129519

	Title	Authors	Year	Journal title	Cited count
	Title	Authors	Year	Journal title	< 2020	2021	2022	2023	2024	2025	รวม
1.	Anaerobic co-digestion of biogas effluent and sugarcane filter cake for methane production	Worapong Wongarmat Alissara Reungsang Sureewan Sittijunda Chen-Yeon Chu	2021	BIOMASS CONVERSION AND BIOREFINERY (), pp.	2	0	0	0	0	0	2

	Title	Authors	Year	Journal title

	ชื่อโครงการ	Authors	ประเภทโครงการ	ปีงบประมาณ	ทุนวิจับ

0.012603759765625