Potentials and challenges in lignocellulosic biofuel production technology M Raud, T Kikas, O Sippula, NJ Shurpali Renewable and Sustainable Energy Reviews 111, 44-56, 2019 | 253 | 2019 |
Second-generation bioethanol production: A review of strategies for waste valorisation L Rocha-Meneses, M Raud, K Orupõld, T Kikas Agronomy Research 15 (3), 830-847, 2017 | 81 | 2017 |
Dependence of the hydrolysis efficiency on the lignin content in lignocellulosic material M Raud, M Tutt, J Olt, T Kikas International Journal of Hydrogen Energy 41 (37), 16338-16343, 2016 | 63 | 2016 |
Basis of energy crop selection for biofuel production: cellulose vs. lignin T Kikas, M Tutt, M Raud, M Alaru, R Lauk, J Olt International journal of green energy 13 (1), 49-54, 2016 | 59 | 2016 |
The freezing pre-treatment of lignocellulosic material: a cheap alternative for Nordic countries V Rooni, M Raud, T Kikas Energy 139, 1-7, 2017 | 57 | 2017 |
N2 explosive decompression pretreatment of biomass for lignocellulosic ethanol production M Raud, J Olt, T Kikas Biomass and Bioenergy 90, 1-6, 2016 | 53 | 2016 |
The role of ionic liquids in the lignin separation from lignocellulosic biomass I Hasanov, M Raud, T Kikas Energies 13 (18), 4864, 2020 | 52 | 2020 |
Comparative study of semi-specific Aeromonas hydrophila and universal Pseudomonas fluorescens biosensors for BOD measurements in meat industry wastewaters M Raud, T Tenno, E Jõgi, T Kikas Enzyme and Microbial Technology 50 (4-5), 221-226, 2012 | 47 | 2012 |
The utilisation potential of urban greening waste: Tartu case study M Raud, M Mitt, T Oja, J Olt, K Orupõld, T Kikas Urban Forestry & Urban Greening 21, 96-101, 2017 | 37 | 2017 |
Utilization of urban waste in bioethanol production: potential and technical solutions. M Raud, R Kesperi, T Oja, J Olt, T Kikas | 37 | 2014 |
Potential of bioethanol production waste for methane recovery L Rocha-Meneses, M Raud, K Orupõld, T Kikas Energy 173, 133-139, 2019 | 35 | 2019 |
Bioelectronic tongue and multivariate analysis: A next step in BOD measurements M Raud, T Kikas Water research 47 (7), 2555-2562, 2013 | 32 | 2013 |
BOD biosensors for pulp and paper industry wastewater analysis M Raud, M Tutt, E Jõgi, T Kikas Environmental Science and Pollution Research 19, 3039-3045, 2012 | 30 | 2012 |
Effect of lignin content of lignocellulosic material on hydrolysis efficiency. M Raud, M Tutt, J Olt, T Kikas Agronomy Research 13 (2), 2015 | 29 | 2015 |
Nitrogen explosive decompression pre-treatment: An alternative to steam explosion M Raud, K Krennhuber, A Jäger, T Kikas Energy 177, 175-182, 2019 | 24 | 2019 |
Technical solutions used in different pretreatments of lignocellulosic biomass: a review V Rooni, M Raud, T Kikas Agronomy Research 15 (3), 848-858, 2017 | 23 | 2017 |
Nitrosomonas sp. Based biosensor for ammonium nitrogen measurement in wastewater M Raud, E Lember, E Jõgi, T Kikas Biotechnology and bioprocess engineering 18, 1016-1021, 2013 | 21 | 2013 |
The effect of flue gas explosive decompression pretreatment on methane recovery from bioethanol production waste L Rocha-Meneses, A Ivanova, G Atouguia, I Ávila, M Raud, K Orupõld, ... Industrial crops and products 127, 66-72, 2019 | 20 | 2019 |
Explosive decompression pretreatment: nitrogen vs. compressed air. M Raud, V Rooni, T Kikas Agronomy Research 14 (2), 2016 | 18 | 2016 |
Semi-specific Microbacterium phyllosphaerae-based microbial sensor for biochemical oxygen demand measurements in dairy wastewater E Kibena, M Raud, E Jõgi, T Kikas Environmental Science and Pollution Research 20, 2492-2498, 2013 | 18 | 2013 |