Dry milling and fractionation of grain
Dry milling of grain is mainly utilized to manufacture feedstock into consumer and industrial based products. This process is widely associated with the development of new bio-based associated by-products. The milling process separates the grain into four distinct physical components: the germ, flour, fine grits, and coarse grits. The separated materials are then reduced into food products utilized for human and animal consumption.
It is estimated that 165 million bushels of maize are dry-milled per year. Currently, dry milling is mainly focused on corn-based products for human and animal consumption, or utilized during fuel ethanol production. The main objective of the dry-milling process is to separate the endosperm, which is mainly composed of starch, from the germ and pericarp fibers as much as possible.
Features
The dry milling process includes a number of unique features:- Physical separation based on mass
- No use of chemicals
- Maximizing surface area of solids for processing
- Resource pulping
- Minimal water use, if any
- : Note: Water is not used as a separation agent
- Low capital cost
- Lower separation compared to wet milling
- Lower concentration of starch, protein, fiber, and oil relative to wet milling
Yields
The table below is a compilation of particle size and yield of milled maize products.| Product | Particle size range | Yield |
| Flaking grits | 5.8-3.4 | 12 |
| Coarse grits | 2.0-1.4 | 15 |
| Medium grits | 1.4-1.0 | 23 |
| Fine grits | 1.0-0.65 | 23 |
| Coarse meal | 0.65-0.3 | 10 |
| Fine meal | 0.3-0.17 | 10 |
| Flour | <0.17 | 5 |
Uses
Currently, products of dry milled corn products are used mostly in animal food, brewing and breakfast cereals industries.; Grits/Cones:
- Breakfast cereals
- Snack foods
- Pet foods
- Corn bread
- Breads
- Baby foods
- Baking mixes
- Batters
- Desserts
- Frozen foods
- Meat extenders
- Thickening agents
- Grain based oil
- Vitamin carriers
- Mayonnaise
- Potato chips
- Soups
- Sauces
- Livestock feed
Laws of grinding
Currently, there are three main empirical models which are used to calculate the grinding work required relative to grain size and quantity. The Kick model may be utilized for grains with diameters greater than 50 mm; the Bond model for grain diameter between 0.05 mm – 50 mm; the Von Rittinger model for grain less than 0.05 mm. The calculations are shown here:; Kick Model
; Bond Model
; Von Rittinger Model
In all three models:
While Bond's coefficient may be viewed in various literature, the calculation for Kick's and Von Rittinger's coefficients may be viewed below:
where and.
To analyze the grinding results the dispositions of the source and ground material must be computed. To quantify this characteristic the grinding degree is calculated, which is a ratio of sizes relative to the grain disposition. The grinding degree relative to grain size d80 is shown:
where the value signifies 80% mass is of size smaller than the grain.
Types of dry grinders
There are three methods used for corn dry-milling:- Alkaline-cooked process
- Stone-ground
- Tempering degerming process