Environmental Engineering Reference
In-Depth Information
Larson, E., Consonni, S. & Katofsky, R.: A cost-benefit assessment of gasification-based biorefining in the
Kraft pulp and paper industry. Final report, Volume 1. Princeton University and Politecnico di Milano,
2006.
Maunsbach, K., Isaksson, A., Yan, J., Svedberg, G. & Eidensten, L.: Integration of advanced gas turbines in
pulp and paper mills for increased power generation.
J. Eng. Gas Turb. Power
123:4 (2001).
Möllersten, K. & Yan J.: Economic evaluation of biomass-based energy systems with CO
2
capture and
sequestration - The influence of the price of CO
2
emission quota.
World Resource Rev.
13:4 (2001),
pp. 509-525.
Möllersten, K., Yan, J. &Westermark, M.: Potential and cost-effectiveness of CO
2
-reduction in the Swedish
pulp and paper sector.
Energy
28 (2003a), pp. 691-710.
Möllersten, K., Yan, J. & Moreira, J.: Potential market niches for biomass energy with CO
2
capture and
storage.
Biomass Bioenergy
25:3 (2003b), pp. 273-285.
Möllersten, K., Lin, G., Yan, J. & Obersteiner, M.: Efficient energy systems with CO
2
capture and storage
from renewable biomass in pulp and paper mills.
Renew. Energy
29 (2004), pp. 1583-1598.
Naqvi, M., Yan, J. & Fröling, M.: Bio-refinery system of DME or CH
4
production from black liquor
gasification in pulp mills.
Bioresour. Technol.
101 (2010a), pp. 937-944.
Naqvi, M., Yan, J. & Dahlquist, E.: Black liquor gasification integrated in pulp and paper mills: a critical
review.
Bioresour. Technol.
101 (2010b), pp. 8001-8015.
Naqvi, M.,Yan, J. & Dahlquist, E.: Synthetic gas production from dry black liquor gasification process using
direct causticization with CO
2
capture.
Appl. Energy
97 (2012a), pp. 49-55.
Naqvi, M., Yan, J. & Dahlquist, E:. Bio-refinery system in a pulp mill for methanol production with com-
parison of pressurized black Liquor gasification and dry gasification using direct causticization.
Appl.
Energy
90 (2012b), pp. 24-31.
Naqvi, M., Yan, J. & Dahlquist, E.: Energy conversion performance of black liquor gasification to hydrogen
production using direct causticization with CO
2
capture.
Bioresour. Technol
. 110 (2012c), pp. 637-644.
Näsholm, A. & Westermark, M.: Energy studies of different cogeneration systems for black liquor
gasification.
Energy Convers. Manage.
15:38 (1997), pp. 1655-1663.
Sricharoenchaikul, V.: Assessment of black liquor gasification in supercritical water.
Bioresour. Technol
.
100 (2009), pp. 638-643.
Swedish Energy Agency: Report on the annual Energy in Sweden. Swedish Energy Agency, Stockholm,
Sweden, 2009, http://www.energimyndigheten.se/en/ (accessed July 2012).
Swedish Forest Industries: The report on the Swedish Forest Industries - Facts and figures 2010. Stockholm,
Sweden, 2010, http://www.skogsindustrierna.se/web/Utgivningsar_2011.aspx (accessed July 2012).
Thuijl, E., Roos, C. & Beurskens, L.: An overview of biofuel technologies, markets and policies in Europe.
ECN-C-03-008, 2003.
US Department of Energy: Views on renewable energy and biomass. 2012, http://www.energy.gov/energy
sources/bioenergy.htm (accessed July 2012).
Wolf, J., Barone, F. &Yan, J.: Performance analysis of evaporative biomass air turbine cycle with gasification
for topping combustion.
J. Eng. Gas Turb. Power
124:4 (2002), pp. 757-761.
Yan, J., Eidensten, L. & Svedberg, G.: An investigation of heat recovery system in externally fired evaporative
gas turbines.
ASME Paper
95-GT-72, 1995.
Yan, J. & Eidensten, L.: Status and perspective of externally fired gas turbines.
J. Propul. Power
16 (2000),
pp. 572-576.
Yan, J., Dahlquist, E., Jin, H., Gao, L. & Tu, S.: Integration of large scale pulp and paper mills with CO
2
Mitigation Technologies.
The 3rd International Green Energy Conference
, Västerås, Sweden, 2007.
Zakrisson, M.: Internationell jämförelse av produktionskostnader vid pelletstillverkning. Department of
Forest Management and Products, SLU, Uppsala, Sweden, 2002.
Search WWH ::
Custom Search