Coconut oil or Copra oil is an edible oil extracted from the kernel or meat of matured coconuts harvested from the coconut palm (Cocos nucifera). It has various applications in food, medicine, and industry. Because of its high saturated fat content it is slow to oxidize and, thus, resistant to rancidification, lasting up to two years without spoiling.
Coconut oil can be extracted through "dry" or "wet" processing. Dry processing requires the meat to be extracted from the shell and dried using fire, sunlight, or kilns to create copra. The copra is pressed or dissolved with solvents, producing the coconut oil and a high-protein, high-fiber mash. The mash is of poor quality for human consumption and is instead fed to ruminants; there is no process to extract protein from the mash. A portion of the oil extracted from copra is lost to the process of extraction.
The all-wet process uses raw coconut rather than dried copra, and the protein in the coconut creates an emulsion of oil and water. The more problematic step is breaking up the emulsion to recover the oil. This used to be done by prolonged boiling, but this produces a discolored oil and is not economical; modern techniques use centrifuges and pre-treatments including cold, heat, acids, salts, enzymes, electrolysis, shock waves, or some combination of them. Despite numerous variations and technologies, wet processing is less viable than dry processing due to a 10–15% lower yield, even compared to the losses due to spoilage and pests with dry processing. Wet processes also require investment of equipment and energy, incurring high capital and operating costs.
Proper harvesting of the coconut (the age of a coconut can be 2 to 20 months when picked) makes a significant difference in the efficacy of the oil-making process. Copra made from immature nuts is more difficult to work with and produces an inferior product with lower yields.
Conventional coconut oil uses hexane as a solvent to extract up to 10% more oil than just using rotary mills and expellers. The oil is then refined to remove certain free fatty acids, in order to reduce susceptibility to rancidification. Other processes to increase shelf life include using copra with a moisture content below 6%, keeping the moisture content of the oil below 0.2%, heating the oil to 130–150 °C (266–302 °F) and adding salt or citric acid.
Virgin coconut oil (VCO) can be produced from fresh coconut meat, milk, or residue. Producing it from the fresh meat involves removing the shell and washing, then either wet-milling or drying the residue, and using a screw press to extract the oil. VCO can also be extracted from fresh meat by grating and drying it to a moisture content of 10–12%, then using a manual press to extract the oil. Producing it from coconut milk involves grating the coconut and mixing it with water, then squeezing out the oil. The milk can also be fermented for 36–48 hours, the oil removed, and the cream heated to remove any remaining oil. A third option involves using a centrifuge to separate the oil from the other liquids. Coconut oil can also be extracted from the dry residue left over from the production of coconut milk.
A thousand mature coconuts weighing approximately 1,440 kilograms (3,170 lb) yield around 170 kilograms (370 lb) of copra from which around 70 litres (15 imp gal) of coconut oil can be extracted.
RBD stands for "refined, bleached, and deodorized." RBD oil is usually made from copra (dried coconut kernel).
The dried copra is placed in a hydraulic press with added heat and the oil is extracted. This yields up practically all the oil present, amounting to more than 60% of the dry weight of the coconut.
This "crude" coconut oil is not suitable for consumption because it contains contaminants and must be refined with further heating and filtering.
Another method for extraction of a "high-quality" coconut oil involves the enzymatic action of alpha-amylase, polygalacturonases, and proteases on diluted coconut paste.
Unlike virgin coconut oil, refined coconut oil has no coconut taste or aroma. RBD oil is used for home cooking, commercial food processing, and cosmetic, industrial, and pharmaceutical purposes.
RBD coconut oil can be processed further into partially or fully hydrogenated oil to increase its melting point. Since virgin and RBD coconut oils melt at 24 °C (76 °F), foods containing coconut oil tend to melt in warm climates. A higher melting point is desirable in these warm climates, so the oil is hydrogenated. The melting point of hydrogenated coconut oil is 36–40 °C (97–104 °F).
In the process of hydrogenation, unsaturated fats (monounsaturated and polyunsaturated fatty acids) are combined with hydrogen in a catalytic process to make them more saturated. Coconut oil contains only 6% monounsaturated and 2% polyunsaturated fatty acids. In the partial hydrogenation process, some of these are transformed into trans fatty acids.
