Esa Kari Vakkilainen
Esa Kari Vakkilainen
Professor of Sustainable energy systems, Lappeenranta University of Technology
Geverifieerd e-mailadres voor lut.fi
Geciteerd door
Geciteerd door
Corrosion of superheater steel materials under alkali salt deposits Part 1: The effect of salt deposit composition and temperature
BJ Skrifvars, R Backman, M Hupa, K Salmenoja, E Vakkilainen
Corrosion Science 50 (5), 1274-1282, 2008
Biomass for industrial applications: The role of torrefaction
S Proskurina, J Heinimö, F Schipfer, E Vakkilainen
Renewable Energy 111, 265-274, 2017
Hydrothermal carbonization of coniferous biomass: Effect of process parameters on mass and energy yields
E Sermyagina, J Saari, J Kaikko, E Vakkilainen
Journal of Analytical and Applied Pyrolysis 113, 551-556, 2015
Five years left–How are the EU member states contributing to the 20% target for EU's renewable energy consumption; the role of woody biomass
S Proskurina, R Sikkema, J Heinimö, E Vakkilainen
Biomass and bioenergy 95, 64-77, 2016
Kraft recovery boilers–Principles and practice
E Vakkilainen
Valopaino Oy, 2005
Global biomass trade for energy—Part 2: Production and trade streams of wood pellets, liquid biofuels, charcoal, industrial roundwood and emerging energy biomass
S Proskurina, M Junginger, J Heinimö, B Tekinel, E Vakkilainen
Biofuels, bioproducts and biorefining 13 (2), 371-387, 2019
Alternative technologies for biofuels production in kraft pulp mills—Potential and prospects
M Hamaguchi, M Cardoso, E Vakkilainen
Energies 5 (7), 2288-2309, 2012
Adsorption behavior of hydrothermally treated municipal sludge & pulp and paper industry sludge
SM Alatalo, E Repo, E Mäkilä, J Salonen, E Vakkilainen, M Sillanpää
Bioresource technology 147, 71-76, 2013
Energy-efficient control strategy for variable speed-driven parallel pumping systems
J Viholainen, J Tamminen, T Ahonen, J Ahola, E Vakkilainen, R Soukka
Energy Efficiency 6 (3), 495-509, 2013
Large industrial users of energy biomass
E Vakkilainen, K Kuparinen, J Heinimö
IEA Bioenergy Task 40, 2013, 2013
Steam generation from biomass: construction and design of large boilers
EK Vakkilainen
Butterworth-Heinemann, 2016
Large-scale biomass combustion plants: an overview
S Caillat, E Vakkilainen
Biomass combustion science, technology and engineering, 189-224, 2013
Effects of hemicellulose extraction on the kraft pulp mill operation and energy use: Review and case study with lignin removal
M Hamaguchi, J Kautto, E Vakkilainen
Chemical Engineering Research and Design 91 (7), 1284-1291, 2013
Characterization of residual biomasses from the coffee production chain and assessment the potential for energy purposes
CLM Martinez, EPA Rocha, ACO Carneiro, FJB Gomes, LAR Batalha, ...
Biomass and Bioenergy 120, 68-76, 2019
Production and characterization of coffee-pine wood residue briquettes as an alternative fuel for local firing systems in Brazil
CLM Martinez, E Sermyagina, ACO Carneiro, E Vakkilainen, M Cardoso
Biomass and Bioenergy 123, 70-77, 2019
Alkali salt ash formation in four Finnish industrial recovery boilers
P Mikkanen, EI Kauppinen, J Pyykönen, JK Jokiniemi, M Aurela, ...
Energy & Fuels 13 (4), 778-795, 1999
Effect of heat integration method and torrefaction temperature on the performance of an integrated CHP-torrefaction plant
E Sermyagina, J Saari, B Zakeri, J Kaikko, E Vakkilainen
Applied Energy 149, 24-34, 2015
Biomass-based carbon capture and utilization in kraft pulp mills
K Kuparinen, E Vakkilainen, T Tynjälä
Mitigation and Adaptation Strategies for Global Change 24 (7), 1213-1230, 2019
The wood pellet business in Russia with the role of North-West Russian regions: Present trends and future challenges
S Proskurina, J Heinimö, M Mikkilä, E Vakkilainen
Renewable and Sustainable Energy Reviews 51, 730-740, 2015
2D dynamic mesh model for deposit shape prediction in boiler banks of recovery boilers with different tube spacing arrangements
MG Pérez, E Vakkilainen, T Hyppänen
Fuel 158, 139-151, 2015
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