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Erschienen in:
Green Fluids from Vegetable Oil: Power Plant Kapitel lesen Erstes Kapitel lesen

2018 | OriginalPaper | Buchkapitel

2. Biodegradable, Renewable, and Eco-friendly Vegetable Oil: Lubricants

verfasst von : Dhorali Gnanasekaran, Venkata Prasad Chavidi

Erschienen in: Vegetable Oil based Bio-lubricants and Transformer Fluids

Verlag: Springer Singapore

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Abstract

The environmental pollution, toxicity, and rising cost of conventional lubricants lead to renewed awareness in the improvement of environmentally friendly bio-lubricants. Due to the negative impact (low biodegradability and more toxicity of mineral and synthetic) on the environment, there has been a stable increase in the demand for biodegradable and eco-friendly bio-lubricants. Perhaps, mineral oils pollute the atmospheric air, soil, and drinking water and disturb people’s life and plants to a greater level. However, the major problem leads to the exhaustion of the world’s crude oil, increasing crude oil prices, and problems connected to preservation have brought about renewing or reusing awareness in the use of biodegradable lubricants. Definitely, oils of natural ester are capable as a base stock for environmentally friendly bio-lubricants due to its lubricity, biodegradation capability, viscosity vs. temperature characteristics, low evaporation capacity, etc. The chapter covers the biodegradable mechanism, toxicity ration, and eco-friendly natures of natural esters of vegetable oils.

