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Feed Processing

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Feed Processing Lecture 9 ANS 336 2/9/2001 Processing To Make a profit Reduces cost by improving feed efficiency Improve production from better utilization Increase ... – PowerPoint PPT presentation

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Title: Feed Processing


1
Feed Processing
  • Lecture 9
  • ANS 336
  • 2/9/2001

2
Processing
  • To Make a profit
  • Reduces cost by improving feed efficiency
  • Improve production from better utilization
  • Increase intake
  • To alter particle size
  • Easier to consume pelleting, cubing
  • Range feeding, reduce fines, reduce selection,
    improve handling efficiency.
  • More digestible

3
Purpose of Processing
  • To Change moisture content
  • To make is safe for storage, improve
    palatability, more digestible, to prepare for
    other processes. (steaming, rolling,flaking)
  • Two ways to remove moisture
  • Aeration with heat
  • Aeration without heat
  • For safe storage
  • Hay (loose) 25
  • Baled 20-22
  • Chopped 18-20
  • Cubes 16-17

4
Purpose of Processing - Moisture
  • Addition of water to ensile grains
  • Best at 30 moisture
  • Addition of water to rations to improve
    palatability and improve mixture uniformity.
  • Improve intake
  • High ambient temperature.

5
Purpose of Processing
  • To change density (weight per unit of volume)
  • Reduce transportation charges
  • Bulky to control intake
  • Increase density to increase amount consumed.
  • Dairy cows increased energy and protein needs in
    transition period but reduced intake.
  • Flaking reduces density but improves surface area
    of the grain for improved digestibility.

6
Purpose of Processing
  • To change Palatability (acceptability) hence feed
    intake.
  • Adding to improve molasses, flavors, fats
  • Adds nutrient content while improving intakes
  • Adding to limit consumption salt
  • Palatable in limited quantities but in excess
    very limiting.
  • Animals on pasture or range need limiting factor
    on free choice of minerals and some feeds

7
Purpose of Processing
  • To change nutrient content
  • Adding Iron
  • Milk fed over an extended period of time
  • Adding vitamins
  • Antibiotics
  • Fats
  • Protein
  • Sugar coating cereal

8
Purpose of Processing
  • To increase nutrient availability and
    digestibility.
  • Milo, rolled, dry ground or not processed has
    close to the same nutrient content of Corn.
  • Less available - starches represent 70-80 of the
    total dry matter appears to less available in
    milo than other grains.
  • By hydration or rupturing of the starch molecules
    more of the starch appears to be digestible
    giving better results in digestion trials.
  • Processing increases surface area for microbes
    and digestive enzymes. Improves utilization.

9
Purpose of Processing
  • To detoxify or remove undesirable ingredients.
  • Cottonseed Gossypol
  • Adding iron salts rupturing of pigment gland
  • Soybean meal
  • Heat deactivates trypsin inhibitor
  • Linseed meal
  • Water -Crystalline water soluble substance
  • ? Sweet Clover spoiled or moldy
  • Dicoumarol anticoagulant, causes internal
    bleeding
  • Manufactured form called Dicumarol

10
Purpose of Processing
  • To improve mechanization
  • Baling
  • Chopping
  • Cubing
  • Ensiling
  • Round baling
  • Transportation
  • Storage
  • Self feeding
  • Push button feeding

11
Purpose of Processing
  • To lessen molds, salmonella and other harmful
    substances.
  • Aflatoxins
  • Mycotoxins carcinogens result of molds growing
    in grains
  • Ammoniated feeds Cottonseed
  • Ammonia added to hay stacks.
  • Propionic and acetic acids reduce or inhibit mold
    growth.
  • Added at harvest

12
Purpose of Processing
  • To enhance rumen function (chemical, buffers,
    by-pass)
  • Heat or pressure treated
  • Protected or escape protein
  • Treatment with tannins
  • Formaldehyde or other aldehydes
  • Lipids
  • Complexing with bentonite clay
  • Use of AA analogs (proteins)
  • Adding ionophore- Monensin (Rumensin)
  • Changes rumen fermentation patterns
  • Shifting of VFA and methane production
  • Changes passage rate of particulate matter
  • Slow release NPN
  • Buffers passage rate versus rumen pH

13
Methods of Processing
  • 70-80 of the dry matter in Concentrates is
    composed of Starch.
  • Therefore, processing methods have as their
    primary objective to improve the availability of
    these Starches to improve feed efficiency and
    digestibility.
  • Steam Flaking is the standard everything is
    measured to that standard
  • First process that showed a major increase in
    feedlot performance

14
Types of Processing
  • Dehulling (Decortication)
  • Removal of outer-coat of grain or nut.
  • Hulls high in fiber, low in digestibility for
    monogastrics.
  • Used as fiber source in Ruminants.
  • Cottonseed Hulls
  • Soybean Hulls
  • Can vary protein levels in CSM, SBOM by the
    amount of Hulls removed.
  • Undecorticated seed has about 22 protein
    Decortication can increase amount of protein to
    60
  • Hulls low in protein, high in fiber.
  • Extruding (Gelatinization)
  • Feed is pressed, pushed, or protruded through
    constrictions under pressure.
  • Grinding, heating with steam then forced through
    a tube by an auger.
  • The holes are cone shaped from smaller to larger
    allowing the feed to expand causing disruption of
    the starch molecules.
  • Improved feed efficiency Milo by 15 over dry
    rolled Milo in Feed lot trials.

