This document provides instructions for performing a Soxhlet extraction to determine the fat content of french fries. Sodium sulfate is mixed with the ground fry sample to absorb water before placing it in a thimble. The thimble is subjected to repeated washing with solvent like hexane in a Soxhlet apparatus to extract all fat over 18-20 hours. The extracted fat is collected and dried, and the increase in mass is used to calculate the percentage of fat in the original fry sample. The procedure is intended to help food companies accurately report fat content and compare to competitors' products.
Soxhlet extraction is a continuous process of extraction with a hot organic solvent. Typically, Soxhlet extraction is used when the desired compound has a limited solubility in a solvent, and the impurity is insoluble in that solvent.
Soxhlet extraction is a continuous process of extraction with a hot organic solvent.
Typically, Soxhlet extraction is used when the desired compound has a limited solubility in a solvent, and the impurity is insoluble in that solvent.
Extraction of aromatic compounds from spices Anshika Saxena
Extraction of oleoresins & aromatic compd has been of great importance since ages. Spices contains essential oils ,terpenes sesquiterpenes & other VOCs .This presentation covers various extraction techniques employed worldwide along with their pros & cons.
If you like it ,Please press the thumb up button & donot forget to give your feedback in comments section, it would be extremely valuable . Any query ? Feel free to post in comments section. All the best ! Enjoy !
Soxhlet extraction is a continuous process of extraction with a hot organic solvent. Typically, Soxhlet extraction is used when the desired compound has a limited solubility in a solvent, and the impurity is insoluble in that solvent.
Soxhlet extraction is a continuous process of extraction with a hot organic solvent.
Typically, Soxhlet extraction is used when the desired compound has a limited solubility in a solvent, and the impurity is insoluble in that solvent.
Extraction of aromatic compounds from spices Anshika Saxena
Extraction of oleoresins & aromatic compd has been of great importance since ages. Spices contains essential oils ,terpenes sesquiterpenes & other VOCs .This presentation covers various extraction techniques employed worldwide along with their pros & cons.
If you like it ,Please press the thumb up button & donot forget to give your feedback in comments section, it would be extremely valuable . Any query ? Feel free to post in comments section. All the best ! Enjoy !
The presentation gives the basic information regarding the extraction in food matrix. It includes basics of extraction, principles of extraction and the theory behind the solvent extraction. It also involves terms and terminologies involved in the extraction process, Factors affecting extraction efficiency and Types of Extractors. Mixer-Settlers for extraction, Spray extraction towers, Plate towers contactors, etc.
This presentation is about Pearson square method.
Pearson’s square method -
Draw a square and place in the centre of it the desired fat percentage. Place at the left hand corners of the square, the fat percentage of the materials to be mixed. Next, subtract the number in the centre from the larger number at the left hand side of the square and place the remainder at the diagonally opposite right hand corners. The number on the right hand side now represents the number of parts of each of the original materials that must be blended to have the desired fat content in resultant mix. The number at the upper right corner refers to the parts of material whose fat test was placed at the upper left corner and the number at the lower right corner refers to the parts of material whose fat test was placed at the lower left corner. If the numbers on the right are added, the sum obtained will represent the parts of the finished product.
Essential oils are volatile (quickly evaporating) aromatic fluids extracted from plants through steam distillation, or in the case of citrus fruits through expression (or cold pressing) of the rind to obtain an oil that retains a juicy, fresh fruit scent.
Various extraction methods are used in the manufacture and extraction of essential oils, and the method used is normally dependant on what type of botanical material is being used.
1. Selection of plant species
2.Collection and identification of plant species
3.Preparation of plant material
4.Extraction and isolation of bioactive molecules
5.Identification and structural elucidation
To Read More : https://bit.ly/3hYn55I
Milk urea is an approximate indicator of the amount of crude protein in a cow's diet. It is formed from the metabolism of absorbed amino acids and body protein.The digestion of protein in the rumen releases ammonia. If there is excess ammonia it is absorbed through the rumen wall into the blood stream and converted to urea in the liver. Most of the urea is excreted in the cow’s urine although some passes into the milk.If the diet is deficient in nitrogen, then the urea is not excreted, but recycled back into the rumen and converted back to ammonia.
