Page 399 - Biofuels for a More Sustainable Future

P. 399

Prioritization of biofuels production pathways under uncertainties 355

Liu, H.W., Wang, G.J., 2007. Multi-criteria decision-making methods based on intuitionis-
tic fuzzy sets. Eur. J. Oper. Res.. 179 (1), 220–233.
Luo, D., Wei, B.L., Li, Y.W., 2015. The optimization grey incidence analysis models.
In: Grey Systems and Intelligent Services (GSIS), 2015 IEEE International Conference
on, pp. 167–172.
Moore, R.E., 1966. Interval Analysis. Englewood Cliffs, NJ: Prentice-Hall; 1966.
Manzardo, A., Ren, J., Mazzi, A., Scipioni, A., 2012. A grey-based group decision-making
methodology for the selection of hydrogen technologies in life cycle sustainability per-
spective. Int. J. Hydrog. Energy. 37 (23), 17663–17670.
Ou, X., Zhang, X., Chang, S., Guo, Q., 2009. Energy consumption and GHG emissions of
six biofuel pathways by LCA in (the) People’s Republic of China. Appl. Energy
86, S197–S208.
Pohekar, S.D., Ramachandran, M., 2004. Application of multi-criteria decision making to
sustainable energy planning—a review. Renew. Sust. Energ. Rev.. 8 (4), 365–381.
Ramanathan, R., 1997. Stochastic decision making using multiplicative AHP. Eur. J. Oper.
Res. 97 (3), 543–549.
Ren, J., Toniolo, S., 2018. Life cycle sustainability decision-support framework for ranking
of hydrogen production pathways under uncertainties: an interval multi-criteria decision
making approach. J. Clean. Prod. 175, 222–236.
Ren, J., Tan, S., Dong, L., Mazzi, A., Scipioni, A., Sovacool, B.K., 2014. Determining the
life cycle energy efficiency of six biofuel systems in China: a data envelopment analysis.
Bioresour. Technol. 162, 1–7.
Ren, J., Dong, L., Sun, L., Goodsite, M.E., Dong, L., Luo, X., Sovacool, B.K., 2015a. “Sup-
ply push” or “demand pull?”: strategic recommendations for the responsible develop-
ment of biofuel in China. Renew. Sust. Energ. Rev. 52, 382–392.
Ren, J., Manzardo, A., Mazzi, A., Zuliani, F., Scipioni, A., 2015b. Prioritization of bioetha-
nol production pathways in China based on life cycle sustainability assessment and multi-
criteria decision-making. Int. J. LCA 20 (6), 842–853.
Ren, J., 2018. Sustainability prioritization of energy storage technologies for promoting the
development of renewable energy: a novel intuitionistic fuzzy combinative distance-
based assessment approach. Renew. Energy 121, 666–676.
Requena, J.S., Guimaraes, A.C., Alpera, S.Q., Gangas, E.R., Hernandez-Navarro, S.,
Gracia, L.N., Martin-Gil, J., Cuesta, H.F., 2011. Life cycle assessment (LCA) of the bio-
fuel production process from sunflower oil, rapeseed oil and soybean oil. Fuel Process.
Technol. 92 (2), 190–199.
Rezaei, J., 2016. Best-worst multi-criteria decision-making method: some properties and a
linear model. Omega 64, 126–130.
Saaty, T.L., 1980. The analytical hierarchy process, planning, priority. In: Resource Alloca-
tion. RWS Publications, Pittsburgh, PA.
Saaty, T.L., 2008. Decision making with the analytic hierarchy process. Int. J. serv. Sci. 1 (1),
83–98.
Sadeghi, A., Larimian, T., Molabashi, A., 2012. Evaluation of renewable energy sources for
generating electricity in province of Yazd: a fuzzy MCDM approach. Procedia Soc.
Behav. Sci. 62, 1095–1099.
Sayadi, M.K., Heydari, M., Shahanaghi, K., 2009. Extension of VIKOR method for decision
making problem with interval numbers. Appl. Math. Model. 33 (5), 2257–2262.
Sevkli, M., 2010. An application of the fuzzy ELECTRE method for supplier selection. Int. J.
Prod. Res. 48 (12), 3393–3405.
Schaidle, J.A., Moline, C.J., Savage, P.E., 2011. Biorefinery sustainability assessment. Envi-
ron. Prog. Sustain. 30 (4), 743–753.
Sharma, P., Sarker, B.R., Romagnoli, J.A., 2011. A decision support tool for strategic plan-
ning of sustainable biorefineries. Comput. Chem. Eng. 35 (9), 1767–1781.

394 395 396 397 398 399 400 401 402 403 404