Author:
Publisher:
ISBN:
Category : Animal waste
Languages : en
Pages :
Book Description
On-farm Composting of Livestock Mortalities
On-farm Composting of Large Animal Mortalities
Author: Caitlin Price
Publisher:
ISBN:
Category : Animal waste
Languages : en
Pages :
Book Description
Publisher:
ISBN:
Category : Animal waste
Languages : en
Pages :
Book Description
On-farm Composting of Livestock and Poultry Mortalities -- Rev
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 22
Book Description
This fact sheet provides an overview of the composting process and how it can be applied to the disposal of dead poultry & livestock on the farm. The information presented is based on the bin-type composting unit. Topics covered include the advantages of composting mortalities, planning & sizing the unit, designing & constructing the unit, getting ready to compost, choosing the compost substrate, the composting cycle, and managing the composting process. Appendices include a worksheet for sizing the unit, a table of estimated mortality rates & weight of various animals, and a composting record sheet.
Publisher:
ISBN:
Category :
Languages : en
Pages : 22
Book Description
This fact sheet provides an overview of the composting process and how it can be applied to the disposal of dead poultry & livestock on the farm. The information presented is based on the bin-type composting unit. Topics covered include the advantages of composting mortalities, planning & sizing the unit, designing & constructing the unit, getting ready to compost, choosing the compost substrate, the composting cycle, and managing the composting process. Appendices include a worksheet for sizing the unit, a table of estimated mortality rates & weight of various animals, and a composting record sheet.
Composting Animal Mortality
Environmental Considerations for Composting Livestock Mortalities
Author: Joseph P. Harner
Publisher:
ISBN:
Category : Compost
Languages : en
Pages : 4
Book Description
Publisher:
ISBN:
Category : Compost
Languages : en
Pages : 4
Book Description
Composting Livestock Mortalities
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 3
Book Description
This document deals with composting as an alternative for disposal of livestock carcasses.
Publisher:
ISBN:
Category :
Languages : en
Pages : 3
Book Description
This document deals with composting as an alternative for disposal of livestock carcasses.
Field Guide to On-farm Composting
Author: Natural Resource, Agriculture, and Engineering Service. Cooperative Extension
Publisher: Natural Resources
ISBN: 9780935817393
Category : Technology & Engineering
Languages : en
Pages : 118
Book Description
Publisher: Natural Resources
ISBN: 9780935817393
Category : Technology & Engineering
Languages : en
Pages : 118
Book Description
Composting Livestock Mortalities
On-farm Composting Handbook
Author: Robert Rynk
Publisher:
ISBN: 9780935817195
Category : Compost
Languages : en
Pages : 186
Book Description
Benefits and drawbacks; The composing process; Raw materials; Composting methods; Composting operations; Management; Site and environmental considerations; Using compost; Marketing agricultural compost; Farm composting economics: focus on production costs; Other options for waste management and composting; Characteristics of raw materials; Equipment tables; Troubleshooting and management guide; Work sheets and forms; Environmental agencies; Metric conversions.
Publisher:
ISBN: 9780935817195
Category : Compost
Languages : en
Pages : 186
Book Description
Benefits and drawbacks; The composing process; Raw materials; Composting methods; Composting operations; Management; Site and environmental considerations; Using compost; Marketing agricultural compost; Farm composting economics: focus on production costs; Other options for waste management and composting; Characteristics of raw materials; Equipment tables; Troubleshooting and management guide; Work sheets and forms; Environmental agencies; Metric conversions.