The presentation gives the basic information regarding the extraction in food matrix. It includes basics of extraction, principles of extraction and the theory behind the solvent extraction. It also involves terms and terminologies involved in the extraction process, Factors affecting extraction efficiency and Types of Extractors. Mixer-Settlers for extraction, Spray extraction towers, Plate towers contactors, etc.
This presentation is about Pearson square method.
Pearson’s square method -
Draw a square and place in the centre of it the desired fat percentage. Place at the left hand corners of the square, the fat percentage of the materials to be mixed. Next, subtract the number in the centre from the larger number at the left hand side of the square and place the remainder at the diagonally opposite right hand corners. The number on the right hand side now represents the number of parts of each of the original materials that must be blended to have the desired fat content in resultant mix. The number at the upper right corner refers to the parts of material whose fat test was placed at the upper left corner and the number at the lower right corner refers to the parts of material whose fat test was placed at the lower left corner. If the numbers on the right are added, the sum obtained will represent the parts of the finished product.
Essential oils are volatile (quickly evaporating) aromatic fluids extracted from plants through steam distillation, or in the case of citrus fruits through expression (or cold pressing) of the rind to obtain an oil that retains a juicy, fresh fruit scent.
Various extraction methods are used in the manufacture and extraction of essential oils, and the method used is normally dependant on what type of botanical material is being used.
1. Selection of plant species
2.Collection and identification of plant species
3.Preparation of plant material
4.Extraction and isolation of bioactive molecules
5.Identification and structural elucidation
To Read More : https://bit.ly/3hYn55I
Milk urea is an approximate indicator of the amount of crude protein in a cow's diet. It is formed from the metabolism of absorbed amino acids and body protein.The digestion of protein in the rumen releases ammonia. If there is excess ammonia it is absorbed through the rumen wall into the blood stream and converted to urea in the liver. Most of the urea is excreted in the cow’s urine although some passes into the milk.If the diet is deficient in nitrogen, then the urea is not excreted, but recycled back into the rumen and converted back to ammonia.
Lipids : Classification & general analysisVinit Gohel
brief knowledge about lipid, its classification and method of analysis are covered in this slide. Students searching for notes can refer this slide. Hope it will help you.
Fat determination by Büchi. Comparison between soxhlet and hot extractionLoïc Ehanno
Fat determination is one of the key analyses used for food labelling and quality control. Two extraction methods were compared with respect to practicality and reliability of the results.
Sterility testing products (solids, liquids, ophthalmic and other sterile pro...Ms. Pooja Bhandare
PHARMACEUTICAL MICROBIOLOGY (BP303T)Unit-IIIPart-6 Sterility testing products (solids, liquids, ophthalmic and other sterile products) according to IP, BP, USP.
Introduction: Test for Sterility. Culture Media. Fluid Thioglycollate Medium (FTM).
Alternative Thioglycollate Medium (ATM).
Soybean Casein Digest Medium (SCDM).
Tests for Culture Media:
Sterility of Media.
Growth Promotion Test.
Test for Bacteriostatic and Fungistatic.
Sterility Test Methods. Methods A: Membrane Filtration.
Method B: Direct Inoculation Pyrogen Test Methods. Rabbit Test. LAL Test.
It is generally recognized that stained fecal films are the single most productive means of stool examination for intestinal protozoa. The permanent stained smear facilitates detection and identification of cysts and trophozoites and affords a permanent record of the protozoa encountered. Small protozoa, missed by wet mount examinations (of either unconcentrated or concentrated samples) are often seen on the stained smear. The Wheatley Trichrome technique for fecal specimens is a modification of Gomori's original staining procedure for tissue. It is a rapid, simple procedure, which produces uniformly well-stained smears of the intestinal protozoa, human cells, yeast, and artifact material.
1. To close the yellow note, click once to select it and
then click the box in the upper left corner.
To open the note, double click (Mac OS) or right
click (Windows) on the note icon.
Soxhlet Extraction of Fat from French Fries
Beverly Swaile, University of Cincinnati, Cincinnati, OH
INTRODUCTION
Description
Lipids are a group of substances that, in general, are soluble in ether, chloroform, and other organic
solvents but are relatively insoluble in water. An accurate and precise quantitative analysis of lipids
in foods is important not only for nutritional labeling, but also for determining whether the food
meets the standards for identity and uniformity, and for understanding the effects of fats and oils on
the functional and nutritional properties of foods. The validity of the fat analysis of a food depends
on many factors, including proper sampling and preservation of the sample before the analysis.
