Extraction of Essential Oils Using Steam Distillation

inception of substantive Oils Using Steam DistillationAcknowledging about the importance of plants and its medicinal value research work is being done on the plant tangible. There argon besides everywhere 200 references to aromatics, incense and ointments in the Old and New Testaments Frankincense, Myrrh, Galbanum, Cinnamon, Cassia, Rosemary, Hyssop and Spikenard atomic consequence 18 noted for being apply for anointing rituals and heal of the sick. Research has confirmed centuries of practical use of infixed covers, and we now know that the fragrant pharmacy contains step ups with an extremely broad be given of biochemical substance effects. The crudes normally bear the name of the plant species from which they ar derived. meaty embrocates argon so termed as they be believed to represent the real essence of olfactory perception and flavor. The recovery of requisite oil (the value added product) from the raw botanical starting material is very important since th e woodland of the oil is bulkyly influenced during this step. There be a variety of systems for obtaining volatile oils from plants. Steam distillment order is undercoat to be one of the promising techniques for the survivalion of indispensable oil from plants as prestigious distiller will preserve the original qualities of the plant and is being done in Cl all the sameger apparatus. Analysis of necessity oil is done Gas Chromatography which gives us some indications of the quality and authenticity of the oil.CHAPTER 1 INTRODUCTION inhering oils contain highly volatile substances that be isolated by a physical method or surgical procedure from plants of a single botanical species. The oils normally bear the name of the plant species from which they ar derived. Essential oils are so termed as they are believed to represent the very essence of odor and flavor. Essential oil plants and culinary herbaceous plants include a broad range of plant species that are use for the ir aromatic value as flavorings in foods and beverages and as fragrances in pharmaceutical and industrial products. Essential oils derive from aromatic plants of many genera distributed worldwide.Oils are apply in the embalming subprogram, in medicine and in purification rituals. There are also over 200 references to aromatics, incense and ointments in the Old and New Testaments. Research has confirmed centuries of practical use of Essential Oils, and we now know that the fragrant pharmacy contains compounds with an extremely broad range of biochemical effects. There are about three hundred essential oils in general use today by professional practitioners. Continual bombardment of viral, bacterial, parasitic and fungal contamination occurs in our ashes. Essential oils are a great benefit to help protect our bodies and homes from this onslaught of pathogens. Immune system needs support and these essential oils depose give the required endorsement. 1Steam distillation is used in the extraction of Essential Oil from the plant material. It is a circumscribed type of distillation or a separation process for temperature sensitive materials analogous oils, resins, hydrocarbons, and so ontera which are insoluble in body of water and whitethorn fragment at their boiling point. The fundamental nature of steam distillation is that it enables a compound or mixture of compounds to be distilled at a temperature substantially below that of the boiling point(s) of the individual constituent(s). Essential Oil contains components with boiling points up to 200C or higher temperatures. In the presence of steam or boiling water, however, these substances are volatilized at a temperature confining to hundredC, at atmospherical pressure. 2Analysis of Essential Oil is done by utilize Gas Chromatography with Mass Spectrometer. The qualitative and quantitative analysis is done to know the constituents in the oil and the pctage of components present in the oil respectively , by doing so we crowd out know the purity of that particular(prenominal) oil. 3CHAPTER 2LITERATURE REVIEWIt is estimated that there are 250,000 to 500,000 species of plants on Earth. A relatively handsome percentage (1 to 10%) of these is used as foods by both humans and other animal species. It is possible that even to a greater extent are used for medicinal occasions (Moerman, D. E. 1996). Moerman (1996) reported that sequence 625 species of plants fox been used by various Native American groups as food, 2,564 have found use as drugs. According to his calculations, this leaves approximately 18,000 species of plants which were used for neither food nor drugs. 4Plant oils and extracts have been used for a wide variety of purposes for many thousands of eld (Jones 1996). These purposes vary from the use of rosewood and cedar wood in perfumery, to flavoring drinks with lime, fennel or juniper berry oil, and the application of lemongrass oil for the preservation of stored food c rops. In particular, the antimicrobial activity of plant oils and extracts has formed the basis of many applications, including raw and processed food preservation, pharmaceuticals, alternative medicine and natural therapies.Since old-fashioned times, herbs and their essential oils have been cognise for their varying degrees of antimicrobial activity. More recently, medicinal plant extracts were developed and proposed for use in food as natural antimicrobials.2.1 DEFINITIONAn essential oil is a concentrated, hydrophobic liquidness containing volatile aroma compounds from plants. Essential oils are also known as volatile, ethereal oils or aetherolea, or apparently as the oil of the plant from which they were extracted, such as oil of clove. Oil is essential in the sense that it carries a distinctive scent, or essence, of the plant. 