141 |
Phosphorus reduction in dairy effluent through flocculation and precipitationBragg, Amanda Leann 17 February 2005 (has links)
Phosphorus (P) is a pollutant in freshwater systems because it promotes eutrophication. The dairies in the North Bosque and its water body segments import more P than they export. Dairies accumulate P-rich effluent in lagoons and use the wastewater for irrigation. As more P is applied as irrigation than is removed by crops, P accumulates in the soil. During intense rainfall events, P enters the river with stormwater runoff and can become bio-available. Reducing the P applied to the land would limit P build up in the soil and reduce the potential for P pollution. Since wastewater P is associated with suspended solids (SS), the flocculants, poly-DADMAC and PAM, were used to reduce SS. To precipitate soluble P from the effluent, NH4OH was added to raise the pH. Raw effluent was collected from a dairy in Comanche County, TX, and stored in 190-L barrels in a laboratory at Texas A&M University. Flocculant additions reduced effluent P content by as much as 66%. Addition of NH4OH to the flocculated effluent raised the pH from near 8 to near 9, inducing P precipitation, further reducing the P content. The total P reduction for the best combination of treatments was 97%, a decrease from 76 to 2 mg L-1. If this level of reduction were achieved in dairy operations, P pollution from effluent application would gradually disappear.
|
142 |
Anaerobic fermentation of rice straw and chicken manure to carboxylic acidsAgbogbo, Frank Kwesi 25 April 2007 (has links)
In this work, 80% lime-treated rice straw and 20% lime-treated chicken manure
were used as substrates in rotary fermentors. Countercurrent fermentation was
performed at various volatile solid loading rates (VSLR) and liquid residence times
(LRT). The highest acid productivity of 1.69 g/(L÷d) was at a total acid concentration of
32.4 g/L. The highest conversion and yield were 0.692 g VS digested/g VS fed and 0.29
g total acids/g VS fed, respectively. The continuum particle distribution model (CPDM)
was used to predict product concentrations at various VSLR and LRT. CPDM predicted
the experimental total acid concentration and conversion at an average error of 6.41%
and 6.55%, respectively.
A fixed-bed fermentation system was designed to perform pretreatment and
fermentation in the same unit. High product concentrations (~48 g/L) as well as high
conversions (0.741 g VS digested/g VS fed, F4, Train B) were obtained from the same
fermentor. CPDM was extended to predict product concentrations in the fixed-bed
fermentation system. The model gave a good estimate of the product concentrations and
retention time.
After biomass fermentation, the residue can be combusted to generate heat. For
pretreatment purposes, the use of ash can replace lime. A study was performed using
ash as a potential pretreatment agent. Ash from raw poplar wood was effective in
pretreating poplar wood; however, ash from bagasse fermentation residues was not
useful in pretreating bagasse.
Previous modeling studies indicate that a conversion of 95% could be achieved
with bagasse using countercurrent fermentation. Because lignin constitutes 13% of the dry weight of bagasse, this means lignin would have to be digested to obtain a
conversion of 95%. Experiments on the fermentation of enzymatically liberated lignin
from both poplar wood and bagasse do not show that solubilized lignin was fermented
to organic acids by using a mixed culture of marine microorganisms.
Two buffer systems (ammonium bicarbonate and calcium carbonate) were used
to compare product concentrations of carboxylic acid fermentations using office paper
and chicken manure. It has been demonstrated that the total product concentration using
ammonium bicarbonate is almost double the product concentration using calcium
carbonate.
|
143 |
Adoption of nutrient management practicesGedikoglu, Haluk, McCann, Laura. January 2008 (has links)
Title from PDF of title page (University of Missouri--Columbia, viewed on March 17, 2010). The entire thesis text is included in the research.pdf file; the official abstract appears in the short.pdf file; a non-technical public abstract appears in the public.pdf file. Thesis advisor: Dr. Laura McCann. Vita. Includes bibliographical references.
|
144 |
Further composting of pig-manure disposed from the pig-on-litter (POL)system in Hong KongTiquia, Sonia M. January 1996 (has links)
published_or_final_version / Ecology and Biodiversity / Doctoral / Doctor of Philosophy
|
145 |
Decision Support for Wisconsin's Manure Spreaders: Development of a Real-Time Runoff Risk Advisory ForecastGoering, Dustin C. January 2013 (has links)
The Runoff Risk Advisory Forecast (RRAF) provides Wisconsin's farmers with an innovative decision support tool which communicates the threat of undesirable conditions for manure and nutrient spreading for up to 10 days in advance. The RRAF is a pioneering example of applying the National Weather Service's hydrologic forecasting abilities towards the Nation's water quality challenges. Relying on the North Central River Forecast Center's (NCRFC) operational Snow17 and Sacramento Soil Moisture Accounting Models, runoff risk is predicted for 216 modeled watersheds in Wisconsin. The RRAF is the first-of-its-kind real-time forecast tool to incorporate 5-days of future precipitation as well as 10-days of forecast temperatures to generate runoff risk guidance. The forecast product is updated three times daily and hosted on the Wisconsin Department of Agriculture, Trade, and Consumer Protection (DATCP) website. Developed with inter-agency collaboration, the RRAF model was validated against both edge-of-field observed runoff as well as small USGS gauged basin response. This analysis indicated promising results with a Bias Score of 0.93 and a False Alarm Ratio (FAR) of only 0.34 after applying a threshold method. Although the threshold process did dampen the Probability of Detection (POD) from 0.71 to 0.53, it was found that the magnitude of the events categorized as hits was 10-times larger than those classified as misses. The encouraging results from this first generation tool are aiding State of Wisconsin officials in increasing awareness of risky runoff conditions to help minimize contaminated agriculture runoff from entering the State's water bodies.
