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Determining
Moisture Content in Foods
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1. Oven Drying
Methods
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With oven drying,
the sample is heated under specified conditions, and the
loss of weight is used to calculate the moisture content of
the sample.
Forced Oven
Draft—Sample is rapidly weighed into a moisture pan and
placed in the oven for an arbitrarily selected time if no
standard method exists. Drying time periods for this method
are 0.75-24 hours, depending on the food sample.
Vacuum Oven—Drying
under reduced pressure (25-100 mm Hg) allows a more complete
removal of water and volatiles with-out decomposition within
3-6 hr drying time.
Microwave Oven—A
precise and rapid technique that allows some segments of the
food industry to make in-process adjustments of moisture
content before final packaging. In vacuum microwaves, a
drying time of 10 minutes can yield results equivalent to
those of five hours in a standard vacuum oven.
Infrared Drying—Employs
penetration of heat into the sample being dried, as compared
to heat conductivity and convection as with conventional
ovens. Required drying time can be as little as 10-25
minutes. (Suited for qualitative in-process use, but not
approved by the AOAC.)
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2. Distillation
Methods
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Distillation
techniques involve codistilling the moisture in a food
sample with a high boiling point solvent that is immiscible
in water, collecting the mixture that distills off, and then
measuring the volume of water. Includes direct and reflux
distillation.
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3. Chemical
Methods (Karl Fischer Titration)
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This technique is
particularly suited to food products that show erratic
results when heated or submitted to a vacuum. It is the
method of choice for low-moisture foods such as dried fruits
and vegetables, candies, chocolate, roasted coffee, oils and
fats, and low-moisture foods high in sugar or protein.
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4. Physical
Methods
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Electric
(dielectric or conductivity)—Moisture content is
determined by measuring the change in capacitance or
resistance to an electric current passed through a sample.
Hydrometry—Used
to determine moisture/ solid content of beverages and sugar
solutions. Measuring the specific gravity or density of the
sample via one of the following instruments:
Pycnometer:
used to compare the weights of equal volumes of a
liquid and water. Yields density of the liquid compared
to water.
Hydrometer:
a standard weight on the end of a spindle which
displaces a weight of liquid equal to its own weight. In
a low-density liquid, weight will sink to a greater
depth.
Westphal
Balance: functions on the principle that the plummet
on the balance will be buoyed by the weight of liquid
equal to the volume displaced.
Refractometry—Measures
moisture content of oils and syrups as a function of the
degree of refraction of a light beam as it passes through
the sample.
Infrared
Analysis—Measures the energy that is reflected or
transmitted by the sample when exposed to infrared light.
Freezing Point—Measures
the solutes present by determining the freezing point of the
sample. Used principally to measure for added water content.
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Moisture Content
Calculations
(For oven-drying methodologies)
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% Moisture =
(wt/wt) |
(wt of wet
sample - wt of dry sample) |
x 100 |
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wt of wet sample |
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Moisture Content
of Selected Foods
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Food item
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% moisture
(wet wt basis)
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Cereals and pasta
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Wheat flour, whole grain
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10.3
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Corn flakes cereal
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3.0
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Macaroni, dry, enriched
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10.2
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Dairy products
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Yogurt, plain, low fat
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89.0
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Cheddar cheese
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37.5
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Ice cream, vanilla
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61.0
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Fats and oils
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Butter, salted
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16.9
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Oil, soybean
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0
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Fruits and vegetables
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Watermelon, raw
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91.5
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Apples, raw, with skin
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Raisins
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15.4
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Cucumbers, with peel, raw
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96.0
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Potatoes, raw, flesh and
skin
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79.0
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Meat, poultry, and fish
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Beef, ground, extra lean,
raw
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63.2
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Chicken, light meat, meat
and skin, raw
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68.6
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Finfish, flounder/sole,
raw
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79.1
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Egg, whole, raw, fresh
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75.3
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