Quang-Vu Bach
Quang-Vu Bach
Department of Energy and Process Engineering, Norwegian University of Science and Technology
Verified email at ntnu.no
Cited by
Cited by
Upgrading biomass fuels via wet torrefaction: A review and comparison with dry torrefaction
QV Bach, Skreiberg
Renewable and Sustainable Energy Reviews 54, 665-677, 2016
A review of thermochemical conversion of microalgal biomass for biofuels: chemistry and processes
G Kumar, S Shobana, WH Chen, QV Bach, SH Kim, AE Atabani, ...
Green Chemistry 19 (1), 44-67, 2017
Pyrolysis characteristics and kinetics of microalgae via thermogravimetric analysis (TGA): a state-of-the-art review
QV Bach, WH Chen
Bioresource technology 246, 88-100, 2017
Comparative assessment of wet torrefaction
QV Bach, KQ Tran, RA Khalil, Skreiberg, G Seisenbaeva
Energy & Fuels 27 (11), 6743-6753, 2013
Fast hydrothermal liquefaction of a Norwegian macro-alga: screening tests
QV Bach, MV Sillero, KQ Tran, J Skjermo
Algal Research 6, 271-276, 2014
A comprehensive study on pyrolysis kinetics of microalgal biomass
QV Bach, WH Chen
Energy conversion and management 131, 109-116, 2017
Hazardous heavy metals contamination of vegetables and food chain: Role of sustainable remediation approaches-A review
S Kumar, S Prasad, KK Yadav, M Shrivastava, N Gupta, S Nagar, ...
Environmental research 179, 108792, 2019
Direct transesterification of black soldier fly larvae (Hermetia illucens) for biodiesel production
HC Nguyen, SH Liang, SY Li, CH Su, CC Chien, YJ Chen, DTM Huong
Journal of the Taiwan Institute of Chemical Engineers 85, 165-169, 2018
Effects of wet torrefaction on pyrolysis of woody biomass fuels
QV Bach, KQ Tran, Skreiberg, TT Trinh
Energy 88, 443-456, 2015
Wet torrefaction of biomass for high quality solid fuel production: A review
C He, C Tang, C Li, J Yuan, KQ Tran, QV Bach, R Qiu, Y Yang
Renewable and Sustainable Energy Reviews 91, 259-271, 2018
Effects of wet torrefaction on reactivity and kinetics of wood under air combustion conditions
QV Bach, KQ Tran, Skreiberg, RA Khalil, AN Phan
Fuel 137, 375-383, 2014
Predictions of biochar yield and elemental composition during torrefaction of forest residues
QV Bach, WH Chen, YS Chu, Skreiberg
Bioresource technology 215, 239-246, 2016
Wet torrefaction of microalga Chlorella vulgaris ESP-31 with microwave-assisted heating
QV Bach, WH Chen, SC Lin, HK Sheen, JS Chang
Energy Conversion and Management 141, 163-170, 2017
Pyrolysis characteristics and kinetics of biomass torrefied in various atmospheres
QV Bach, TN Trinh, KQ Tran, NBD Thi
Energy conversion and management 141, 72-78, 2017
Non-isothermal pyrolysis of torrefied stump - A comparative kinetic evaluation
KQ Tran, QV Bach, TT Trinh, G Seisenbaeva
Applied energy 136, 759-766, 2014
Quantitative risk assessment of an urban hydrogen refueling station
HR Gye, SK Seo, QV Bach, D Ha, CJ Lee
International Journal of Hydrogen Energy 44 (2), 1288-1298, 2019
Development of a biomass torrefaction process integrated with oxy-fuel combustion
KQ Tran, TN Trinh, QV Bach
Bioresource technology 199, 408-413, 2016
Torrefaction influence on pelletability and pellet quality of Norwegian forest residues
N Mišljenović, QV Bach, KQ Tran, C Salas-Bringas, Skreiberg
Energy & fuels 28 (4), 2554-2561, 2014
Combustion kinetics of wet-torrefied forest residues using the distributed activation energy model (DAEM)
QV Bach, KQ Tran, Skreiberg
Applied Energy 185, 1059-1066, 2017
Comparative study on the thermal degradation of dry-and wet-torrefied woods
QV Bach, KQ Tran, Skreiberg
Applied Energy 185, 1051-1058, 2017
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