5Essential oils are frequently referred to as the life force of plants. These essential oils are extracted from flowers, leaves, stems, roots, seeds, b ark, and fruit rinds. The amount of essential oils found in these plants can be anywhere from 0.01 percent to 10 percent of the total. These oils have toiletent antimicrobial factors, having wide range of therapeutic constituents. These oils are often used for their flavor and their therapeutic or fresh properties, in a wide selection of products such as foods, medicine, and cosmetics. Only pure oils contain a full spectrum of compounds that cheap imitations simply cannot duplicate. 52.2 CHEMICAL CONSTITUENTS OF essential OILSAn Essential Oil contains more(prenominal) than 200 chemical components, but some are many times more complex. Essential oils consist of chemical compounds which have hydrogen, carbon and oxygen as their building blocks. They can be essentially classified into two groupsVolatile fraction Essential oil constituting of 90-95% of the oil in weight, containing the monoterpene and sesquiterpene hydrocarbons, as well as their oxygenated derivatives along with alip hatic aldehydes, alcohols, and esters.Nonvolatile eternal rest This comprises 1-10% of the oil, containing hydrocarbons, fatty acids, sterols, carotenoids, waxes, and flavonoids.However the properties of these components can change. For example, the components from the oils extracted from plants can change according to how, when and where these plants are boastful and harvested. 6 The constituents can be again subdivided into 2 groups, such as the hydrocarbons which are made up of virtuallyly terpenes and the oxygenated compounds which are mainly alcohols, aldehydes, esters, ketones, phenols and oxides. nigh of the common components are listed below along with their properties.AlcoholsAlcohols are generally considered safe and have a very low or totally absent toxic reaction in the body or on the skin and so can be used on children. They are extremely useful due to their antiviral, antibacterial and aseptic properties. Alcohols are present either as a free compound or combined with a terpene or ester and are found in ylang -ylang and chromatic as linalool, geraniol in geranium and palmarosa and citronellol found in rose, lemon and eucalyptus. Other alcohols include menthol, nerol and benzyl alcohol.AlderhydesAlderhydes are found in lemon-scented oils such as Melissa, lemon verbena, citronella etc. and include citral, citronellal and neral. They generally have sedative qualities with specific antiseptic properties. Other known alderhydes include benzaldehyde, cinnamic alderhyde and perillaldehyde. Essential oils containing alderhydes are helpful in treating inflammation, Candida and viral infections. 6Hydrocarbon grammatical construction blocks of Essential Oil are hydrogen and carbon. Basic Hydrocarbon found in plants is isoprene having the following structure.(Isoprene)TerpenesThese components generally have names ending with ene. Some of them are limonene, pinene, piperene, camphene etc. These components act as an antibacterial, antiviral, anti-inflamm atory, antiseptic, antiviral and bactericidal. These are further categorized into monoterpene, sesquiterpene and diterpenes. When two of the isoprene units are joined head to tail, the result is a monoterpene, when three are joined, its a sesquiterpene and similarly four linked isoprene units are diterpenes.Monoterpene C10H16Monoterpene are naturally occurring compounds, the majority being unsaturated hydrocarbons (C10).But some of their oxygenated derivatives such as alcohols, Ketones, and carboxylic acids known as monoterpenoids.(Limonene) (Menthol)Two isoprene units are present in these branched-chain C10 hydrocarbons and are widely distributed in nature with more than 400 naturally occurring monoterpenes. Moreover, besides being linear derivatives (Geraniol, Citronellol), the monoterpenes can be cyclic molecules (Menthol Monocyclic Camphor bicyclic Pinenes ( and ) Pine genera as well. Thujone (a monoterpene) is the toxic agent found in Artemisia absinthium (wormwood) from whi ch the liqueur absinthe, is made. Borneol and camphor are two common monoterpenes. Borneol, derived from pine oil is used as a disinfectant and deodorant. Camphor is used as a counterirritant, anesthetic, expectorator, and antipruritic, among many other uses.SesquiterpeneSesquiterpenes are biogenetically derived from farensyl pyrophosphate and in structure whitethorn be linear, monocyclic or bicyclic. They constitute a very large group of secondary metabolites, some having been shown to be stress compounds formed as a result of disease or injury. These are having properties like anti-inflammatory, anti-septic, analgesic and