Grain Moisture Management Pays Big Dividends

Field Facts written by David Pfarr, Zach Fore and Curt Hoffbeck, DuPont Pioneer Area Agronomists

Manage Grain Moisture for Enhanced Profitability

A bushel of corn is traded on the basis of 56 lbs. per bushel. A bushel of corn at 15.5% moisture contains 47.32 lbs. of dry matter and 8.68 lbs. of water. This is an important concept to remember because as corn becomes drier you are actually delivering more dry matter to the market and less water weight. While delivering bushels to the market at optimum moisture is important, it is only one of the factors determining moisture levels of corn going into storage.

According to Bill Wilcke, Extension Researcher at the University of Minnesota, corn stored up to 6 months should be dried to 15% moisture. Corn stored from 6 to 12 months should be dried to 14% moisture and corn stored for more than 12 months should be dried to 13% moisture. Due to temperature changes and moisture migration in the grain, storage structures must have adequate flooring and air movement to prevent grain from going out of condition. Fines must also be removed by prescreening or removing centers from bins.

Thorough management of grain moisture is critical to maximizing profitability when marketing grain.

Figure 1. Thorough management of grain moisture is critical to maximizing profitability when marketing grain.

Overdrying corn can lead to significant dollars lost due to added expense and less bushels to sell in the market. At 15.5% moisture and a market price of $3, a bushel of corn is worth 6.34 cents per lb. of dry matter. This same corn at $5 per bushel is worth 10.57 cents per lb. of dry matter.

If your goal is to store and market corn at 14.5% moisture and it is inadvertently dried 1 point less (13.5%) you have given up 3.8 cents/bu in today's market (corn at $3.25 /bu). The drying cost for the extra point would be 0.02 gallons of propane at $1.50/gallon, which is 3 cents.

In this previous calculation you can see that fine-tuning the grain drying operation with extra attention and/or extra investment is worth over 8 cents per bushel. Consequently, a farmer harvesting and drying 100,000 bushels of corn and missing the mark by 1 percentage point of moisture will leave over $6,500 on the table.

How Much Yield Is Needed To Offset Drying Costs?

A number of factors determine the profitability of corn production. At harvest we are looking at primarily 2 factors — yield and moisture. There is often a trade-off between these 2 factors. Longer maturity hybrids often yield higher but are wetter at harvest. A good question to ask is:

'How much higher yield do you need to offset higher drying costs?'

It takes about 0.02 gallons of propane to remove 1 point of moisture per bushel of corn.

You can use this formula to calculate the drying cost per acre:
bu/acre x points of moisture to remove x 0.02 x propane cost ($/gal) = $/acre

The table below shows the bu/acre required to offset energy costs at different yield and moisture levels at a propane cost of $1.50/gal and a corn price of $3.25/bu.

Corn yield bu./acre required to offset energy costs at different yield and moisture levels.

For example:
At a yield level of 150 bu/A, it takes 2.8 bu/A to offset the energy costs to dry a hybrid that is 2 points wetter at harvest. Of course, energy cost is not the only factor to consider. There are also equipment and handling costs associated with drying.

More Best Practices for Managing Grain Moisture

Moisture testers: Grain farmers need to have an accurate and reliable moisture tester on the farm (Figure 2). In a single season, selling grain that is too dry by even half a percent could cost much more than a high-quality moisture tester. Even with a high-quality tester, growers should calibrate their meter with that of the point-of-sale.

Shore® 920 grain moisture tester.

Shore® 920
www.moisturetesters.com/

  Dickey-John GAC® 500 XT grain moisture tester.

Dickey-John GAC® 500 XT
www.dickey-john.com/

Figure 2. Examples of moisture testers designed for on-farm use. Other products are also available, including refurbished commercial testers.

Grain dryers with manual settings need to be checked frequently with a good moisture tester to achieve the desired moisture levels. Computer-controlled drying systems rely on a moisture tester as a standard to calibrate sensors reading wet grain in and dry grain out. The amount of investment justified in precision drying systems and storage aeration will depend on the number of bushels that can be run through the operation.

Too wet or too dry? If growers had the choice of delivering grain that is 1 point too wet or 1 point too dry, they should choose "too wet," as the economics are overwhelmingly on their side. Delivering grain too dry results in losing all of the weight represented by the moisture differential. Delivering grain too wet incurs drying costs (some of which would have been spent to dry the grain on-farm) and shrink, but "weight" per se will not be lost.

Overdrying grain: Grain stored long term on the farm may be significantly lower in moisture than the maximum allowed by the grain buyer. In fact, even grain stored short term may be lower than required for some uses such as wet milling. Each end use (dry-grind ethanol, wet milling, long-term storage, etc), may have a different moisture allowance, and knowing that number is the first step in meeting it.

Grain buyers may have different grain moisture requirements.   Grain buyers may have different grain moisture requirements.

Figure 3. Various grain buyers may have different grain moisture requirements, depending on grain use and expected storage time.

If grain is too dry, some growers may have the option of blending or aerating the grain to adjust it to the maximum moisture allowed (up to 15.5%). The resulting moisture content of a uniform blend of 2 grain sources is the weighted average of the 2 grain moistures.

Increasing grain moisture content by aeration is usually only possible with very high airflow rates such as those common in natural air drying systems. Even then, successful moisture adjustment may require electronic control systems that run the fans when ambient temperature and relative humidity conditions dictate. In bins with limited fan capacity, increasing grain moisture may require months to accomplish, or may be impossible. In such cases, preventing overdrying of grain is even more important.

Grain drying and storage concerns, like other areas of production and management, can provide added opportunity for those willing to fine-tune their operations with an investment of time and/or capital


All products are trademarks of their manufacturers.

PIONEER® brand products are provided subject to the terms and conditions of purchase which are part of the labeling and purchase documents.

The foregoing is provided for informational use only. Please contact your authorized Pioneer sales professional for information and suggestions specific to your operation. Product performance is variable and depends on many factors such as moisture and heat stress, soil type, management practices and environmental stress as well as disease and pest pressures. Individual results may vary.

 
 
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