Fractionated coconut oil provides fractions of the whole oil so that its different fatty acids can be separated for specific uses. Lauric acid, a 12-carbon chain fatty acid, is often removed because of its high value for industrial and medical purposes. The fractionation of coconut oil can also used to isolate caprylic acid and capric acid, which are medium-chain triglycerides, as these are used for medical applications, special diets and cosmetics, sometimes also being used as a carrier oil for fragrances.
Coconut oil makes up around 2.5% of world vegetable oil production.
The World Health Organization's Codex Alimentarius guidelines on food, food production, and food safety, published by the Food and Agriculture Organization, includes standards for commercial partners who produce coconut oil for human consumption.
The Asian and Pacific Coconut Community (APCC), whose 18 members produce about 90 per cent of the coconut sold commercially, has published its standards for virgin coconut oil (VCO), defining virgin coconut oil as obtained from fresh, mature coconut kernels through means which do not "lead to alteration of the oil".
Composition and comparison
The approximate maximal concentration of fatty acids in coconut oil is:
The following table provides information about the composition of coconut oil and how it compares with other vegetable oils.
|Polyunsaturated fatty acids||Oleic acid
|Total poly||linolenic acid
|Canola (rapeseed)||-||7.365||63.276||28.142||9-11||19-21||-||400 °F (204 °C)|
|Coconut||-||91.00||6.000||3.000||-||2||6||350 °F (177 °C)|
|Corn||-||12.948||27.576||54.677||1||58||28||450 °F (232 °C)|
|Cottonseed||-||25.900||17.800||51.900||1||54||19||420 °F (216 °C)|
|Flaxseed/Linseed (European)||-||6 - 9||10 - 22||68 - 89||56 - 71||12 - 18||10 - 22||225 °F (107 °C)|
|Olive||-||14.00||72.00||14.00||<1.5||9–20||-||380 °F (193 °C)|
|Palm||-||49.300||37.000||9.300||-||10||40||455 °F (235 °C)|
|Peanut||-||16.900||46.200||32.000||-||32||48||437 °F (225 °C)|
|Safflower (>70% linoleic)||-||8.00||15.00||75.00||-||-||-||410 °F (210 °C)|
|Safflower (high oleic)||-||7.541||75.221||12.820||-||-||-||410 °F (210 °C)|
|Soybean||-||15.650||22.783||57.740||7||50||24||460 °F (238 °C)|
|Sunflower (<60% linoleic)||-||10.100||45.400||40.100||0.200||39.800||45.300||440 °F (227 °C)|
|Sunflower (>70% oleic)||-||9.859||83.689||3.798||-||-||-||440 °F (227 °C)|
|Values as percent (%) by weight of total fat.|
Many health organizations advise against the consumption of high amounts of coconut oil due to its high levels of saturated fat, including the United States Food and Drug Administration, World Health Organization, International College of Nutrition, the United States Department of Health and Human Services, American Dietetic Association, American Heart Association, British National Health Service, and Dietitians of Canada.
Coconut oil contains a large proportion of lauric acid, a saturated fat that raises total blood cholesterol levels by increasing both the amount of high-density lipoprotein (HDL) cholesterol and low-density lipoprotein (LDL) cholesterol. Although this may create a more favorable total blood cholesterol profile, persistent consumption of coconut oil may increase risk of cardiovascular disease through other mechanisms. Because much of the saturated fat of coconut oil is in the form of lauric acid (which raises HDL), coconut oil may be preferred over partially hydrogenated vegetable oil when solid fats are used in the diet.
|Nutritional value per 100g|
|Energy||3,607 kJ (862 kcal)|
|Percentages are roughly approximated using US recommendations for adults.
Source: USDA Nutrient Database
Coconut oil is commonly used in cooking, especially for frying, and is a common flavor in many South Asian curries. It has been used for cooking (in tropical parts of the world) for thousands of years. In recent years, virgin coconut oil (VCO) has become increasingly popular in health and natural food circles and with vegans. It was described in a New York Times article as having a "haunting, nutty," flavor that has a touch of sweetness, which works well in baked goods, pastries, and sautés. Coconut oil is used by movie theatre chains to pop popcorn, adding a large amount of saturated fat in the process.
