Anna Trubetskaya
Anna Trubetskaya
Nord University
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Influence of fast pyrolysis conditions on yield and structural transformation of biomass chars
A Trubetskaya, PA Jensen, AD Jensen, M Steibel, H Spliethoff, P Glarborg
Fuel processing technology 140, 205-214, 2015
Effects of several types of biomass fuels on the yield, nanostructure and reactivity of soot from fast pyrolysis at high temperatures
A Trubetskaya, PA Jensen, AD Jensen, ADG Llamas, K Umeki, D Gardini, ...
Applied Energy 171, 468-482, 2016
Characterization of woodstove briquettes from torrefied biomass and coal
A Trubetskaya, JJ Leahy, E Yazhenskikh, M Müller, P Layden, R Johnson, ...
Energy 171, 853-865, 2019
Effect of fast pyrolysis conditions on biomass solid residues at high temperatures
A Trubetskaya, PA Jensen, AD Jensen, ADG Llamas, K Umeki, ...
Fuel processing technology 143, 118-129, 2016
Characterization of free radicals by electron spin resonance spectroscopy in biochars from pyrolysis at high heating rates and at high temperatures
A Trubetskaya, PA Jensen, AD Jensen, P Glarborg, FH Larsen, ...
Biomass and Bioenergy 94, 117-129, 2016
Comparison of high temperature chars of wheat straw and rice husk with respect to chemistry, morphology and reactivity
A Trubetskaya, PA Jensen, AD Jensen, M Steibel, H Spliethoff, P Glarborg, ...
Biomass and bioenergy 86, 76-87, 2016
Removal of phenol and chlorine from wastewater using steam activated biomass soot and tire carbon black
A Trubetskaya, J Kling, O Ershag, TM Attard, E Schröder
Journal of hazardous materials 365, 846-856, 2019
Hydrothermal carbonization of olive wastes to produce renewable, binder-free pellets for use as metallurgical reducing agents
GR Surup, JJ Leahy, MT Timko, A Trubetskaya
Renewable Energy 155, 347-357, 2020
Characterization and reactivity of charcoal from high temperature pyrolysis (800–1600 C)
GR Surup, HK Nielsen, M Heidelmann, A Trubetskaya
Fuel 235, 1544-1554, 2019
The effect of particle size, temperature and residence time on the yields and reactivity of olive stones from torrefaction
A Trubetskaya, J Grams, JJ Leahy, R Johnson, P Gallagher, ...
Renewable Energy 160, 998-1011, 2020
Modeling the influence of potassium content and heating rate on biomass pyrolysis
A Trubetskaya, G Surup, A Shapiro, RB Bates
Applied Energy 194, 199-211, 2017
Charcoal as an alternative reductant in ferroalloy production: a review
GR Surup, A Trubetskaya, M Tangstad
Processes 8 (11), 1432, 2020
One way of representing the size and shape of biomass particles in combustion modeling
A Trubetskaya, G Beckmann, J Wadenbäck, JK Holm, SP Velaga, ...
Fuel 206, 675-683, 2017
Characterization and reactivity of soot from fast pyrolysis of lignocellulosic compounds and monolignols
A Trubetskaya, A Brown, GA Tompsett, MT Timko, J Kling, M Broström, ...
Applied energy 212, 1489-1500, 2018
Prediction of fast pyrolysis products yields using lignocellulosic compounds and ash contents
A Trubetskaya, MT Timko, K Umeki
Applied Energy 257, 113897, 2020
Potassium and soot interaction in fast biomass pyrolysis at high temperatures
A Trubetskaya, FH Larsen, A Shchukarev, K Ståhl, K Umeki
Fuel 225, 89-94, 2018
Categorization of tars from fast pyrolysis of pure lignocellulosic compounds at high temperature
A Trubetskaya, N Souihi, K Umeki
Renewable Energy 141, 751-759, 2019
The effect of feedstock origin and temperature on the structure and reactivity of char from pyrolysis at 1300–2800 C
GR Surup, M Foppe, D Schubert, R Deike, M Heidelmann, MT Timko, ...
Fuel 235, 306-316, 2019
Structural and thermal characterization of novel organosolv lignins from wood and herbaceous sources
A Trubetskaya, H Lange, B Wittgens, A Brunsvik, C Crestini, U Rova, ...
Processes 8 (7), 860, 2020
Effect of microwave and thermal co-pyrolysis of low-rank coal and pine wood on product distributions and char structure
V Abdelsayed, CR Ellison, A Trubetskaya, MW Smith, D Shekhawat
Energy & fuels 33 (8), 7069-7082, 2019
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