Gas Flush/Modified Atmosphere Packaging
Gas flush consists of an inert gas such as nitrogen, carbon dioxide, or exotic gases such as argon or helium which is injected and frequently removed multiple times to eliminate oxygen from the package. This technique is called MAP (Modified Atmosphere Packaging). Most common applications for MAP include coffee, snack foods, pre-baked products, meat and poultry, as well as other more sophisticated applications.
Why Use Gas Flush
When modifying the atmosphere inside of a package, the amount of oxygen
can typically be reduced to 3% or less. Inert gases used for MAP are
typically denser than oxygen. As such, the oxygen inside the package is
forced out of the package. This results in extended product shelf life,
product integrity, protection against discoloration, and for products
like chips, a cushion-like buffer against damage (this is commonly
referred to as a “pillow pack”).
Many gas flush applications require sophisticated gas mixtures. Case
ready meat applications are a good example of a sophisticated gas
mixture which requires a nitrogen, carbon dioxide and carbon monoxide
mixture (Tri-Gas). Nitrogen is an inert gas that functions to fill the
headspace in the package. Carbon dioxide is added for its antimicrobial
properties and carbon monoxide stabilizes the typical red or pink color
of air-exposed meat.
Some companies have used dry nitrogen to reduce the size of a desiccant
packet in high volume semi-conductor packaging applications spread over
300,000 - 400,000 packages. The cost reduction for the total package or
sorbent system easily results in savings that could provide the capital
for the vacuum sealing equipment.
IMPAK Can Help You Choose What is Right For You
Common MAP Gases
Carbon dioxide (CO2)
Carbon dioxide inhibits the growth of most aerobic bacteria and molds. Generally speaking, the higher the level of CO2 in the package, the longer the achievable shelf-life. However, CO2 is readily absorbed by fats and water - therefore, most foods will absorb CO2. Excess levels of CO2 in MAP can cause flavor tainting, drip loss and pack collapse. It is important, therefore, that a balance is struck between the commercially desirable shelf-life of a product and the degree to which any negative effects can be tolerated. When CO2 is required to control bacterial and mold growth, a minimum of 20% is recommended.
Nitrogen (N2)
Nitrogen is an inert gas and is used to exclude air and, in particular, oxygen. It is also used as a balance gas (filler gas) to make up the difference in a gas mixture, to prevent the collapse of packs containing high-moisture and fat-containing foods, caused by the tendency of these foods to absorb carbon dioxide from the atmosphere. For modified atmosphere packaging of dried snack products 100% nitrogen is used to prevent oxidative rancidity.
Oxygen (O2)
Oxygen causes oxidative deterioration of foods and is required for the
growth of aerobic micro-organisms.
Generally, oxygen should be excluded but there are often good reasons
for it to be present in controlled quantities including:
- • Maintain fresh, natural color (in red meats for example)
- • To maintain respiration (in fruit and vegetables)
- • To inhibit the growth of aerobic organisms (in some types of fish and in vegetables)
Argon
Argon has the same properties as nitrogen. It is a chemically inert,
tasteless, odorless gas that is heavier than nitrogen and does not
affect micro-organisms to any greater degree. It is claimed to inhibit
enzymic activities, microbial growth and degradative chemical reactions
(CCFRA R&D Report 125). Hence it can be used in a controlled
atmosphere to replace nitrogen in most applications. Its solubility
(twice that of nitrogen) and certain molecular characteristics give it
special properties for use with vegetables. Under certain conditions, it
slows down metabolic reactions and reduces respiration.
| Case study for argon packaging |
|---|
Polar Foods, a company that specializes in the manufacture and
distribution of high-grade flax oil, has been using argon in Modified
Atmosphere Packaging for several years. Flaxseed oil is mechanically
removed from the flaxseed by an expeller. The flaxseed oil is then
mechanically filter pressed to remove impurities, and is stored in bulk
containers flushed with inert argon gas.Another company that has requested anonymity recently began using our CHTC-280 Chamber Vacuum sealer to argon-flush freshly roasted coffee beans. |
Carbon Monoxide
Carbon monoxide is a toxic, colorless, odorless, flammable gas. It is
stable at up to 400°C with respect to decomposition into carbon and
oxygen.
Results have shown that the use of carbon monoxide (CO) in MAP with high
levels of CO2 has resulted in increased shelf-life together with
retention of the bright red color of meat cuts. It is also claimed that
carbon monoxide can effectively reduce or inhibit different spoilage and
pathogenic bacteria.
Recommended MAP Gases by Application
Interested in Learning More?
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