|
146 |
Phosphorus characterization of feedlot wasteRamsey, Christopher Ray, 1950- January 1976 (has links)
No description available.
|
147 |
The effects of surface-applied poultry manure on top- and subsoil acidity and selected soil fertility characteristics.Judge, Angus. January 2001 (has links)
The effects of surface applications of poultry manure on pH, exchangeable AI, exchangeable
Al saturation and levels of available macronutrients in the surface and subsurface layers were
investigated in some acid soils from the KwaZulu-Natal Midlands. Three field sites with a
history of long-term applications of poultry manure were compared with adjacent fields
where no manure had been applied. Results generally showed an increase in pHwater, pHKCI,
exchangeable Ca, Mg, and K and extractable P and a decrease in exchangeable Al and
exchangeable Al saturation in the surface soil to the depth to which the manure had been
incorporated. Results also provided evidence for substantial downward movement of Ca and
Mg into the subsoil layers (i.e. 30-60 cm) and their accumulation in exchangeable forms.
There was a concomitant general increase in pHKcl and pHwater and decrease in exchangeable
Al and exchangeable AI saturation in the subsoil layers. These results demonstrate that, under
field conditions, surface applications of poultry manure can cause the amelioration of subsoil
acidity. This is an extremely important finding since subsoil acidity is characteristically
extremely difficult and costly to ameliorate.
A leaching column study was subsequently conducted to investigate the mechanisms by
which surface applications of poultry manure ameliorate both top- and subsoil acidity. The
soil used, originating from one of the field sites, had not previously been treated with poultry
manure and had a subsoil pHKCI of 4.25 and an exchangeable acidity concentration of 1.79
cmolJkg. Three forms of poultry manure (layer, broiler and free range) were incorporated
into the surface 5 cm of soil columns at rates equivalent to 5, 10 and 30 Mg/ha. Columns
were maintained in glasshouse conditions for a period of 108 days and over that period they
were leached on four separate occasions (receiving a total of 825 mm of simulated rainfall).
At the conclusion of the experiment, the soil columns were cut into sections for chemical
analysis.
Applications of poultry manure to the surface soil markedly increased pHwater, pHKcl,
exchangeable Ca, Mg, K and Na concentrations and decreased exchangeable Al levels in the
surface 5 cm layer. They also increased the concentrations of soluble C, soluble salts, total Al
and organically-complexed Al in soil solution. These effects were most pronounced with
layer manure and greater at the higher rate of application. The manure-induced decrease in
exchangeable AI, but increase in total AI, in soil solution was attributed to soluble salts,
originating from the manure, displacing exchangeable Al into solution where it was
subsequently complexed by soluble organic matter.
Analysis of subsoil layers (5-15, 15-25, 25-35 and 35-45 cm) at the conclusion of the
experiment showed that surface applications of poultry manure decreased concentrations of
exchangeable Al in the subsoil but had no effect on pHKCl and depressed values for pHwater. It
was suggested that manure-derived urea leached into the subsoil and was then hydrolysed
causing an increase in pH and precipitation of exchangeable Al as insoluble hydroxy-AI
oxides. Towards the conclusion of the experiment nitrification began to proceed, causing
subsoil pHKCl values to decrease back to their original values. Analysis of the inorganic-N
content of leachates and soil layers provided circumstantial evidence for this mechanism.
High concentrations of soluble salts in the subsoil layers (caused by leaching from the
manure) resulted in displacement of exchangeable A13+ and W into soil solution so that the
electrical conductivity and concentrations of total and monomeric Al were elevated and
pHwater was depressed in the subsoil (15-45 cm) of poultry manure-treated columns.