15
Types of Processing
  • Grinding
  • Reduces particle size by impact, shearing, or
    attrition.
  • May change digestibility of cellulose and
    protein.
  • Hammermill
  • Hammers to decrease size until it passes through
    a screen.
  • Desirable when pelleting follows. Weed seed
    present.
  • Called Mash or Meal
  • Mash poultry
  • Meal four footed animals
  • Economical but depends on power, speed screen
    size and type of grain.
  • Rolling
  • Dry cracking or crushing of grain by steel
    rollers.
  • Steam
  • Crimping
  • Expose grain to steam for 1-8 minutes before
    rolling.
  • Does not improve feed efficiency over grinding.
  • Increases palatability and animal acceptance.
    Reduces fines.
  • May add up to 6 moisture to grain.

16
Types of Processing
  • Heat treatments
  • Excess destroys nutrients Protein, vitamins
  • Done properly increases nutrient availability.
  • Destroys trypsin inhibitor in Soybeans
  • Improves rate and efficiency of gains through
    partial gelatinization of protein.
  • Improves availability of fats and AA. Increases
    ME
  • Must be done properly.
  • Does not improve for monogastrics but does for
    Ruminants.
  • Dry heating
  • Micronizing
  • Heated to 300º F by gas fired infrared generators
    as it passes on a steel plate then dropped into
    rolls. (7 moisture).
  • Densities between 18-30 lbs per bushel.
  • 25 recommended.
  • Cheaper than steam rolling.
  • Popping
  • Milo - Density problem with reduced feed intake.

17
Types of Processing
  • Roasting
  • Corn and Soybeans
  • Increase availability of starches and proteins
  • Soybeans
  • Improves feed efficiency and gains by 10 over
    ground corn.
  • Fats - higher content in raw beans.
  • Greatly increases availability and value of
    protein for monogastrics.
  • Hogs fed whole cooked beans have a softer
    carcass. Value added ?
  • Expensive equipment- requires long term
    investment.
  • Cooking
  • Fitting beef cattle.
  • Hogs
  • Potatoes, beans, soybeans
  • Garbage decreases nutrient availability but
    also destroys Trichinella which causes trichinois
    in humans.
  • Reduces selection by hogs.
  • Destroys proteins.
  • Trichinois If pork is properly cooked - no
    problem with transmission. But incidences are
    higher in areas where garbage is fed to hogs.
  • All states require commercial garbage fed to
    animals must be cooked.

18
Types of Processing
  • Flaking
  • Modification of steam rolling by increasing the
    amount of time steam is applied or by the amount
    of pressure.
  • Milo responds the best.
  • Preferred method for horses. Fluffy - produces
    fewer digestive problems
  • Flaking influences the density of the feed
  • Results depend on Steaming time, temperature,
    grain moisture, roller size and tolerance,
    processing rate, type and variety of grain.
  • Exploding
  • Swelling of grain under pressure then releasing
    of the air.
  • Grain put into steel bottles steam injected
    into the bottles to 250 psi for 20 seconds then
    released.
  • Forces moisture into the grain.
  • Becomes expanded balls with hulls removed
  • Product similar to puffed cereal.
  • Compared to Steam flaking of Milo in animal
    response.

19
Types of Processing
  • Pelleting - Cubing
  • Compacting and forcing through dies.
  • Facilitates mechanization
  • Eliminates fines. Increases palatability
  • Alleviates separation of ingredients and sorting.
  • Increases feed density.
  • Reduce storage space
  • Transportation costs
  • Popular amount horse owners.
  • Pelleting - Cubing
  • May destroy Vitamin A, E, and K if insufficient
    Antioxidants for processing.
  • Pellegra (nicin deficiency)does not exist in
    Mexico despite their high corn based diets.
  • Limewater is added to the corn meal in making
    tortilla. Lime water releases nicotinic acid.

20
Types of Processing
  • Crumbling
  • Pellets crumbled
  • Feed additives.
  • Terramycin crumbles
  • Bran Mash
  • Steamed wheat bran
  • Traditional feed for horse on idle days.
  • Watered Feeds
  • Mixing water with feeds to make a gruel, slurry,
    or swill.
  • Mixing, Whey with wheat screenings
  • Blocks
  • Mineral supplements
  • Fat supplements
  • High energy blocks
  • Up to 500 lbs in size for long term use.
  • Hardness, salt and fat content will help limiting
    intake to about 2 lbs per day.
  • Lessens labor requirements for range cattle.
  • Alleviates losses from feeding on ground or from
    wind.

