Techno-Economic Aspects of Biomass Gasification Process

31.07.2015 | Автор: spec

A number of researchers have studied the techno-economic aspects of the biomass gasification process to cellulosic ethanol discussed in Part 3 of this book [19-25]. There are considerable variations in gasifier types and methods used to convert syngas to ethanol, making it difficult to compare individual studies. Villanueva Perales and coworkers have studied the techno-economic aspects of the production of ethanol via entrained flow gasification of biomass and subsequent catalytic synthesis by considering current and future scenarios [22]. In the current scenarios are plants making use of available technologies and state-of-the-art mixed alcohol catalysts (Rh-Mn/SiO2 and KCoMoS2 catalysts). In the future scenarios, the

MESP ($/gal)	Feedstock	Scale (dry ton/day)	Feed Price ($/dry ton)	Ethanol Yield (gal/dry ton)	Notes	Reference
1.49	Corn stover	2200	51	90	Dilute acid pretreatment, SSCF process, electricity co-product	[12]
2.15	Corn stover	2200	59	79	Dilute acid pretreatment, SHF process, electricity co-product	[2]
3.40-4.44	Corn stover	2200	75	42-72	Varying pretreatment options and downstream process assumptions	[4]
1.42-1.87	Aspen, poplar, corn stover, switchgrass	2200	58-100	83-111	Dilute acid pretreatment	[11]
1.03-1.41	Corn stover	2200	40	70	AFEX pretreatment, SSCF process, varying process conditions	[13]

Table 17.2 A survey of recent techno-economic analysis studies on biochemical cellulosic ethanol [2].

534 Handbook of Cellulosic Ethanol

Table 17.3 Breakdown of the MESP for a corn stover ethanol plant using dilute acid pretreatment with enzymatic hydrolysis and co-fermentation; ethanol production capacity, yield, feedstock + handling cost, internal rate of return, and equity percent of total investment [2].

Minimum Ethanol Selling Price (MESP):	$2.15 /gal
Gasoline-Equivalent MESP:	$3.27 /gal gasoline equivalent
Contributions:
Feedstock	$0.74 /gal
Enzymes	$0.34 /gal
Non-Enzyme Conversion	$1.08 /gal
Ethanol Production	61.0 Mgal/yr (Ethanol at 68°F)
Ethanol Yield	79.0 gal / dry U. S. ton feedstock
Feedstock + Handling Cost	$58.50 /dry U. S. ton
Internal Rate of Return (After-Tax)	10%
Equity Percent of Total Investment	40%

Table 17.4 Some key process parameters used to calculate minimum ethanol selling price (MESP) in the, "Enzymatic Hydrolysis of Corn Stover," Technical Report NREL/TP-5100-47764 May 2011 [2].

Feedstock — Corn stover, 20% moisture content
Pretreatment
Acid Concentration (wt%)	0.82%
Total Solids (wt%)	30.0%
Insoluble Solids in (wt%)	22.6%
Insoluble Solids out (wt%)	16.6%
Temperature (°C)	158
Pressure (atm)	5.7

Feedstock — Corn stover, 20% moisture content
Conversions Overall
Cellulose to Glucose	9.9%
Xylan to Xylose	90%
Mannan to Mannose	90%
Arabinan to Arabinose	90%
Lignin to Soluble Lignin	5%
Enzymatic Hydrolysis
Enzyme Loading (mg/g cell)	19.9
Total Solids (wt%)	20.0%
Insoluble Solids (wt%)	10.6%
Temperature (°C)	32
Pressure (atm)	1.0
Residence Time (days)	3.5
Conversions Overall
Cellulose to Glucose	90%
Conditioning, Ammonia Loading (g/L hydrolyzate)	4.7
Fermentation
Total Solids (wt%)	19.8%
Insoluble Solids (wt%)	5.1%
Temperature (°C)	32
Pressure (atm)	1.0
Residence Time (days)	1.5
Conversions Overall
Glucose to Ethanol	95%

(Continued)

Table 17.4 (Cont.)

Feedstock — Corn stover, 20% moisture content
Xylose to Ethanol	85%
Arabinose to Ethanol	85%
Boiler/Turbogenerator
WWT sludge moisture %	79.0%
First effect lignin moisture %	35.0%
Combined boiler feed moisture	44.3%
Boiler feed combustion energy MMkcal/hr	-181
% from lignin cake	54%
% from biogas	36%
Boiler feed heating value (kcal/kg)	-497
Boiler feed heating value (Btu/lb)	-895
Boiler efficiency (feed/steam)	80%
Steam loop flow (kg/hr)	234,784
Total Generator Output (kW)	-41,324

effects of improvements in MoS2 catalyst performance and the availability of pressurized solid biomass feeding systems are assessed. A plant size of 2140 dry tonnes/day of wood chip (500 MWth) is considered in this study with the criteria of being energy self-sufficient. The analysis revealed that although the rhodium catalyst presents better performance than MoS2 catalysts in terms of selectivity to ethanol, the high price of the rhodium catalyst leads to higher production costs. For current catalysts, the minimum ethanol selling price (including 10% rate of return) is in the range of $0.90-1.25/L ($3.41-4.73/US gallon). According to the analysis of Villanueva Perales and coworkers, in a future scenario, expected improvements in MoS2 catalyst performance would lead to a decrease in price to about $0.71 /L ($2.69/US gallon).

Prior to the study of Villanueva Perales et al., Dutta and Biddy of NREL reported a study based on an entrained flow slagging gasifier,

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where the MESP was 0.66 $/L ($2.50/US gallon) for a biomass price of $53/dry tonne [26]. The lower MESP reported by Dutta et al. may be largely due to the use of a piston feeder, which allows feeding solid biomass to pressurized gasifiers without needing a flash pyrolysis pretreatment as compared to Villanueva Perales and coworkers study. This comparison of the studies shows the high impact of the feed handling system on process economics in the case of pressurized entrained flow gasifiers [26].

In the gasification route, the catalyst plays a very important role in the overall process economics and MESP. A comparison of MESPs of ethanol produced using three different catalysts, Rh-Mn/SiO2 (PNNL), KCoMoS2 catalysts from Dow Chemical, and KCoMoS2 catalysts from ABNT is shown in Figure 17.1. In this comparison KCoMoS2 catalysts showed lower MESP than Rh-based catalyst.

Рубрика: Handbook of Cellulosic Ethanol