1 |
The alkaloid gramine in the anaerobic digestion process-inhibition and adaptation of the methanogenic community Popp D, Harms H, Strauber H Applied Microbiology and Biotechnology, 100(16), 7311, 2016 |
2 |
Nanomapping and speciation of C and Ca in thermally treated lignocellulosic cell walls using scanning transmission X-ray microscopy and K-edge XANES Thyrel M, Backman R, Thanell K, Karunakaran C, Skyllberg U, Lestander TA Fuel, 167, 149, 2016 |
3 |
Profitability of the production of energy grasses on marginal agricultural land in Sweden Nilsson D, Rosenqvist H, Bernesson S Biomass & Bioenergy, 83, 159, 2015 |
4 |
Comparison of biogas production from wild and cultivated varieties of reed canary grass Oleszek M, Krol A, Tys J, Matyka M, Kulik M Bioresource Technology, 156, 303, 2014 |
5 |
Pyrolysis of biomass - fuzzy modeling Lerkkasemsan N, Achenie LEK Renewable Energy, 66, 747, 2014 |
6 |
The yield response of the energy crops switchgrass and reed canary grass to fertiliser applications when grown on a low productivity sandy soil Shield IF, Barraclough TJP, Riche AB, Yates NE Biomass & Bioenergy, 42, 86, 2012 |
7 |
Reed canary grass as a feedstock for 2nd generation bioethanol production Kallioinen A, Uusitalo J, Pahkala K, Kontturi M, Viikari L, von Weymarn N, Siika-aho M Bioresource Technology, 123, 669, 2012 |
8 |
Temperature controlled feed layer formation in biofuel pellet production Larsson SH, Rudolfsson M, Thyrel M, Orberg H, Kalen G, Wallin M, Lestander TA Fuel, 94(1), 81, 2012 |
9 |
Reed canary grass yield and fuel quality in Estonian farmers' fields Heinsoo K, Hein K, Melts I, Holm B, Ivask M Biomass & Bioenergy, 35(1), 617, 2011 |
10 |
Reed canary grass transportation costs - Reducing costs and increasing feasible transportation distances Lindh T, Paappanen T, Rinne S, Sivonen K, Wihersaari M Biomass & Bioenergy, 33(2), 209, 2009 |