Because of commercial regulations, it is important for food producers to be able to report fat content
in a serving size of a food item. The Soxhlet procedure allows for the calculation of total lipid (fat)
content in french fries or other food substances. In many of its published methods, the U.S.
Environmental Protection Agency requires Soxhlet extraction of components from a variety of
sample matrices including foods and soils.
This experiment involves the extraction of fat from commercial (fast-food) french fries by an
exhaustive extraction with solvent using a Soxhlet extractor apparatus.
Student Audience
This activity is appropriate for chemical technology students.
Goals for the Activity
The following is a method for the extraction and determination of percent fat content in a food
sample by weight. Students will develop skills including use of a micro-Soxhlet extractor and a
sample concentrator and the ability to calculate percent fat content by weight in a sample.
Recommended Placement in the Curriculum
This activity should be conducted during analytical or organic chemistry.
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2. STUDENT HANDOUT
Soxhlet Extraction of Fat from French Fries
Purpose
This experiment involves the extraction of fat from commercial (fast-food) french fries by an
exhaustive extraction with solvent using a Soxhlet extractor apparatus.
Scenario
A recent marketing study has concluded that french fries served at Company X are more “greasy
tasting” to consumers than fries sold by Companies Y and Z. As a top technician at Company X, you
have been personally assigned by the CEO to a team that will evaluate this problem by extracting the
fat from the finished fry product and comparing the average lipid percentage to that of your
competitors. Your first mission is to conduct library research on methods for fat extraction. After
searching for an acceptable extraction technique, you discover that although many techniques for
extraction of fats exist (including supercritical fluid extraction, assisted solvent extraction, and
liquid-liquid extraction), many of the methods published by governmental regulatory agencies such
as FDA, USDA, and EPA require the use of Soxhlet extraction. You present this information to the
team, and since you are presently interested only in total fat content, a decision is made to use
Soxhlet extraction for the lipid analysis.
Materials
Per group
• organic solvent
• sodium sulfate
• thimble (cellulose or slitted glass)
• french fry sample
• Teflon® boiling chips or glass beads (see instructor)
• glass wool
• nitrogen gas
• mortar and pestle
• micro-Soxhlet glassware with 25-mL round-bottomed flask
• heating mantle
• concentrator (evaporation) apparatus
• rubber tubing
• analytical balance
Safety, Handling, and Disposal
It is your responsibility to specifically follow your institution’s standard operating procedures
(SOPs) and all local, state, and national guidelines on safe handling and storage of all chemicals and
equipment you may use in this activity. This includes determining and using the appropriate personal
protective equipment (e.g., goggles, gloves, apron). If you are at any time unsure about an SOP or
other regulation, check with your instructor.
This experiment uses hazardous solvents that must be disposed of in appropriate waste containers.
Organic solvents tend to be highly flammable. Use appropriate precautions. Extraction and post-
extraction evaporation steps must be performed in a vented hood!
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3. Collection of Laboratory Activities: Soxhlet Extraction of Fat from French Fries
Procedure
1. Obtain a sample of 10–15 french fries from a package. Weigh the sample on an analytical
balance. Mash and grind the sample using a mortar and pestle until the sample is as homogenous
as possible. Mix the crushed fry samples with sodium sulfate in a 1:1 (w/w) ratio. Once the
sample is thoroughly mixed, place 2.0 g of the sample in a glass or cellulose thimble, filling it
two-thirds to three-fourths full. Tap down and place a plug of glass wool on top of the sample to
prevent spillage.
Caution: Extraction and post-extraction evaporation steps must be performed in a vented
hood! The micro-Soxhlet apparatus is expensive and very fragile and should be handled
with care to prevent breakage.
2. Pour approximately 10 mL of solvent into a 25-mL round-bottomed flask. Add 3–5 boiling chips
to the flask. Place the Soxhlet extractor connection on top of the flask and place the thimble with
the sample in the extractor fitting. (See Figure 1.) Pour an additional 5–7 mL of solvent into the
thimble compartment. Connect the Allihn condenser on top of the Soxhlet extractor and turn on
the water flow. It is advisable to flow the water in from the bottom outlet and out from the top
outlet of the condenser. A minimum of three samples should be extracted per student.
thimble
Figure 1: Soxhlet Extractor
3. Begin heating the round-bottomed flask with a mantle. Monitor the heating process. The solvent
should be brought to the vaporization stage but not to a rolling boil. Ideally, solvent flushes
through the sample should occur every 5–10 minutes. Adjust heat as necessary to achieve regular
flushing. Allow the extraction to continue approximately 18–20 hours.
