Add to ORKGThis guide explains how to manage low-temperature, in-bin drying of shelled corn. Low-temperature drying is natural air drying (using only a fan) or natural air drying plus supplemental heat to raise the air temperature an additional 2 to 4 degrees Fahrenheit. Natural air drying uses the heat in the outside air plus the heat released from the fan motor, which raises the air temperature about 2 degrees Fahrenheit. The supplemental heat may be provided by gas heaters, electric heaters, solar collectors, etc
Batch-drying in a bin discusses how drying works, necessary precautions, determining the fuel rate, ...
If the crop is to be fed, high moisture storage should be seriously considered as a way to save fuel...
The Oklahoma Cooperative Extension Service periodically issues revisions to its publications. The mo...
This NebGuide discusses factors affecting natural air corn drying system performance, and gives reco...
Harvested corn often requires artificial drying to lower moisture content for safe storage. Learn ab...
This publication explains the equipment, management, and allowable storage time for drying grain wit...
A comprehensive layer drying model was developed to provide the operators of natural air or low-te...
Three different corn types (yellow dent, waxy and white) were used in a set of desorption and adsorp...
In-storage drying with supplemental heat discusses moisture content for harvesting, desired final mo...
This is a general study about the performance and energy requirement for NA/LT in-bin drying o...
Natural air and low-temperature drying systems are generally not recommended for Kentucky because of...
Grain depth is an important factor in grain drying. Extra depth increases airflow resistance, decrea...
The use of solar energy for drying shelled corn was investigated. In a three-year field study, energ...
Using fans to force air having the proper temperature and relative humidity through a crop is a valu...
If cooling freshly dried corn in your dryer is a bottleneck at harvest time, tests at Iowa State ind...
Batch-drying in a bin discusses how drying works, necessary precautions, determining the fuel rate, ...
If the crop is to be fed, high moisture storage should be seriously considered as a way to save fuel...
The Oklahoma Cooperative Extension Service periodically issues revisions to its publications. The mo...
This NebGuide discusses factors affecting natural air corn drying system performance, and gives reco...
Harvested corn often requires artificial drying to lower moisture content for safe storage. Learn ab...
This publication explains the equipment, management, and allowable storage time for drying grain wit...
A comprehensive layer drying model was developed to provide the operators of natural air or low-te...
Three different corn types (yellow dent, waxy and white) were used in a set of desorption and adsorp...
In-storage drying with supplemental heat discusses moisture content for harvesting, desired final mo...
This is a general study about the performance and energy requirement for NA/LT in-bin drying o...
Natural air and low-temperature drying systems are generally not recommended for Kentucky because of...
Grain depth is an important factor in grain drying. Extra depth increases airflow resistance, decrea...
The use of solar energy for drying shelled corn was investigated. In a three-year field study, energ...
Using fans to force air having the proper temperature and relative humidity through a crop is a valu...
If cooling freshly dried corn in your dryer is a bottleneck at harvest time, tests at Iowa State ind...
Batch-drying in a bin discusses how drying works, necessary precautions, determining the fuel rate, ...
If the crop is to be fed, high moisture storage should be seriously considered as a way to save fuel...
The Oklahoma Cooperative Extension Service periodically issues revisions to its publications. The mo...