21
Types of Processing
  • Feeding whole corn
  • Under six months of age calves masticate enough
    to process the whole kernels.
  • Roughage to concentrate ratio seems to be
    important.
  • Whole kernels in the grain cause concern.
    However, ground corn passes through also but is
    fine, therefore, not seen.
  • Animals on high concentrate diets show very
    little improvement from processed ground grain.
    May not offset processing cost.
  • Hogs and poultry not a problem.
  • When mixing or processing feeds - Be cautious.
  • Prior feeds processed can leave residue.
  • Additives are usually extremely potent.
  • Customers can be easily lost over unintentional
    mixing of the wrong ingredients.

22
Types of Processing Animal Waste Processing.
  • Poultry waste
  • Broiler and layer litter has been used for many
    years.
  • High nitrogen content.
  • Types of processing
  • Deep stacking
  • Several weeks for increased temperature to 160º F
    growth stopped at 80 º F and killed at 145 º F.
  • Used successfully for many years
  • No documented animal health problems.
  • Ensiling (fermentation)
  • CHO are converted to lactic, acetic and other
    acids
  • Heat is generated killing pathogens
  • Nutritive value is improved by blending with
    other feed ingredients such as cereal grains
    prior to ensiling and adjust to 40 moisture.
  • Residues from medicines and minerals may not be
    affected by ensiling Be cautious.
  • No disease problem from ensiling. Problem ?

23
Types of processing- Adding Fats
  • Lubricates equipment
  • Coats and clogs equipment if in excess.
  • Solidify in cold weather.
  • High levels cause pellet to be soft.
  • Fats can become rancid.
  • Added at the levels of
  • 5-10 swine and poultry
  • 2 6 in ruminants
  • Lower consumption if exceeded.
  • Ethoxyquin effective antioxidant.
  • Increases Caloric density of ration
  • Improves palatability
  • Facilitates absorption of Vit. A and D
  • Supplies Linoleic acid
  • Animal body requires Linoleic acid all species.
    Ruminant microbes can synthesis.
  • Delays hunger.
  • Fats require longer period in the stomach that
    CHO and protein. Sticking to the ribs in Human
    diets.
  • Controls dust and fines

24
Types of processing- Adding Fats
  • Degree of unsaturated Fats important in
    availability of Vitamins.
  • Digestibility decreases with saturation.
  • Relationship between degree of saturation and
    type of body fat formed. Especially in
    monogastrics.
  • High levels of unsaturated fats produce soft
    pork.
  • Cappuccino machines in dairy cows.

25
Types of Processing
  • Treatment of High-cellulose feeds.
  • Rice, barley, oat straw bagasse tree bark corn
    cobsgin trash newspaper and seed hulls.
  • In their natural state are poor feedstuffs
    because of lignin or silica or a combination of
    the two encrust the energy-rich CHO, cellulose,
    and hemicellulose and keeps microbes from
    breaking them down to release the energy.
  • Must open up to permit digestion by microbes
  • Molasses 5- 15 of diet it has about 75
    energy value of corn.
  • Appetizer and controls dust.
  • In humid conditions should be limited to 5 of
    ration as mold can develop.
  • Addition of Calcium propionate can control mold.
  • Organic preservatives
  • Propionic and Acetic at 1 to 1.5 at time of
    harvest to inhibit molds and bacteria.

26
Types of Processing High Cellulose Feeds contd
  • Chemical treatment
  • Alkali sodium hydroxide, calcium hydroxide,
    potassium hydroxide.
  • Increases digestion of cell walls
  • Increase energy digestibility by 10
  • Decreases nitrogen digestibility through heating
    effect. Therefore improved performance with added
    protein sources.
  • Used during WW I in Germany when critical
    shortages of animal feed occurred.
  • Ammoniated
  • Air-tight enclosure and adding anhydrous ammonia
    or liquid nitrogen.
  • 3.0-3.5 anhydrous and take about 20 days.
  • Adds NPN
  • No mineral residue such as chemical.
  • Increases CP by 3- 10
  • Increases TDN and DE by 3-23
  • Increases animal intake
  • Prevents molding.
  • Dangerous to use very toxic

27
Types of ProcessingHigh Cellulose Contd
  • Hydrogen Peroxide
  • Residue pH is brought up to 11.5 becomes mushy,
    then rinsed off and dried.
  • Can be used wet but quick.
  • Has better feed values than corn silage.
  • Right now tooooo expensive and a patent is
    pending on the process.
  • Requires a lot of water.
  • High pressure steaming
  • Used with and without chemicals
  • Aspen (wood) has been shown to have digestibility
    of up to 56.
  • Sheep consumed at 60 of the ration.
  • Normal body weight gains and carcass traits.
  • Cost is high - Use in situations of high feed
    cost

28
Types of Processing
  • Total Mixed Rations
  • Makes greater efficiency in feeding and lessens
    sorting at feed bunk.
  • Forces consumption of ingredients not highly
    palatable.
  • Can limit concentrate consumption
  • Easier to get animals on full feed.
  • Easier to automate
  • Provide better control of nutrient intake
  • Species involved.
  • Dairy
  • Beef Feedlot
  • Sheep
  • Chickens
  • Swine

29
Summary
  • We process to improve profitability, increase
    mechanization, utilize poorly digestible feed
    stuffs.
  • To improve rates of gain
  • To improve the number of animals each person can
    handle.
  • To utilize products that animals would not normal
    consume.
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