4. Empty the round-bottomed flask contents into a pre-weighed Erlenmeyer flask. Place the flask in
the heated water bath of the concentrator apparatus. Remove the solvent by flowing a steady
stream of nitrogen over the sample. Once all the solvent has been removed, dry the excess water
from the outside of the flask and weigh the extracted fat. Then calculate the weight of fat
extracted from the original french fry sample.
Fat content for commercial french fry products is reported as follows: The difference between
the weight of the flask before addition of the sample and after concentration of the sample,
multiplied by 100% and divided by the original weight of the sample, gives you the percentage
of fat from the sample. This calculation assumes 100% extraction of fat from the sample.
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4. Collection of Laboratory Activities: Soxhlet Extraction of Fat from French Fries
5. Turn in a formal write-up of your findings including a diagram of the apparatus and a discussion
of fat content for different brands of fries.
Questions
1. What role does sodium sulfate play in this experiment?
2. Why is a cellulose thimble used to hold the sample?
3. What makes the solvent used for the extraction a good choice? Suggest an alternate choice.
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5. INSTRUCTOR NOTES
Soxhlet Extraction of Fat from French Fries
Time Required
This activity will take 2–3 lab periods. (Take special care to turn off heating mantles and cover the
tops of condensers 18–20 hours after the first lab.) The extractors can sit until the next lab period, or
the units may be disassembled and the round-bottomed flasks may be removed, covered, and stored
separately.
Group Size
Availability of glassware and hood space will probably determine group size. It is advisable to put
students in teams of 2–3 and have them run multiple extractions. Each team may be assigned one
brand of french fry to prepare and analyze according to the procedure in the Student Handout.
Materials
Per group
• solvent (see Procedural Tips and Suggestions)
• sodium sulfate
• thimble (cellulose or slitted glass)
• french fry sample
• Teflon boiling chips or glass beads
• glass wool
• nitrogen gas
• mortar and pestle
• micro-Soxhlet glassware with 25-mL round-bottomed flask
• heating mantle
• concentrator (evaporation) apparatus
• rubber tubing for water flow to Allihn condenser
• analytical balance
Safety, Handling, and Disposal
As the instructor, you are expected to provide students with access to SOPs, MSDSs, and other
resources they need to safely work in the laboratory while meeting all regulatory requirements.
Before doing this activity or activities from other sources, you should regularly review special
handling issues with students, allow time for questions, and then assess student understanding of
these issues.
Organic solvents should be collected in a waste container and disposed of properly. All extraction
and drying-down procedures should be performed in the hood.
Points to Cover in the Pre-lab Discussion
It is advisable to divide the class into groups that can perform the analysis on one type of product
(i.e., Group 1 performs extraction on Brand Y, Group 2 works with Brand X, etc.). Once the
experiments are completed, it is effective to collect the data from each group, present it on the board,
and have the students critically evaluate the data as a whole. Statistical manipulation of the data can
be performed and conclusions drawn if a fairly large number of samples per product are extracted.
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6. Collection of Laboratory Activities: Soxhlet Extraction of Fat from French Fries
Procedural Tips and Suggestions
• Soxhlet extraction can be used to determine the percent-by-weight of fat in french fries.
However, lipids cannot be effectively extracted with ethyl ether from moist foods because the
solvent cannot easily penetrate the moist food tissues. The ether, which is hygroscopic, becomes
saturated with water and inefficient for lipid extraction. Drying the food at elevated temperatures
is undesirable because some lipids become bound to proteins and carbohydrates, and bound
lipids are not easily extracted with organic solvents. It is necessary to add sodium sulfate or some
other drying agent to the sample. This agent will be unaffected by the organic solvent but will
scavenge excess water from the sample.
