|
21
|
Rivero, R. & Garfias, M., 2006. Standard Chemical exergy of elements updated. Energy, 31(15), pp. 3310-3326.
|
|
22
|
Saint-Gobain Vetrotex Deutschland GmbH, 2002. E, R and D glass properties: Technical Data Sheet. Herzogenrath: s.n.
|
|
23
|
Shieh, J. H. & Fan, L. T., 1982. Estimation of Energy (Enthalpy) and Exergy (Availability) Contents in Structurally Complicated Materials. Energy Sources, 6(1), pp. 1-46.
|
|
24
|
Song, G., Shen, L. & Xiao, J., 2011. Estimating specific chemical exergy of biomass from basic analysis data. Industrial & Engineering Chemical Research, 50(16), pp. 9758-9766.
|
|
25
|
Song, G., Xiao, J., Zhao, H. & Shen, L., 2012. A unified correlation for estimating specific chemical exergy of solid and liquid fuels. Energy, 40(1), pp. 164-173.
|
|
26
|
Stepanov, V. S., 1995. Chemical energies and exergies of fuels. Energy, 20(3), pp. 235-242.
|
|
27
|
The Bauxite Index, 2018. The Bauxite Index. [Online] Available at: https://thebauxiteindex.com/en/cbix/industry-101/bauxite-101/bauxite-formation [Accessed 10 February 2018].
|
|
28
|
Vassilev, S., Baxter, D., Andersen, L. & Vassileva, C., 2010. An Overview of the Chemical Composition of Biomass. Fuel, 89(5), pp. 913-933.
|
|
29
|
Zhang, Y. et al., 2016. Two equations for estimating the exergy of woody biomass based on the exergy of ash. Energy, 106(C), pp. 400-407.
|
|
30
|
Zhou, H. et al., 2014. Classification and comparison of municipal solid waste based on thermochemical characteristics. Journal of the Air & Waste Management Association, 64(5), pp. 597-616.
|