References
- Gerpen JV. Biodiesel processing and production. Fuel Process Technol. 2005;86:1097–1107.
- Canakci M. The potential of restaurant waste lipids as biodiesel sources. Bioresour. Technol. 2007;98:183–190.
- Enweremadu CC, Mbarawa MM. Technical aspects of production and analysis of biodiesel from used cooking oil-a review. Renew. Sust. Energy Rev. 2009;13:2205–2224.
- Yori JC, D'Ippolito SA, Pieck CL, et al. Deglycerolization of biodiesel streams by adsorption over silica beds. Energy Fuels 2007;21:347–353.
- Bondioli P, Bella LD. An alternative spectrophotometric method for the determination of free glycerol in biodiesel. Europ. J. Lipid Sci. Technol. 2005;107:153–155.
- Mittelbach M. Diesel fuel derived from vegetable oils, VI: Specifications and quality control of biodiesel. Bioresour. Technol. 1996;56:7–11.
- Predojevic ZJ. The production of biodiesel from waste frying oils: A comparison of different purification steps. Fuel 2008;87:3522–3528.
- Hajimahmoodi M, Heyden YV, Sadeghi N, et al. Gas-chromatographic fatty-acid fingerprints and partial least squares modeling as a basis for the simultaneous determination of edible oil mixtures. Talanta, 2005;66:1108–1116.
- Joshi RM, Pegg MJ. Flow properties of biodiesel fuel blends at low temperatures. Fuel 2007;86:143–151.
- Zhou WY, Boocock DGB. Phase behavior of the base catalyzed transesterification of soybean oil. J. Am. Oil Chem. Soc. 2006;83:1041–1045.
- Berrios M, Skelton RL. Comparison of purification methods for biodiesel. Chem. Engg. J. 2008;144:459–465.
- Faccini CS, Cunha ME, Moraes MSA, et al. Dry washing in biodiesel purification: A comparative study of adsorbents. J. Braz. Chem. Soc. 2011;22:558–563.
- Banga S, Varshney PK, Kumar N, et al. Optimization of parameters for purification of jatropha curcas based biodiesel using organic adsorbents. Int. J Renew. Ene. Research. 2014;4:598–603.
- Manique MC, Faccini CS, Onorevoli B, et al. Rice husk ash as an adsorbent for purifying biodiesel from waste frying oil. Fuel 2012;92:56–61.
- Hossain MA, Ngo HH, Guo WS, et al. Removal of copper from water by adsorption onto banana peel as bioadsorbent. Int. J. GEOMATE 2012;2:227–234.
- Memon JR, Memon SQ, Bhanger MI, et al. Banana peel: a green and economical sorbent for Cr (III) removal. Pakistan J. Anal. Env. Chemistry 2008;9:20–25.
- Velmurugan P, Rathna KP, Dhinakaran G. Dye removal from aqueous solution using low cost adsorbent. Int. J. Environ. Sci. 2011;1:1492–1503.
- Bhaumik R, Mondal NK. Optimizing adsorption of fluoride from water by modified banana peel dust using response surface modelling approach. Appl. Water Sci. 2014. DOI 10.1007/s13201-014-0211-9.
- Das N, Vimala R, Khartika P. Biosorption of heavy metals: An overview. Indiana J. Biotechnol. 2008;7:159–169.
- Alonso J, Garcia AM, Pérez-López M, et al.. The concentrations and bioconcentration factors of copper and zinc in edible mushrooms. Arch. Environ. Contam. Toxicol. 2003;44:180–188.
- Borovička J, Řanda Z. Distribution of iron, cobalt, zinc and selenium in macrofungi. Mycol. Progress 2007;6:249–259.
- Garcia AM, Alonso J, Melgar MJ. Lead in edible mushrooms levels and bioaccumulation factors. J. Hazar. Mat., 2009;167:777–783.
- Garcia AM, Alonso J, Fernández MI, et al. Lead content in edible wild mushrooms in northwest Spain as indicator of environmental contamination. Arch. Environ. Contam. Toxicol. 1998;34:330–335.
- Tay CC, Liew HH, Yong SK, et al. Cu(II) removal onto fungal derived biosorbents: Biosorption performance and the half saturation constant concentration approach. Int. J. Research. Chem. Environ. 2012;2:138–143.
- Wall J, Grepen JV. Comparison of methods for the purification of Biodiesel. Thesis Presented in partial fulfillment of the requirements for the degree of Master of Science, University of Idaho, Moscow, Latah County; 2009.