Kraft pulp and paper mills generate large quantities of black liquor and byproduct biomass suitable for gasification. These fuels are used today for onsite cogeneration of heat and power in boiler/steam turbine systems. Gasification technologies under development would enable these fuels to be used in gas turbines. This paper reports results of detailed full-load performance modeling of pulp-mill cogeneration systems, based on gasifier/gas turbine technologies and, for comparison, on conventional steam-turbine cogeneration technologies. Pressurized, oxygen-blown black liquor gasification, the most advanced of proposed commercial black liquor gasifier designs, is considered, together with three alternative biomass gasifier designs under commercial development (high-pressure air-blown, low-pressure air-blown, and low-pressure indirectly-heated). Heavy-duty industrial gas turbines of the 70-MWe and 25-MWe class are included in the analysis. Results indicate that gasification-based cogeneration with biomass-derived fuels would transform a typical pulp mill into a significant power exporter and would also offer possibilities for net reductions in emissions of carbon dioxide relative to present practice.

Issue Section:
Gas Turbines: Coal, Biomass, and Alternative Fuels
Topics:
Biomass, Combined heat and power, Gas turbines, Pulp, Sulfate waste liquor, Fuel gasification, Fuels, Pressure, Steam turbines, Boilers, Carbon dioxide, Cogeneration systems, Emissions, Heat, High pressure (Physics), Industrial gases, Kraft papers, Modeling, Oxygen, Stress, Turbines
1.
AFPA, 1995, Paper, Paperboard & Wood Pulp, 1995 Stats., data through 1994, report, American Forest & Paper Assoc., Wash., DC.
2.
AFPA, 1996, Fact Sheet on 1994 Energy Use in the US Pulp & Paper Ind., report, American Forest & Paper Assoc., Wash., DC.
3.
Consonni
S.
, and
Larson
E. D.
,
1996
, “
Gas Turbine Combined Cycles, Part A: Technologies and Performance Modeling, and Part B: Performance Calculations and Economic Assessment
,”
ASME JOURNAL OF ENGINEERING FOR GAS TURBINES AND POWER
, Vol.
118
, pp.
507
525
.
4.
Consonni
S.
,
Larson
E. D.
,
Kreutz
T. G.
, and
Berglin
N.
,
1998
, “
Black Liquor Gasifier/Gas Turbine Cogeneration
,”
ASME JOURNAL OF ENGINEERING FOR GAS TURBINES AND POWER
, Vol.
120
, No.
3
, pp.
442
449
.
5.
Craig, K. R., and Mann, M. K., 1996, “Cost and Performance Analysis of Biomass-Based Integrated Gasification Combined-Cycle (BIGCC) Power Systems,” NREL/TP-430-21657; Nat’l. Renewable Energy Lab. Golden, CO.
6.
Hughes
W. E. M.
, and
Larson
E. D.
,
1998
, “
Effect of Fuel Moisture Content on Biomass-IGCC Performance
,”
ASME JOURNAL OF ENGINEERING FOR GAS TURBINES AND POWER
, Vol.
120
, No.
3
, pp.
455
459
.
7.
Larson, E. D., Consonni, S., and Kreutz, T. G., 1998, “Preliminary Economics of Black-Liquor Gasifier/Gas Turbine Cogeneration at Pulp and Paper Mills,” ASME Paper 98-GT-346.
8.
Larson
E. D.
, and
Raymond
D.
,
1997
a, “
Commercializing Black Liquor and Biomass Gasifier/Gas Turbine Technology
,”
Tappi Journal
, Vol.
80
, No.
12
. pp.
50
57
.
9.
Larson, E. D., and Raymond, D., (organizers), 1997b, “Report on Workshop on Commercialization of Black Liquor and Biomass Gasification for Gas Turbine Applications in the Pulp and Paper Industry,” Center for Energy & Environmental Studies, Princeton University, Princeton, NJ.
10.
Paisley, M., and Anson, D., 1997, “Gasification for Gas Turbine Based Power Generation,” ASME Paper 97-GT-5.
11.
Salo, K., Horvath, A., and Patel, J., 1998, “Pressurized Gasification of Biomass,” ASME Paper 98-GT-349.
12.
Waldheim, L., and Carpentieri, E., 1998, “Update on the Progress of the Brazilian Wood BIG-GT Demonstration Project,” ASME Paper 98-GT-472.
13.
Watson, R. T., Zinyowera, M. C., and Moss, R. H., eds., 1996, “Climate Change 1995: Impacts, Adaptations and Mitigation of Climate Change: Scientific-Technical Analyses,” contribution of Working Group II to the Second Assessment Report of the Intergovernmental Panel on Climate Change, Cambridge Univ. Press, Cambridge, MA, p. 654.
14.
Weyerhaeuser Co., Stone & Webster, Amoco Oil, and Carolina Power & Light, 1995, “New Bern Biomass to Energy Project Phase I Feasibility Study,” published by Nat’l. Renewable Energy Lab. (Golden, CO) and Electric Power Research Inst. (Palo Alto, CA).
15.
Williams
R. H.
and
Larson
E. D.
,
1996
, “
Biomass-Gasifier/Gas Turbine Power Generating Technology
,”
Biomass and Bioenergy
, Vol.
10
, No.
2/3
, pp.
149
166
.
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