anti-allergic.Sesquiterpene LactonesThese are available as farnesene in chamomile and lavender. They not only have proved to be of interest from chemical and chemotaxonomic point of view, but also possess many antitumor, anti-leukemia, cytotoxic and antimicrobial activities.Chemically the compounds can be classified according to their carboxylic skeletons thus, g uaianolides, pseudoguaianolides, eudesmanolides, eremophilanolides, xanthanolides, etc. can be derived from the germacranolides.Structural features of all these compounds are associated with much of the biological activity. For example beta-caryophyllene in basil and black pepperDiterpenesIsoprene has been an integral part in most of the components as there are four isoprene units in Diterpenes. By Stem Distillation method we cannot detect Diterpenes as this molecule is too heavy to kick for evaporation, so it is rarely found in distilled Essential Oils. Diterpenes occur in all plant families and consist of compounds having a C20 skeleton. There are about 2500 known Diterpenes that belong to 20 major structural types. Derivatives of Diterpenes are plant hormones Gibberellins and phytol occurring as a side chain on chlorophyll. The biosynthesis occurs in plastids and interestingly mixtures of monoterpenes and diterpenes are the major constituents of plant resins. In a similar manner to monoterpenes, Diterpenes arise from metabolism of geranyl geranyl pyrophosphate (GGPP). Therapeutically Diterpenes have limited importance and are used in certain sedatives (coughs) as well as in antispasmodics and anxiolytics.AlcoholsNaturally Alcohols exist either as a free compound or combined with a terpenes or ester. When terpenes are attached to an oxygen atom, and hydrogen atom, the result is an alcohol. When the terpene is monoterpene, the resulting alcohol is called a monoterpenol. Alcohols are not and are suitable to body or skin. Therefore, they are considered safe to use. Some of these properties are anti-septic, anti-viral, bactericidal and germicidal. Some of the examples are linalool found in ylang-ylang and lavender, geraniol in geranium and rose and nerol in neroli.AldehydesAldehyde containing Essential Oils are utile in treating candida and other fungal infections. Some of these properties are anti-fungal, anti-inflammatory, anti-septic, anti-viral, bactericid al, disinfectant, and sedative. Aldehydes are present as citral in lemon, Citronellal in lemongrass, lemon balm and citrus eucalyptus.AcidsGenerally constituent(a) acids are found in very small quantities in their free state within Essential Oils. Plant acids act as components or weaken systems to control acidity. These also act anti-inflammatory. Examples are cinnamic and benzoic acid in benzoin, Citric and lactic.EstersEsters are formed by the reaction of alcohols with acids. Essential oils containing esters are used for their soothing, balancing effects. Because of the presence of alcohol, they are effective antimicrobial agents. Medicinally, esters are characterized as antifungal and sedative, with a balancing action on the nervous system. They generally are free from precautions with the exception of methyl salicylate found in birch and wintergreen which is toxic within the system. Examples are linlyl acetate in bergamot and lavender and Geranyl formate in geranium.KetonesKe tones found in plants are used for upper respiratory complaints. They assist the flow of mucus and ease congestion. Essential oils containing ketones are beneficial for promoting wound healing and encouraging the formation of scar tissue. Ketones are (not always) very toxic. The most toxic ketone is Thujone found in mugwort, sage, tansy, thuja and wormwood oils. Other toxic ketones found in essential oils are pulegone in pennyroyal, and pinocamphone in hyssops. Some non-toxic ketones are jasmone in jasmine oil, fenchone in fennel oil, carvone in spearmint and dill oil and menthone in peppermint oil.LactonesLactones are known to be particularly effective for their anti-inflammatory action, possibly by their role in the reduction of prostaglandin synthesis and expectorant actions. Lactones have an even stronger expectorant action than ketones. Previous thesis2.3 ADVANTAGES OF ESSENTIAL OILAROMATHERAPHY Aromatherapy is a form of alternative medicine that uses volatile plant materials, known as essential oils, and other aromatic compounds for the purpose of altering a persons mood, cognitive function or health. Science has discovered that our sense of smell plays a significant role in our overall health.Since ancient times Essential Oils have been used in medicine because of their medicinal properties, for example some oils have antiseptic properties. In extension, many have an pick up effect on the mind, though opposite essential oils have contrasting properties.Working of Essential Oil in Aromatherapy when Essential Oil is inhaled it goes directly from olfactory system to limbic system of the brain. Brain responds to the particular scent affecting our emotions and chemical balance. Essential Oils also absorbed by the skin and carried throughout the body via the circulatory system to reach all internal organs.We can be benefited by choosing carefully the desired and suitable oils which can promote overall health. Benefits opine upon the unique nature of each persons response to an aromatic stimulus. 