It was concluded that the results underline the opposing effects that poultry manure
applications have on (i) raising soil pH and lowering exchangeable Al but at the same time
(ii) greatly increasing soluble salt concentrations and thus displacing At3+ and H+ back into
soil solution. They also have suggested the importance of the release of N during manure
decomposition in influencing soil pH (through the processes of ammonification, urea
hydrolysis and nitrification) and therefore other soil chemical properties. It is, however, clear
that the long-term effect of surface applications of poultry manure is generally to ameliorate
subsoil acidity by raising subsoil pH and lowering exchangeable Al concentrations. / Thesis (M.Sc.)-University of Natal, Pietermaritzburg, 2001.
|
148 |
Feed additives and animal waste phosphorous reactionsBarnett, G. M. (Gordon M.) January 1992 (has links)
Organic phosphorus (P$ sb{ rm o}$) in farm animal wastes must be mineralized to inorganic P for subsequent plant use. This study was conducted to determine if feed additives affect P$ sb{ rm o}$ mineralization, manure decomposition, and plant growth. Feed additives in aqueous systems affected the P mineralization of inositol hexaphosphate by phytase and of adenosine monophosphate by alkaline phosphatase. Pronounced effects were produced by bacitracin and both enzymes and by neomycin on phytase. Feed additives in dairy cattle (Bos taurus L.) manure produced effects on microbial activity as measured by gas production that differed from those produced on fecal phosphatase activity. Additives applied directly or with manure to Ste. Rosalie clay, Greensboro loam, or silica sand had no effect on barley (Hordeum vulgare L.) yield but did produce additive, rate, growth medium, and manure dependent effects on plant P concentration and soil phosphatase activity. Therefore, each feed additive must be independently evaluated to determine its effect on biological systems.
|
149 |
Mitigation of poultry manure pollution in the Fraser ValleyMpyisi, Edson Rurangwa 05 1900 (has links)
Intensive poultry production in the lower Fraser Valley of British Columbia has
resulted in large quantities of poultry manure being spread on limited land space. This
manure is spread on land situated above the Abbotsford aquifer. Due to the high amount
of nitrogen and phosphorus present in poultry manure, there is a danger of these nutrients
leaching into the groundwater of the aquifer as nitrates. High levels of nitrates in drinking
water have been linked to various health hazards such as Methemoglobinaemia, stomach
cancer, and gastric cancer. The leaching problem is further compounded by the fact that
the region has porous soils, a high water table, and very high annual rainfall.
This problem was addressed by analyzing several dietary treatments having varying
levels of crude protein from a high of 25% CP (crude protein) to a low of 18% CP and
supplemented with the commercial amino acids L-LYS , DL-MET , L-THR, and L-TRY . A
linear programming model was used to determine the least cost diet from the various
dietary treatments. The most efficient dietary treatment was then identified by Manure
disposal options such as storage, land application, and transportation were also considered
along with their associated costs. Linear programming was used to identify the least cost
manure disposal strategy complying with British Columbia environmental regulations by
using a combination of the three options. The results from the two models above were
then combined to identify the optimum manure management strategy for a poultry farm in
the Fraser valley complying with environmental regulations.
The results indicate that diets containing lower levels of crude protein and
supplemented with amino acids costs less than those containing higher levels of crude protein. These diets perform better because the nitrogen in the protein is utilized more
efficiently thereby resulting in less nitrogen excretion in the manure. Manure that contains
low amounts of nitrogen costs less to dispose than that having high amounts of nitrogen.
Use of diets containing low levels of crude protein and supplementing them with
commercial amino acids can lower the costs of poultry farmers significantly while
complying with environmental regulations.
|
150 |
Preventive control of ammonia and odor emissions during the active phase of poultry manure compostingZhang, Wenxiu 05 1900 (has links)
Traditional measures used in the composting industry for ammonia and odor emissions control are those involving collection and treatment such as thermal oxidation, adsorption, wet scrubbing and biofiltration. However, these methods do not address the source of the odor generation problem. The primary objective of this thesis research was to develop preventive means to minimize ammonia and odor emissions, and maximize nitrogen conservation to increase the agronomic value of compost. Laboratory-scale experiments were performed to examine the effectiveness of various technologies to minimize these emissions during the active phase of composting. These techniques included precipitating ammonium into struvite in composting matrix before it release to outside environment; the use of chemical and biological additives in the form of yeast, zeolite and alum; and the manipulation of key operational parameters during the composting process.
The fact that struvite crystals were formed in manure composting media, as verified by both XRD and SEM-EDS analyses, represents novel findings from this study. This technique was able to reduce ammonia emission by 40-84%, while nitrogen content in the finished compost was increased by 37-105%. The application of yeast and zeolite with dosages of 5-10% enhanced the thermal performance of composting and the degree of degradation, and ammonia emission was reduced by up to 50%. Alum was found to be the most effective additive for both ammonia and odor emission control; ammonia emission decreased by 45-90% depending on the dosage, and odor emission assessed via an dynamic dilution olfactometer was reduced by 44% with dosages above 2.5%. This study reaffirmed that aeration is the most influential factor to odor emission. An optimal airflow rate for odor control would be 0.6 L/min.kg dry matter with an intermittent aeration system. Quantitative relationships between odor emission and key operational parameters were determined, which would enable “best management practices” to be devised and implemented for composting.
An empirical odor predictive model was developed to provide a simple and direct means for simulation of composting odor emissions. The effects of operating conditions were incorporated into the model with multiplicative algorithm and linearization approximation approach. The model was validated with experimental observations.
|
Page generated in 0.0583 seconds