Environmental Engineering Reference
In-Depth Information
18. Broeren, M. (2013)
Production of Bio-Methanol
. International Renewable Energy Agency,
Abu Dhabi, UAE.
19. Clark, J.H., Farmer, T.J., Macquarrie, D.J.
et al
(2012) Microwave heating for the rapid
conversion of sugars and polysaccharides to 5-chloromethyl furfural.
Green Chemistry
,
15
(1), 72-75.
20. Alonso, D.M., Wettstein, S.G. and Dumesic, J.A. (2013) Gamma-valerolactone, a sustain-
able platform molecule derived from lignocellulosic biomass.
Green Chemistry
,
15
(3),
584-595.
21. Skibar, W., Grogan, G., McDonald, J. and Pitts, M. (2009)
UK Expertise for Exploitation of
Biomass-Based Platform Chemicals
, The FROPTOP Group, Runcorn, UK.
22. Serrano-Ruiz, J.C., Luque, R. and Sepulveda-Escribano, A. (2011) Transformations of
biomass-derived platform molecules: from high added-value chemicals to fuels via
aqueous-phase processing.
Chemical Society Reviews
,
40
(11), 5266-5281.
23. Sanders, J.P.M., Clark, J.H., Harmsen, G.J.
et al.
(2012) Process intensification in the future
production of base chemicals from biomass.
Chemical Engineering and Processing
,
51
,
117-136.
24. European Renewable Resources and Materials Association (2007) Accelerating the
development of the market for bio-based products in Europe. Report of the Taskforce of
Bio-Based Products. Available at
http://www.errma.com/wp-content/uploads/2014/02/
Annex-5-prep_bio.pdf
(accessed 15 September 2014).
25. Bozell, J.J., Moens, L., Elliott, D.C.
et al.
(2000) Production of levulinic acid and use as a
platform chemical for derived products.
Resources Conservation and Recycling
,
28
(3-4),
227-239.
26. Rackemann, D.W. and Doherty, W.O.S. (2011) The conversion of lignocellulosics to
levulinic acid.
Biofuels Bioproducts and Biorefining-Biofpr
,
5
(2), 198-214.
27. Yuan, J., Li, S.S., Yu, L.
et al.
(2013) Copper-based catalysts for the efficient conversion of
carbohydrate biomass into gamma-valerolactone in the absence of externally added hydro-
gen.
Energy and Environmental Science
,
6
(11), 3308-3313.
28. Weusthuis, R.A., Aarts, J.M.M.J. and Sanders, J.P.M. (2011) From biofuel to bioproduct: is
bioethanol a suitable fermentation feedstock for synthesis of bulk chemicals?
Biofuels
Bioproducts and Biorefining-Biofpr
,
5
(5), 486-494.
29. Rabemanolontsoa, H. and Saka, S. (2013) Comparative study on chemical composition of
various biomass species.
RSC Advances
,
3
(12), 3946-3956.
30. Melero, J.A., Iglesias, J. and Garcia, A. (2012) Biomass as renewable feedstock in standard
refinery units. feasibility, opportunities and challenges.
Energy and Environmental Science
,
5
(6), 7393-7420.
31. Assary, R.S., Kim, T., Low, J.J.
et al.
(2012) Glucose and fructose to platform chemicals:
understanding the thermodynamic landscapes of acid-catalysed reactions using high-level
Ab initio methods.
Physical Chemistry Chemical Physics
,
14
(48), 16603-16611.
32. Tuck, C.O., Perez, E., Horvath, I.T.
et al.
(2012) Valorization of biomass: deriving more
value from waste.
Science
,
337
(6095), 695-699.
33. Dodson, J.R., Cooper, E.C., Hunt, A.J.
et al.
(2013) Alkali silicates and structured
mesoporous silicas from biomass power station wastes: the emergence of bio-MCMs.
Green
Chemistry
,
15
(5), 1203-1210.
34. Kobayashi, H. and Fukuoka, A. (2013) Synthesis and utilisation of sugar compounds
derived from lignocellulosic biomass.
Green Chemistry
,
15
(7), 1740-1763.