Composting as a Method for On-farm Mass Mortality Disposal
Author: Paige Elizabeth Doklovic
Publisher:
ISBN:
Category : Animals
Languages : en
Pages : 0
Book Description
Three studies were completed to address common challenges related to composting mass animal mortalities. The first study investigated the impact of water-based depopulation foam (WBDF) and straw on composting whole swine carcasses. For trial 1 (148 days), two windrows were constructed, and each was split into two halves: one half including WBDF and the other without. One windrow core consisted of sawdust and carcasses; the other windrow core consisted of sawdust, carcasses, and chopped rye straw. For trial 2 (101 days), two windrows were constructed, both containing WBDF. One windrow core consisted of sawdust and carcasses, whereas the other windrow core consisted of sawdust, carcasses, and wheat straw. Windrows were turned on days 80 and 58 for trials 1 and 2, respectively. Continuous automatic temperatures, weekly handheld temperatures, percent moisture, pH, and totals of Nitrogen, Carbon, organic matter, ash, Phosphorus, and Potassium were measured. Pathogen-destructive temperatures (≥55 °C, ≥131 °F) were achieved in all treatments for both trials. Compacted straw during turning and intact straw at designated trial endpoints was observed. In conclusion, data provided evidence that whole swine carcasses ± WBDF will decompose in a windrow core of sawdust ± straw. The second study investigated the composting efficacy of ground turkey carcasses blended with different amounts of carbon amendment for 50 days. Mechanically ground turkey carcasses were mixed with carbon amendment to achieve four different core compost ratios (weight/weight): 0.25:1; 0.5:1; 0.75:1; and 1:1. Compost mixtures were placed into 208-L (55-gal) reactors that simulated a full-sized windrow. Each reactor had a base and cap of carbon amendment. Continuous automatic temperatures and compost weight, volume, bulk density, porosity, percent moisture, total Nitrogen, and total Carbon were measured. All treatments were able to reach thermophilic temperatures (43-63 °C, 110-150 °F) and effectively decompose carcass tissue. Data indicated that composting ratios evaluated could all be scaled up for future studies. The third study investigated the effects of poultry carcass grinding and core carbon amendment optimization on mortality composting efficiency, in both 208-L (55-gal) reactors and full-sized, outdoor windrows. Four reactors and four windrows were constructed from turkey carcasses and carbon amendment which were passed concurrently through a horizontal grinder according to each of the following carbon:carcass ratios (w/w): 0.25:1, 0.5:1, 0.75:1 and 1:1. A fifth whole carcass windrow was also created. Windrows were each turned three times over a 92-day period; compost within each reactor was mixed three times over a 56-day period. Weekly handheld temperatures, visual observations, and soil samples were collected in the windrow trial. Carbon dioxide emissions and compost weights and volumes were measured in the reactor trial. Continuous automatic temperatures, bulk density, percent moisture, pH, and totals of Nitrogen, Carbon, organic matter, ash, Phosphorus, and Potassium were measured in both trials. Thermophilic composting temperatures were achieved in all treatments of both trials. Additional results indicate physical and chemical similarities across treatments upon completion of composting. In total, data suggested that ground carcasses could fully decompose with as much as a 75 percent reduction in core carbon amendment.
Publisher:
ISBN:
Category : Animals
Languages : en
Pages : 0
Book Description
Three studies were completed to address common challenges related to composting mass animal mortalities. The first study investigated the impact of water-based depopulation foam (WBDF) and straw on composting whole swine carcasses. For trial 1 (148 days), two windrows were constructed, and each was split into two halves: one half including WBDF and the other without. One windrow core consisted of sawdust and carcasses; the other windrow core consisted of sawdust, carcasses, and chopped rye straw. For trial 2 (101 days), two windrows were constructed, both containing WBDF. One windrow core consisted of sawdust and carcasses, whereas the other windrow core consisted of sawdust, carcasses, and wheat straw. Windrows were turned on days 80 and 58 for trials 1 and 2, respectively. Continuous automatic temperatures, weekly handheld temperatures, percent moisture, pH, and totals of Nitrogen, Carbon, organic matter, ash, Phosphorus, and Potassium were measured. Pathogen-destructive temperatures (≥55 °C, ≥131 °F) were achieved in all treatments for both trials. Compacted straw during turning and intact straw at designated trial endpoints was observed. In conclusion, data provided evidence that whole swine carcasses ± WBDF will decompose in a windrow core of sawdust ± straw. The second study investigated the composting efficacy of ground turkey carcasses blended with different amounts of carbon amendment for 50 days. Mechanically ground turkey carcasses were mixed with carbon amendment to achieve four different core compost ratios (weight/weight): 0.25:1; 0.5:1; 0.75:1; and 1:1. Compost mixtures were placed into 208-L (55-gal) reactors that simulated a full-sized windrow. Each reactor had a base and cap of carbon amendment. Continuous automatic temperatures and compost weight, volume, bulk density, porosity, percent moisture, total Nitrogen, and total Carbon were measured. All treatments were able to reach thermophilic temperatures (43-63 °C, 110-150 °F) and effectively decompose carcass tissue. Data indicated that composting ratios evaluated could all be scaled up for future studies. The third study investigated the effects of poultry carcass grinding and core carbon amendment optimization on mortality composting efficiency, in both 208-L (55-gal) reactors and full-sized, outdoor windrows. Four reactors and four windrows were constructed from turkey carcasses and carbon amendment which were passed concurrently through a horizontal grinder according to each of the following carbon:carcass ratios (w/w): 0.25:1, 0.5:1, 0.75:1 and 1:1. A fifth whole carcass windrow was also created. Windrows were each turned three times over a 92-day period; compost within each reactor was mixed three times over a 56-day period. Weekly handheld temperatures, visual observations, and soil samples were collected in the windrow trial. Carbon dioxide emissions and compost weights and volumes were measured in the reactor trial. Continuous automatic temperatures, bulk density, percent moisture, pH, and totals of Nitrogen, Carbon, organic matter, ash, Phosphorus, and Potassium were measured in both trials. Thermophilic composting temperatures were achieved in all treatments of both trials. Additional results indicate physical and chemical similarities across treatments upon completion of composting. In total, data suggested that ground carcasses could fully decompose with as much as a 75 percent reduction in core carbon amendment.