1Importance of Essential Oil in pharmaceutics Essential Oils have versatile applications in pharmaceutics. Some of the applications are listed below.Antiseptics The antiseptic properties of Essential Oil make them active against wide range of bacteria as on antibiotic resistant strains. In addition to this they are also against fungi and yeasts. The most common sources of essential oils used as antiseptics are Cinnamon, Thyme, Clover, eucalyptus tree, Culin savory, Lavender. Citral, geraniol, linalool and thymol are much more potent than phenol. 1Expectorants and diuretics When used externally, essential oils like (Lessence de terebenthine) increase microcirculation and provide a slight local anesthetic action. Till now, essential oils are used in a payoff of ointments, cream and gels, whereby they are known to be very effective in relieving sprains and other articular pains. Oral administration of essential oils like eucalyptus or pin oi ls, stimulate ciliated epithelial cells to secrete mucus. On the renal system, these are known to increase vasodilation and in consequence bring about a diuretic effect.Spasmolytic and sedative Essential oils from the Umbellifereae family, Mentha species and verbena are reputed to decrease or eliminate gastrointestinal spasms. These essential oils increase secretion of gastric juices. In other cases, they are known to be effective against insomnia.METHODS OF EXTRACTION The following are the methods of extraction of Essential Oil and their drawbacks.2.4.1 Solvent-ExtractionIn the Solvent-Extraction method of Essential Oils recovery, an extracting unit is loaded with perforated trays of essential oil plant material and repeatedly washed with the solvent. A hydrocarbon solvent is used for extraction. All the extractable material from the plant is dissolved in the solvent. This includes highly volatile aroma molecules as well as non-aroma waxes and pigments. The extract is distilled to recover the solvent for future use. The ductile fortune that remains is known as the concrete. The concentrated concretes are further processed to remove the waxy materials which dilute the pure essential oil. To prepare the absolute from the concrete, the waxy concrete is warmed and stirred with alcohol (ethanol). During the heating and stirring process the concrete breaks up into minute globules. Since the aroma molecules are more soluble in alcohol than the waxes, an efficient separation of the two results. This is not considered the best method for extraction as the solvents can leave a small amount of residue behind which could cause allergies and effect the immune system.2.4.2 MacerationMaceration actually creates more of infused oil rather than an Essential Oil. Plant matter is soaked in vegetable oil, heated and strained at which point it can be used for massage. This method is not desirable because it changes the composition of oil.2.4.2 Cold PressingThis method is used to extract the Essential Oils from citrus rinds such as orange, lemon, grapefruit and bergamot. This method involves the simple pressing of the rind at about 120 degrees F to extract the oil. The rinds are severd from the fruit, are ground or chopped and are then pressed. The result is a watery mixture of essential oil and liquid which will separate given time. Little alteration from the oils original state occurs these citrus oils retain their bright, fresh, uplifting aromas like that of smelling a wonderfully advanced fruit. The drawback of this method is, oils extracted using this method have a relatively short shelf life.2.4.3 EffleurageThis is one of the traditional ways of extracting oil from flowers. The process involves layering fat over the flower petals. After the fat has absorbed the essential oils, alcohol is used to separate and extract the oils from the fat. The alcohol is then evaporated and the Essential Oil is collected.2.4.4 Super unfavourable CO2 ExtractionSupe rcritical CO2 extraction (SCO2) involves carbon dioxide heated to 87 degrees F and pumped through the plant material at about 8,000 psi, under these conditions the carbon dioxide is likened to a dense fog or vapor. With release of the pressure in either process, the carbon dioxide escapes in its gaseous form, leaving the Essential Oil behind. The usual method of extraction is through steam distillation. After extraction, the properties of a good quality essential oil should be as close as possible to the essence of the original plant. The key to a good essential oil is through low pressure and low temperature processing. High temperatures, speedy processing and the use of solvents alter the molecular structure, will destroy the therapeutic value and alter the fragrance.2.4.5 Turbo Distillation ExtractionTurbo distillation is suitable for hard-to-extract or bluff plant material, such as bark, roots, and seeds. In this process, the plants soak in water and steam is circulated throug h this plant and water mixture. Throughout the entire process, the same water is continually recycled through the plant material. This method allows faster extraction of essential oils from hard-to-extract plant materials.Dr.A.Sahoo et al have studied that Steam Distillation is a