Other culinary uses include replacing solid fats produced through hydrogenation in baked and confectionery goods. Hydrogenated or partially hydrogenated coconut oil is often used in non-dairy creamers and snack foods, including popcorn. Hydrogenated coconut oil is sold in Australia under the brand-name Copha and is the main ingredient in Australian snacks such as Chocolate crackles and White Christmas.
The smoke point of coconut oil is 177 °C (351 °F).
Coconut oil has been tested for use as a feedstock for biodiesel to be used as a diesel engine fuel. In this manner, it can be applied to power generators and transport using diesel engines. Since straight coconut oil has a high gelling temperature (22–25 °C), a high viscosity, and a minimum combustion chamber temperature of 500 °C (932 °F) (to avoid polymerization of the fuel), coconut oil typically is transesterified to make biodiesel. Use of B100 (100% biodiesel) is possible only in temperate climates, as the gel point is approximately 10 °C (50 °F). The oil must meet the Weihenstephan standard[better source needed] for pure vegetable oil used as a fuel, otherwise moderate to severe damage from carbonisation and clogging will occur in an unmodified engine.
The Philippines, Vanuatu, Samoa, and several other tropical island countries are using coconut oil as an alternative fuel source to run automobiles, trucks, and buses, and to power generators.[better source needed] Coconut oil is currently used as a fuel for transport in the Philippines. Further research into the potential of coconut oil as a fuel for electricity generation is being carried out in the islands of the Pacific, although to date it appears that it is not useful as a fuel source due to the cost of labour and supply constraints.
Coconut oil can be used as a skin moisturizer, helping with dry skin and reduces protein loss when used in hair. Coconut oil can also be used as sexual lubricant, although it can damage latex condoms.[verification needed]
Before the advent of electrical lighting, coconut oil was the primary oil used for illumination in India and was exported as cochin oil.
Coconut oil is an important base ingredient for the manufacture of soap. Soap made with coconut oil tends to be hard, although it retains more water than those made with other oils and therefore increases manufacturer yields. It is more soluble in hard water and salt water than other soaps allowing it to lather more easily. A basic coconut oil soap is clear when melted and a bright white when hardened.
In vitro studies of coconut oil's effects on the fungus Candida albicans suggest further investigation into possible use as a treatment. In vitro testing has also found that the medium chain fatty acids penetrate the cell membranes in non-beneficial bacterial organisms, causing the cell to decompose.
- Fife, Bruce (2005). Coconut Cures. Piccadilly Books, Ltd. pp. 184–185. ISBN 978-0-941599-60-3.
- "Around the Block Nutrition Facts at a Glance: More on Nutrients to Get Less Of". Food and Drug Administration. 2012-09-05. Retrieved 2014-01-25.
- "Avoiding Heart Attacks and Strokes" (PDF). World Health Organization. Retrieved 2011-04-06.
- Singh RB, Mori H, Chen J, Mendis S, Moshiri M, Zhu S, Kim SH, Sy RG, Faruqui AM (December 1996). "Recommendations for the prevention of coronary artery disease in Asians: a scientific statement of the International College of Nutrition". J Cardiovasc Risk 3 (6): 489–494. doi:10.1097/00043798-199612000-00002. PMID 9100083.
- "Dietary Guidelines for Americans 2010". Department of Health and Human Services. Retrieved 17 March 2011.
- "American Dietetic Association and Dietitians of Canada Offer Up-to-Date Guidance on Dietary Fat". American Dietetic Association. Retrieved 2011-03-16.
- "Tropical Oils". American Heart Association. Retrieved 2011-03-16.
- "Lower your cholesterol". National Health Service. Retrieved 2011-03-16.
- "Heart Healthy Eating: Cholesterol". Dietitians of Canada. 2010-09-01. Retrieved 2013-07-05.
- Grimwood, BE; Ashman F; Dendy DAV; Jarman CG; Little ECS; Timmins WH (1975). Coconut Palm Products – Their processing in developing countries. Rome: FAO. pp. 49–56. ISBN 978-92-5-100853-9.
