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Ferdous D, Dalai AK, Bej SK, Thring RW (2002) Pyrolysis of lignins: experimental and kinetics
studies. Energy Fuels 16:1405
-
1412
Hall WS (1905) A Textbook of physiology, 2nd edn. Lea, New York
Heller MC, Keoleian GA, Volk TA (2003) Life cycle assessment of a willow bioenergy cropping
system. Biomass Bioenergy 25:147
-
165
Hu S, Jess A, Xu M (2007) Kinetic study of chinese biomass slow pyrolysis: comparison of
different kinetic models. Fuel 86:2778
2788
Jacobson K, Maheria KC, Kumar Dalai A (2013) Bio-oil valorization: a review. Renew Sustain
Energy Rev 23:91
-
106
Lawrence B, Annamalai K, Sweeten JM, He
-
fl
in K (2009) Cofiring coal and dairy biomass in a
2372
Liu Q, Wang S, Zheng Y, Luo Z, Cen K (2008) Mechanism study of wood lignin pyrolysis by
using TG
29 kWt furnace. Appl Energy 86(11):2359
-
177
Manya JJ, Velo E, Puigjaner L (2003) Kinetics of biomass pyrolysis: a reformulated three-parallel-
reactions model. Ind Eng Chem Res 42:434
FTIR analysis. J Anal Appl Pyrol 82:170
-
-
441
McClave SA, Lowen CC, Kleber MJ, McConnell JW, Jung LY, Goldsmith LJ (2003) Clinical use
of the respiratory quotient obtained from indirect calorimetry. J Parenter Enteral Nutr 27:21
-
26
McKendry P (2002) Energy production from biomass (part 1): overview of biomass. Bioresour
Technol 83:37
-
46
M
é
sz
á
ros E, V
á
rhegyi G, Jakab E, Marosv
ö
lgyi B (2004) Thermogravimetric and reaction kinetic
analysis of biomass samples from an energy plantation. Energy Fuels 18:497
-
507
Morinaka T, Wozniewicz M, Jeszka J, Bajerska J, Limtrakul PN, Makonkawkeyoon L, Hirota N,
Kumagai S, Sone Y (2012) Comparison of seasonal variation in the fasting respiratory quotient
of young Japanese, Polish and Thai women in relation to seasonal change in their percent body
fat. J Physiol Anthropol 31:10
Orfao JJM, Antunes FJA, Figueiredo JL (1999) Pyrolysis kinetics of lignocellulosic materials
-
—
358
Ozawa T (1965) A new method of analyzing thermogravimetric data. Bull Chem Soc Japan
38:1881
three independent reactions model. Fuel 78:349
-
1886
Peng Y, Wu S (2010) The structural and thermal characteristics of wheat straw hemicellulose.
J Anal Appl Pyrol 88:134
-
139
Prins MJ, Kryzysztof JP, Janssen FJJG (2006a) More ef
cient gasi
cation via torrefaction. Energy
31(15):3458
-
3470
Prins MJ, Kryzysztof JP, Janssen FJJG (2006b) Torrefaction of wood: part 2. Analysis of products.
Energy 77(1):35
-
40
Prins MJ, Ptasinski KJ, Janssen FJ (2006c) Torrefaction of wood: part 1. Weight loss kinetics.
J Anal Appl Pyrol 77:28
-
34
Raveendran K, Ganesh A, Khilar KC (1996) Pyrolysis characteristics of biomass and biomass
components. Fuel 75:987
-
998
Repellin V, Govin A, Rolland M, Guyonnet R (2010) Modelling anhydrous weight loss of wood
chips during torrefaction in a pilot kiln. Biomass Bioenergy 34:602
-
609
-
Richardson HB (1929) The respiratory quotient. Physiol Rev 9:61
125
Rizzo MR, Mari D, Barbieri M, Ragno E, Grella R, Provenzano R, Villa I, Esposito K, Giugliano
D, Paolisso G (2005) Resting metabolic rate and respiratory quotient in human longevity.
J Clin Endocrinol Metab 90:409
-
413
-
Rousset P, Macedo L, Commandr
JM, Moreira A (2012) Biomass torrefaction under different
oxygen concentrations and its effect on the composition of the solid by-product. J Anal Appl
Pyrol 96:86
é
91
Sonobe T, Worasuwannarak N (2008) Kinetic analyses of biomass pyrolysis using the distributed
activation energy model. Fuel 87:414
-
421
TAMU (2013) TAMU fuel data bank.
http://cabel.tamu.edu/TAMU%20FDB.htm
Thanapal SS (2014) Effect of co
ring torre
ed woody biomass with coal in a 30 kWt down
red
burner. PhD dissertation, Texas A&M University
-
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