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Integrated Watershed Management

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Presentation on theme: "Integrated Watershed Management"— Presentation transcript:

1 Integrated Watershed Management
Session Water Quality Modeling -- Dissolved Oxygen Sinks & Nutrients BOD (Biochemical Oxygen Demand) Respiration Sediment oxygen Demand (SOD) Nitrification University of Houston -- Integrated Watershed Mangement -- Session CIVE Spring 2006

2 BOD (Biochemical Oxygen Demand)
OM is hard to measure, so we measure it effect Place sample of OM in bottle, shake & Stopper Measure DO over a short time -- 5 days OM + O2 ---> CO2 + NO3 + PO4 The O2 consumed is the BOD University of Houston -- Integrated Watershed Mangement -- Session CIVE Spring 2006

3 University of Houston -- Integrated Watershed Mangement -- Session 10 CIVE7397 -- Spring 2006

4 Typical BOD Calculation
Add 10 ml sample to water up to 300 ml Initial DO = 9 mg/l 5 day DO = 6 mg/l BOD5 = 9-6 / (10 / 300) = 90 mg/l Dilution is 1:30 and DO loss is 3 mg/l therefore, 3 * 30 = 90 mg/l University of Houston -- Integrated Watershed Mangement -- Session CIVE Spring 2006

5 Typical BOD Values Source CBOD5 (mg/l) CBODU (mg/l) NBODU (mg/l)
Org-N (mg/l) NH3 -- N (mg/l) Raw Sewage 180 220 20 28 Primary Effluent 120 150 12 Secondary Effluent 2 10 CSO’s 170 6 3 Storm Water 19 25 0.6 University of Houston -- Integrated Watershed Mangement -- Session CIVE Spring 2006

6 A Few Observation on BOD
BOD is not a substance, it is a measurement Receiving waters will feel the effect of BODU not just BOD5 BOD curves vary greatly depending on the waste Paper mill effluent has no NBOD WWTP secondary effluent NBOD does not have lag time Ethylene glycol BOD ,000 mg/l University of Houston -- Integrated Watershed Mangement -- Session CIVE Spring 2006

7 Equation for Typical BOD Curve
L = Lo (1 - e (-kt)) L = BOD (mg/l) Lo = BODU (mg/l) K = BOD Decay Rate (1/day) Typical Values for k 0.35 Raw Sewage Bugs love this stuff Primary Effluent -- OK but not as good as raw Secondary effluent -- Tough stuff to swallow University of Houston -- Integrated Watershed Mangement -- Session CIVE Spring 2006

8 1st Order Kinetics Dc/dt -kc C = c0 * e –kt Board Diagram
University of Houston -- Integrated Watershed Mangement -- Session CIVE Spring 2006

9 Photosynthesis & Respiration
Aquatic Plants Affect DO Respiration: The process of breaking down food to create energy Occurs continually Diurnal DO Cycle University of Houston -- Integrated Watershed Mangement -- Session CIVE Spring 2006

10 SOD (Sediment Oxygen Demand)
OM, algae & solids etc. eventually end up settling to the bottom The oxidation process continue in the sediment causing an oxygen demand Two important reasons: Can be the major sink for DO Stores the pollutant history of the stream University of Houston -- Integrated Watershed Mangement -- Session CIVE Spring 2006

11 Nitrification 2NH3 + 4O2  2HNO3 + 2H20 Nitrification DO Demand
University of Houston -- Integrated Watershed Mangement -- Session CIVE Spring 2006

12 Putting everything together
Sources Reaeration Photosynthesis Sinks BOD from OM Respiration SOD Nitrification University of Houston -- Integrated Watershed Mangement -- Session CIVE Spring 2006

13 Texts & Assignments “Watershed Based National Pollutant Discharge Elimination System (NPDES) Permitting Implementation Guidance’” US Environmental Protection Agency, Dec Section 2 University of Houston -- Integrated Watershed Mangement -- Session CIVE Spring 2006

14 Next Session Steps 1 & 2 Defining the watershed
Identifying the stake holders Project problem identification University of Houston -- Integrated Watershed Mangement -- Session CIVE Spring 2006

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