special type of distillation or a separation process for temperature sensitive materials like oils, resins, hydrocarbons, etc. which are insoluble in water and may decompose at their boiling point. The temperature of the steam must be high enough to vaporize the oil present, yet not so high that it destroys the plants or destroy the essential oils. The experiment has been carried out for the extraction of oil from Eucalyptus which has high essential oil content. Such Eucalyptus essential oil, which have been used as perfume and chemical raw materials for a long time, are now been studied as renewable sources of energy.G. Anitescu et al have studied that ripe fruits of coriander seed sativum L. were extrac ted by steam distillation and by supercritical fluid extraction (SFE), using CO2 in a two-stage separation system. An inexpensive thermal expanding upon procedure for supercritical fluid delivery has been developed. The identification of components was performed by gas chromatography and mass spectrometry (GCMS). The percentage composition of the 40 identified compounds was compared with the composition of commercial coriander oil extracted by hydro distillation.Roy Teranishi et al have studied that system combines steam distillation and liquid-liquid extraction to recover volatiles from fats and oils. Oil is pumped in at the top of a spinning-band distillation column, in which the oil is heated to100 C and spread to a thin study. As the oil film drops down to the pot, steam, which is introduced at the bottom, travels upward to strip the volatiles from the oil. The steam distillation is extracted in a liquid-liquid extractor incorporated in the system, and the extracted water is recycled as steam. Stripped oil in the pot serves as a liquid seal to force steam up the column. The level of the oil in the pot is maintained automatically by an invade system. Many liters of oil can be pumped through this system to be stripped of volatiles by steam. The volatiles can be isolated easily from the small amount of solvent recycled in the liquid-liquid extractor.Referring to the above literature review, it was found that Steam Distillation method is an appropriate and economical method for extraction of Essential Oil.2.4.6 Extraction of Essential Oils Using Steam distillation MethodSteam distillation is a special type of distillation or a separation process for temperature sensitive materials like oils, resins, hydrocarbons, etc. which are insoluble in water and may decompose at their boiling point. The fundamental nature of steam distillation is that it enables a compound or mixture of compounds to be distilled at a temperature substantially below that of the boiling point(s) of the individual constituent(s). Essential oils contain substances with boiling points up to 200C or higher temperatures. In the presence of steam or boiling water, however, these substances are volatilized at a temperature close to 100C, at atmospheric pressure.Fresh, or sometimes dried, botanical material is placed in the plant chamber of the still and the steam is allows to pass through the herb material under pressure which softens the cells and allows the Essential Oil to escape in vapor form. The temperature of the steam must be high enough to vaporize the oil present, yet not so high that it destroys the plants or burns the Essential Oils.Besides the steam tiny droplets of Essential Oil evaporates and travel through a tube into the stills condensation chamber. Here Essential Oil vapors condense with the steam. The essential oil forms a film on the surface of the water.To separate the Essential Oil from the water, the film is then decanted or skimmed off the top.The remaining water, a byproduct of distillation, is called floral water, distillate, or hydrosol. It retains many of the therapeutic properties of the plant, making it worth(predicate) in skin care for facial mists and toners (A solution containing chemicals that can change the color of a photographicprint). In certain situations, floral water may be preferable to be pure essential oil, such as when treating a sensitive individual or a child, or when a more diluted treatment is required. Rose hydrosol, for example, is commonly used for its mild antiseptic and soothing properties, as well as its pleasing floral aroma.A number of factors determine the final quality of a steam distilled essential oil. Apart from the plant material, most important are time, temperature and pressure, and the quality of the distillation equipment. Essential oils are very complex products. Each is made up of many, sometimes hundreds, of distinct molecules which come together to form the oils aroma and thera peutic properties. Some of these molecules are plum delicate structures which can be altered or destroyed by adverse environmental conditions. So, much like a fine meal is more flavorful when made with patience, most oils benefit from a long, slow cooking process. It is possible that longer distillation times may give more bed oil. It is also possible however, that longer distillation time may lead to the accumulation of more artifacts than normal. This may have a curious effect of seem to improving the odor, as sometimes when materials that have a larger number of components are sniffed, the