TY - JOUR
T1 - Swine manure cleanup criteria calculation for odor causing volatile organic compounds based on manure-to-ventilation air exposure pathway
AU - Liao, Chung Min
AU - Liang, Huang Min
AU - Singh, Sher
PY - 1997
Y1 - 1997
N2 - A mathematical model was derived to calculate swine manure cleanup criteria for odor causing volatile organic compounds (VOCs) so that acceptable total dose would not exceeded through the inhalation of ventilation air in swine housing for workers and pigs. A hypothetical scenario was used which assumed that subsurface contaminant in swine manure diffuses through a layer of manure-air interface then is swept into the ventilated airspace via advection, where long-term inhalation of contaminant was assumed to occur. The philosophy of the transport model is to incorporate the age distribution of contaminated air and a first-order decay of contaminant sources into the diffusion model for simulation of air concentrations of VOCs and total exposure dose. A closed-form solution is presented to allow a series of numerical experiments for investigating the effects of adsorption characteristics between manure gas and manure, the mean age of contaminated air, effective diffusivity, and degradation coefficient on total dose. Swine manure cleanup criteria based on non-exceedence of the total hazardous dose corresponding to an acceptable risk from indoor inhalation of tour selected VOCs of p-cresol, hexane, toluene, and xylene were calculated in a typical pig unit. The model can be used in the future to compute the relative effectiveness of VOCs filtration systems and/or altered ventilation rates on the VOC exposure problem in animal housing.
AB - A mathematical model was derived to calculate swine manure cleanup criteria for odor causing volatile organic compounds (VOCs) so that acceptable total dose would not exceeded through the inhalation of ventilation air in swine housing for workers and pigs. A hypothetical scenario was used which assumed that subsurface contaminant in swine manure diffuses through a layer of manure-air interface then is swept into the ventilated airspace via advection, where long-term inhalation of contaminant was assumed to occur. The philosophy of the transport model is to incorporate the age distribution of contaminated air and a first-order decay of contaminant sources into the diffusion model for simulation of air concentrations of VOCs and total exposure dose. A closed-form solution is presented to allow a series of numerical experiments for investigating the effects of adsorption characteristics between manure gas and manure, the mean age of contaminated air, effective diffusivity, and degradation coefficient on total dose. Swine manure cleanup criteria based on non-exceedence of the total hazardous dose corresponding to an acceptable risk from indoor inhalation of tour selected VOCs of p-cresol, hexane, toluene, and xylene were calculated in a typical pig unit. The model can be used in the future to compute the relative effectiveness of VOCs filtration systems and/or altered ventilation rates on the VOC exposure problem in animal housing.
KW - Cleanup criteria
KW - Odor
KW - Swine manure
KW - Volatile organic compounds
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U2 - 10.1080/03601239709373097
DO - 10.1080/03601239709373097
M3 - Article
AN - SCOPUS:0031008112
SN - 0360-1234
VL - 32
SP - 449
EP - 468
JO - Journal of Environmental Science and Health - Part B Pesticides, Food Contaminants, and Agricultural Wastes
JF - Journal of Environmental Science and Health - Part B Pesticides, Food Contaminants, and Agricultural Wastes
IS - 4
ER -