- Hamid, M.A.; Sarmidi, M.R.; Mokhtar, T.H.; Sulaiman, W.R.W.; Aziz, R.A. (2011). "Innovative Integrated Wet Process for Virgin Coconut Oil Production". Journal of Applied Sciences 11 (13): 2467. doi:10.3923/jas.2011.2467.2469.
- Grimwood et al., 1975, pp. 193–210.
- Grimwood et al., 1975, p. 29.
- Kurian; Peter KV (2007). Commercial Crops Technology: Vol.08. Horticulture Science Series. New India Publishing. pp. 202–6. ISBN 81-89422-52-9.
- Bourke, RM; Harwood T (2009). Food and Agriculture in Papua New Guinea. Australian National University. p. 327. ISBN 978-1-921536-60-1.
- Foale, M. (2003). "The Coconut Odyssey: The Bounteous Possibilities of the Tree of Life" (PDF). Canberra: Australian Centre for International Agricultural Research. pp. 115–116.
- McGlone OC, Canales A, Carter JV (1986). "Coconut oil extraction by a new enzymatic process". J Food Sci 51 (3): 695–697. doi:10.1111/j.1365-2621.1986.tb13914.x.
- Foster, R., Williamson, C.S. and Lunn, J. (2009). "BRIEFING PAPER: Culinary Oils And Their Health Effects". Nutrition Bulletin 34 (1): 4–47. doi:10.1111/j.1467-3010.2008.01738.x.
- Gervajio, G. C. (2005). "Bailey's Industrial Oil and Fat Products". doi:10.1002/047167849X.bio039. ISBN 047167849X.
- Emil Raymond Riegel; James Albert Kent (2003). Riegel's Handbook of Industrial Chemistry. Springer. pp. 1100–1117. ISBN 978-0-306-47411-8. Retrieved 20 October 2012.
- "Table 19: World: Palm Oil, Coconut Oil, and Fish Meal Supply and Distribution" (PDF). United States Department of Agriculture. 2011-04-08. Retrieved 2011-04-14.
- "Codex Standard for Named Vegetable Oils (Codex Stan 210-1999, Revision 3)" (PDF). Codex Alimentarius. Food and Agriculture Organization. 2009. Retrieved 2011-08-09.
- "About us". Asian and Pacific Coconut Community. Retrieved 2011-08-09.
- "APCC Standards for Virgin Coconut Oil" (PDF). Jakarta, Indonesia: Asian and Pacific Coconut Community. 2003. Retrieved 2011-08-09.
- Fatty Acid Compositions - Chempro
- "Nutrient database, Release 24". United States Department of Agriculture. All values in this column are from the USDA Nutrient database unless otherwise cited.
- Katragadda, H. R.; Fullana, A. S.; Sidhu, S.; Carbonell-Barrachina, Á. A. (2010). "Emissions of volatile aldehydes from heated cooking oils". Food Chemistry 120: 59. doi:10.1016/j.foodchem.2009.09.070.
- Wolke, Robert L. (May 16, 2007). "Where There's Smoke, There's a Fryer". The Washington Post. Retrieved March 5, 2011.
- Fatty acid composition of important plant and animal fats and oils (German) 21 December 2011, Hans-Jochen Fiebig, Münster
- Scheda tecnica dell'olio di palma bifrazionato PO 64 (Italian)
- Mensink RP, Zock PL, Kester AD, Katan MB (May 2003). "Effects of dietary fatty acids and carbohydrates on the ratio of serum total to HDL cholesterol and on serum lipids and apolipoproteins: a meta-analysis of 60 controlled trials" (PDF). Am J Clin Nutr 77 (5): 1146–55. PMID 12716665.
- Tarrago-Trani, MT; Phillips, KM; Lemar, LE; Holden, JM (2006). "New and existing oils and fats used in products with reduced trans-fatty acid content" (PDF). Journal of the American Dietetic Association 106 (6): 867–880. doi:10.1016/j.jada.2006.03.010. PMID 16720128.
- Clark, M (2011-03-01). "Once a Villain, Coconut Oil Charms the Health Food World". The New York Times. Retrieved 2011-03-02.
- "Two Thumbs Down’ for Movie Theater Popcorn". Center for Science in the Public Interest. 2009-11-18. Retrieved 2011-04-24.
