Abstract
The storage and handling of animal wastes is one of the main sources of ammonia gas emissions. Ammonia gas has a distinct, unpleasant odor and can become detrimental to the health of humans and animals at high concentrations. Ammonia emissions are of particular concern in manure drying systems, where large losses of nitrogen, in the form of ammonia can cause air quality concerns. The aim of this study was to develop an ammonia removal system for a poultry manure drying system. The thin layer drying of poultry manure in 1-3 cm thick layers resulted in effective sterilization; with the removal of 99.44-99.56% of total bacterial count, 88.51-93.705 of yeast and mold cells, 99.13-99.565 of E.coli cells, and complete removal of Salmonellae. The drying of poultry manure resulted in a large loss of nitrogen, through ammonia loss in the exhaust gasses. The use of a water scrubber resulted in a 75-99% removal of ammonia gas from the exhaust gases. The absorption of ammonia into the scrubber’s water resulted in an increase in pH, which subsequently fell as the drying process finished, and ammonia emission decreased. The heated air drying of poultry manure, with the use of an ammonia removal system proved effective in reducing the odor intensity and offensiveness of the poultry manure drying process, resulting in increased air quality. While producing a high value product.
Highlights
Ammonia gas is a severe respiratory tract and ocular irritant in humans
The thin layer drying of poultry manure in 1-3 cm thick layers resulted in effective sterilization; with the removal of 99.4499.56% of total bacterial count, 88.51-93.705 of yeast and mold cells, 99.13-99.565 of E.coli cells, and complete removal of Salmonellae
The drying of poultry manure resulted in a large loss of nitrogen, through ammonia loss in the exhaust gasses
Summary
Ammonia gas is a severe respiratory tract and ocular irritant in humans. The severity of ocular effects following ammonia gas exposure increase with dose and duration (Table 1). Symptoms typically include inflammation and lacrimation, swelling of the eyelids, blurred vision, corneal abrasions, sustained corneal damage and blindness. Skin is sensitive to gaseous and aqueous ammonia. Vapor concentrations of 10,000 ppm are mildly irritating to moist skin, whereas exposure to concentrations between 20,000 and 30,000 ppm may produce chemical burns with blistering and tissue death. Permanent scarring of the skin may result. Occupational Safety and Health Administration standards specify a permissible exposure limit of 50 ppm (35 mg/m3) for an 8 hour period (ASTDR, 2002)
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