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Vorheriges Kapitel Green Fluids from Vegetable Oil: Power Plant
Nächstes Kapitel Vegetable Oil as a Multifunctional and Multipurpose Green Lubricant Additive
Literatur
1.
Anand ON, Kumar CV (2006) Vegetable oil derivatives: environment-friendly lubricants and fuels. J Synth Lubr 23:91–107CrossRef
2.
(a) Steve B (2002) Green lubricants. Environmental benefits and impacts of lubrication. Green Chem 4:293–307. (b) Liew Yun Hsien W (2015) Towards green lubrication in machining, Springer briefs in green chemistry for sustainability. Springer, Malaysia
3.
Goyan RL, Melley RE, Wissner PA, Ong WC (1998) Biodegradable lubricants. Lubr Eng 54:10–17
4.
Kitamura N (1993) Biodegradable lubricants. Jpn J Tribol 38:639
5.
Erhan SM, Kleiman R (1997) Biodegradation of estolides from monounsaturated fatty acids. J Am Oil Chem Soc 74:605CrossRef
6.
7.
Aluyor EO, Obahiagbon KO, Orijesu M (2009) Biodegradation of vegetable oils: a review. Afri J Biotechnol 8:915–920
8.
Bartz WJ (1998) Lubricants and the environment. Tribol Int 31:35–47CrossRef
9.
Bartz WJ (2006) Ecotribology: environmentally acceptable Tribological practices. Tribol Int 39:728–733CrossRef
10.
Nagendramma P, Kaul S (2012) Development of ecofriendly/biodegradable lubricants: an overview. Renew Sust Energ Rev 16:764–774CrossRef
11.
Rudnick L. R (2006) Synthetics, mineral oils, and bio-based lubricants: chemistry and technology, CRC/Taylor & Francis Group, New York
12.
Talkit KM, Mahajan DT, Masand VH (2012) Study on physicochemical properties of vegetable oils and their blends use as possible ecological lubricant. J Chem Pharm Res 4:5139–5144
13.
Soni S, Agarwal M (2014) Lubricants from renewable energy sources – a review. Green Chem Lett Rev 7:359–382CrossRef
14.
Suarez AN, Grahn M, Pasaribu R, Larsson R (2010) The influence of base oil polarity on the tribological performance of zinc dialkyl dithiophosphate additives. Tribol Int 43:2268–2278CrossRef
15.
Syahrullail S, Zubil BM, Azwadi CSN, Ridzuan MJM (2011) Experimental evaluation of palm oil as lubricant in cold forward extrusion process. Int J Mech Sci 53:549–555CrossRef
16.
Syahrullail S, Kamitani S, Shakirin A (2013) Performance of vegetable oil as lubricant in extreme pressure condition. Procedia Eng 68:172–177CrossRef
17.
Erhan SZ, Asadauskas S (2000) Lubricant base stocks from vegetable oils. Ind Crop Prod 11:277–282CrossRef
18.
Quinchia LA, Reddyhoff T, Delgado MA, Gallegos C, Spikes HA (2014) Tribological studies of potential vegetable oil-based lubricants containing environmentally friendly viscosity modifiers. Tribol Int 69:110–117CrossRef
19.
Sharma BK, Adhvaryua A, Liu Z, Erhan SZ (2006) Chemical modification of vegetable oils for lubricant applications. J Am Oil Chem Soc 83:129–136CrossRef
20.
Gawrilow I (2004) Vegetable oil usage in lubricants. Oleochem Inform 15:702–705
21.
Willing A (2001) Lubricants based on renewable resources an environmentally compatible alternative to mineral oil products. Chemosphere 43:89–98CrossRef
22.
Zaher FA, Nomany HM (1988) Vegetable oils and lubricants. Grasas Aceites (Seville) 39:235–238
23.
Hwang HS, Adhvaryu A, Erhan SZ (2003) Preparation and properties of lubricant base stocks from epoxidized soybean oil and 2-ethylhexanol. J Am Oil Chem Soc 80:811–815CrossRef
24.
Hui YH (1995) Bailey’s industrial oil and Fats products, edible oil and fat products: general application, vol 1, 5th edn. Wiley, Blackwell, pp 19–44
25.
Guner FS, Yagci Y, Erciyes AT (2006) Polymers from triglyceride oils. Prog Polym Sci 31:633–670CrossRef
26.
Habib F, Bajpai M (2011) Synthesis and characterization of Acrylated Epoxidized soybean oil for UV-cured coatings. Chem Chem Technol 5:317–326
27.
Ronda JC, Lligadas G, Galià M, Cádiz V (2011) Vegetable oils as platform Chemicals for Polymer Synthesis. Eur J Lipid Sci Technol 113:46–58CrossRef
28.
Montero de Espinosa L, Meier MAR (2011) Plant oils: the perfect renewable resource for polymer science. Eur Polym J 47:837–852CrossRef
29.
Gnanasekaran D (2014) POSS Nanocomposite membranes: Synthesis and gas separation studies. Scholars press, Saarbrücken
30.
Gnanasekaran D, Reddy BSR (2013) Cost effective poly (urethane-imide)-POSS membrane for environmental and energy-related processes. Clean Techn Environ Policy 15:383–389CrossRef
31.
Samarth NB, Mahanwar PA (2015) Modified vegetable oil based additives as a future polymeric material-review. Open J Organic Polym Mater 5:1–22CrossRef
32.
Jumat S, Nadia S, Emad Y (2010) Biolubricants: raw materials, chemical modifications and environmental benefits. Eur J Lipid Sci Technol 112:519–530
33.
Gawrilow I (2003) Palm oil usage in lubricants. Paper presented on 3rd Global Oils and Fats Business Forum USA; Interfacing with the Global Oils and Fats Business
34.
(a) Joseph PV (2007) Study of some non-edible vegetable oils of Indian origin for lubricant application. J Synth Lubr 24:181–197. (b) Chauhan PS, Chhibber VK (2013) Non-Edible oil as a source of bio-lubricant for industrial applications: a review. Inter J Eng Sci Innov Technol 2(1):299–306
35.
Sahoo D, Jena KS, Rout PK, Rao YR (2002) Characteristics of Simarouba glauca seeds and fat of Orissa origin. J Food Sci Technol 39:552–555
36.
Adhvaryu A, Erhan SZ (2004) Tribological studies of thermally and chemically modified vegetable oils for use as environmentally friendly lubricants. Wear 257:359–367CrossRef
37.
Biresaw G (2006) Elastohydrodynamic properties of seed oils. J Am Oil Chem Soc 83:559–566CrossRef
38.
Maleque M, Masjuki H, Sapuan S (2003) Vegetable-based biodegradable lubricating oil additives. Ind Lubr Tribol 55:137–143CrossRef
39.
Biresaw G, Bantchev G (2008) Effect of chemical structure on film-forming properties of seed oils. J Synth Lubr 25:159–183CrossRef
40.
Stachowiak GW, Batchelor AW (2005) Engineering tribology, 3rd edn. Elsevier, Oxford
41.
Rudnick LR (2009) Additives for industrial lubricant applications. Lubricant additives chemistry and applications. CRC Press Taylor & Francis Group, Boca Raton
42.
Bilal S, Mohammed-Dabo IA, Nuhu M, Kasim SA, Almustapha IH, Yamusa YA (2013) Production of biolubricant from Jatropha curcas seed oil. J Chem Eng Mater Sci 4:72–79CrossRef
Metadaten
Titel
Biodegradable, Renewable, and Eco-friendly Vegetable Oil: Lubricants
verfasst von
Dhorali Gnanasekaran
Venkata Prasad Chavidi
Copyright-Jahr
2018
Verlag
Springer Singapore
Buch
Vegetable Oil based Bio-lubricants and Transformer Fluids

Print ISBN: 978-981-10-4869-2

Electronic ISBN: 978-981-10-4870-8

Copyright-Jahr: 2018

DOI
https://doi.org/10.1007/978-981-10-4870-8_2