- "Weihenstephan vegetable oil fuel standard (German Rapeseed Fuel Standard)". Retrieved 2011-08-09.
- "In Vanuatu, A Proving Ground for Coconut Oil As An Alternative Fuel". One Country. Retrieved 2011-08-09.
- "Coconut fuel". The World. Public Radio International. Retrieved 2011-08-09.
- Watson, Todd (1 August 2013). "Coconut biodiesel drives the Philippines". Inside Investor. Retrieved 11 August 2013.
- "Economics of Rural Renewable Energy Technologies". Secretariat of the Pacific Community – Applied Geoscience and Technology Division. 2010-06-14. Retrieved 2011-08-09.
- Romares-Sevilla, J (2008-01-17). "Davao-based firm sees expansion of bio-tech oil market". Sun.Star Superbalita Davao. Archived from the original on 2008-01-21. Retrieved 2008-07-14.
- DC; Weerakoon C; Lucas JR; Gunatunga KAI; Obadagee KC (2001). "Coconut Oil As An Alternative To Transformer Oil" (PDF). ERU Symposium.
- James, TK; Rahman A (2005). "Efficacy of several organic herbicides and glyphosate formulations under simulated rainfall" (PDF). New Zealand Plant Protection 58: 157–163.
- Agero AL, Verallo-Rowell VM (September 2004). "A randomized double-blind controlled trial comparing extra virgin coconut oil with mineral oil as a moisturizer for mild to moderate xerosis". Dermatitis 15 (3): 109–16. doi:10.2310/6620.2004.04006. PMID 15724344.
- Rele, A.; Mohile, R. (2003). "Effect of mineral oil, sunflower oil, and coconut oil on prevention of hair damage" (pdf). Journal of cosmetic science 54 (2): 175–192. PMID 12715094.
- "The Latex Condom: Recent Advances, Future Directions" (Chapter 3: User Behaviors and Characteristics Related to Condom Failure ed.). Family Health International. 2010. Retrieved 2010-06-29.[dead link]
- Brady, GS; Clauser HR; Vaccari JA (2002). Materials Handbook – An encyclopedia for managers, technical professionals, purchasing and production managers, technicians, and supervisors (15 ed.). McGraw-Hill. pp. 250–251. ISBN 978-0-07-136076-0.
- Alsberg, CL; Taylor AE (1928). The Fats and Oils – A General Overview (Fats and Oils Studies No. 1). Stanford University Press. p. 86. ISBN 0-8047-0330-2.
- Browning, M (2003). 300 Handcrafted Soaps – Great Melt & Pour Projects. Sterling Publishing. p. 9. ISBN 978-1-4027-0797-1.
- Feldmeier, H (2009). "Tungiasis and cutaneous larva migrans: unpleasant travel souvenirs". Medizinische Monatsschrift fur Pharmazeuten 32 (12): 440–4. PMID 20088345.
- Ogbolu DO, Oni AA, Daini OA, Oloko AP., In vitro antimicrobial properties of coconut oil on Candida species in Ibadan, Nigeria. Journal of Medical Food, June 2007, 10(2):384-7.
- In vitro killing of Candida albicans by fatty acids and monoglycerides. Antimicrob Agents Chemother 2001 Nov;45(11):3209-12
- Strandberg KL, Peterson ML, Lin YC, Pack MC, Chase DJ, Schlievert PM., Glycerol monolaurate inhibits Candida and Gardnerella vaginalis in vitro and in vivo but not Lactobacillus., Antimicrob Agents Chemother. 2010 Feb;54(2):597-601.
- Adkins SW; Foale M and Samosir YMS, ed. (2006). Coconut revival – new possibilities for the ‘tree of life’. Proceedings of the International Coconut Forum, 22–24 November 2005. Cairns, Australia: ACIAR Proceedings. ISBN 1-86320-515-2.
- Salunkhe, D.K., J.K. Chavan, R.N. Adsule, and S.S. Kadam. (1992). World Oilseeds – Chemistry, Technology, and Utilization. Springer. ISBN 978-0-442-00112-4.
|Wikimedia Commons has media related to Coconut oil.|