• Sodium sulfate is a common chemical used to absorb excess water in Soxhlet extractions. By
mixing the french fry sample in a 1:1 ratio (w/w), you will eliminate the aqueous layer in the
solvent/lipid mixture at the end of the extraction. However, if you choose a solvent that is
miscible with water, the water interference will be more subtle in that it will take much longer to
blow down the solvent, and the water, if not completely removed, will cause erroneous total fat
values.
• Evaporation: Some evaporation of the solvent has been observed over the 20-hour period due to
poorly sealed joints between the flask and extractor. Care should be taken to ensure a good seal;
however, stopcock grease is not recommended as it may contaminate the extracted fat. Instead
use Teflon tape wrapped around the joint or a Teflon fitting, which may be purchased from
companies such as ACE Glass.
• Solvents: Common solvents that are immiscible with and less dense than water include diethyl
ether, toluene, and hexane. Those that are immiscible with but more dense than water include
chloroform, dichloromethane, and carbon tetrachloride. Some of these solvents are rather
hazardous, and it is recommended that dichloromethane, hexane, or petroleum ether be used
instead of others due to the temperature, safety, and extraction capabilities with fats. Heptane
may be substituted. Petroleum ether is the low boiling point fraction of petroleum and is
composed mainly of pentane and hexane. It has a boiling point of 35–38°C and is more
hydrophobic than ethyl ether. Additionally, it is selective for more hydrophobic lipids, cheaper,
less hygroscopic, and less flammable than ethyl ether.
• Concentrating apparatus: Several companies, such as Zymark Corporation, sell a concentrating
apparatus. However, such an apparatus is not necessary to perform this experiment. A rotovap
onto which the round-bottomed flask is directly attached may be used. Alternatively, a piece of
tubing may be attached to a nitrogen source at one end and to a disposable glass pipette at the
other, and individual samples may be evaporated down manually, either in a heated water bath or
at room temperature. The more volatile the solvent used, the more rapid the drying process.
• Treatment of drying agent: Sodium sulfate should be dried in the oven at approximately 150°C
for several hours to drive off absorbed moisture prior to use in this experiment.
• Size of extractor: If a larger-sized Soxhlet extractor is used, the volume of solvent and the sample
amount should be scaled up accordingly.
• Boiling chips: Boiling stones tend to absorb lipid into their pores and become yellow, causing
lipid losses. Use Teflon boiling chips or glass beads in place of the stones.
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7. Collection of Laboratory Activities: Soxhlet Extraction of Fat from French Fries
Sample Results
Average percentage of fat by weight in french fries:
• brand X: 12.02% ± 3.5%
• brand Y: 10.42% ± 2.0%
Plausible Answers to Questions
1. What role does sodium sulfate play in this experiment?
Na2SO4 is a water scavenger. The fries, like most foods, contain a certain percentage of water.
Removal is necessary either prior to or, in this case, during the extraction to prevent mixture of
immiscible solvents or lengthy drying time of final product.
2. Why is a cellulose thimble used to hold the sample?
A thimble acts as a filter to prevent loose sample from clogging the extraction system and
entering the round-bottomed flask, which serves as a collection container for the final product.
Further, the holder allows for complete saturation of the sample with the solvent, thus giving an
exhaustive extraction. Also some materials tend to float, so the thimble packed on top with the
wool prevents particles of sample from straying.
3. What makes the solvent used for the extraction a good choice? Suggest an alternate choice.
In keeping with the saying “like dissolves like,” the choice of solvent used is dictated by the end
product desired. In the case of lipids, which are typically nonpolar, a nonpolar solvent will be a
better choice for extraction than a polar solvent.
Extensions and Variations
• Soxhlet is a workhorse extraction method. One could conceivably remove the fat from almost
any food product, including peanut butter, pet food kibble, fish fillets, etc. French fries from
various sources may be used. Additionally one could compare other potato products, such as
hash browns or chips. Other fried foods such as onion rings might also be explored.
• One could apply this general exercise to oil-stained cloth or other material in a forensics-type
scenario.
• Compare and contrast Soxhlet extraction with supercritical fluid extraction (SFE) and/or with
assisted solvent extraction (ASE).
References
Nielsen, S. Introduction to the Chemical Analysis of Foods; Jones and Bartlett: Boston,
1994; pp 183–191.
AOAC. Official Methods of Analysis (Method 945.16), 15th ed.; Association of Official Analytical
Chemists: Washington, DC, 1990.
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