perception is often of slightly increased sophistication, added fullness and character, and possibly, and extra pleasantness.Advantages of using Steam DistillationThe advantage of Steam Distillation is that it is a relatively cheap process to operate at a basic level, and the properties of oils produced by this method are not altered. As steam reduces the boiling point of a particular compon ent of the oil, it never decomposes in this method. This method apart from being economical, it is also relatively faster than other methods.CHAPTER 3EXPERIMENTAL WORK3.1 Experimental SetupThe schematic diagram of experimental setup is shown below. The experiment was conducted in a Clevengers Apparatus. Apparatus consist of one round bottom flaskful of 1000ml which is connected with another two way round flask which holds raw material. The top flask is connected with condenser through the connecter. The separating funnel is used for the separation of essential oil and water.3.2 Experimental ProcedureFresh leaves (rosemary) or bark (cinnamon) are abbreviated into pieces less than 2 X 2 cm within half a day after collection and 150-200 g boiled with 500 ml of distilled water in a Clevenger apparatus until oil distillation ceased after 5-6 h. The volume of essential oils was determined from a calibrated trap. The essential oils in the distillate were dried over anhydrous Na2SO4 and ke pt in the freezer.3.3 Analysis of Essential OilsAnalysis of Essential Oil was done using Gas Chromatography with Mass mass spectrometer to know the composition of oil and to the quantity of each composition.3.3.1 Gas Chromatography-Mass SpectrometerGas Chromatography-Mass Spectrometry (GC-MS) is a method that combines the features of gas-liquid chromatography and mass spectrometry to identify different substances within a test sample. Applications of GC-MS include drug detection, fire investigation, environmental analysis, explosives investigation, and identification of unknown samples. Additionally, it can identify trace elements in materials that were previously thought to have disintegrated beyond identification. 7InstrumentationThe GC-MS is composed of two major building blocks the gas chromatograph and the mass spectrometer. The gas chromatograph utilizes a capillary column which depends on the columns dimensions (length, diameter, film thickness) as well as the phase propert ies (e.g. 5% phenyl polysiloxane). The difference in the chemical properties between different molecules in a mixture will separate the molecules as the sample travels the length of the column. The molecules take different amounts of time (called the safekeeping time) to come out of (elute from) the gas chromatograph, and this allows the mass spectrometer downstream to capture, ionize, accelerate, deflect, and detect the ionize molecules separately. The mass spectrometer does this by breaking each molecule into ionized fragments and detecting these fragments using their mass to charge ratio. These two components, used together, allow a much finer degree of substance identification than either unit used separately. It is not possible to make an accurate identification of a particular molecule by gas chromatography or mass spectrometry alone. The mass spectrometry process normally requires a very pure sample while gas chromatography using a traditional detector (e.g. Flame Ionizatio n Detector) detects multiple molecules that happen to take the same amount of time to travel through the column (i.e. have the same retention time) which results in two or more molecules to co-elute. Sometimes two different molecules can also have a similar pattern of ionized fragments in a mass spectrometer (mass spectrum). Combining the two processes makes it extremely unlikely that two different molecules will persuade in the same way in both a gas chromatograph and a mass spectrometer. Therefore when an identifying mass spectrum appears at a characteristic retention time in a GC-MS analysis, it typically lends to increased certainty that the analyte of interest is in the sample. 73.4 Experimental ObservationExperiment had been conducted using different plant materials at different temperatures and time of heating, keeping pressure constant (atmospheric pressure).CHAPTER 4RESULTS AND DISCUSSION4.1 InferencesVolume of Essential Oil obtained from a particular plant material was di fferent for different temperatures and at a particular temperature for different time of heating. Volume of Essential Oil obtained is less in comparison to hydrosol of the same plant material. Its sport along with temperature and time of heating is shown in graphs drawn below.4.1.1 Graph showing variation of Volume of Essential Oil against Temperature, obtained from Orange peels.From the graph we can expose that volume of Essential Oil obtained from orange peels is almost increasing linearly with Temperature, if we ignore the slight decline in volume at 900C. The decline may be due to leakage of vapor during Steam Distillation or because of improper decantation.4.1.2 Graph showing variation of Volume of Essential Oil against Temperature, obtained from Eucalyptus leaves.From the above graph we can observe that volume of Essential Oil obtained is negligible before the components of the oil reach to their boiling