Question

In: Other

Compute the carbonaceous and nitrogenous oxygen demand in mg/L for a wastewater containing a) 100 mg/L...

Compute the carbonaceous and nitrogenous oxygen demand in mg/L for a wastewater containing

a) 100 mg/L C9N2H6O2

b) 100mg/L C6N2H4O

c) 100mg/L C12N4H6O2

d) 100mg/L C10N2H8O2

Solutions

Expert Solution

Amanda K answered 6 months ago
Next > < Previous

Related Solutions

compute the total organic carbon in mg/L for a wastewater containing. a) 100mg/L C9N2H6O2 b) 100mg/L...
compute the total organic carbon in mg/L for a wastewater containing. a) 100mg/L C9N2H6O2 b) 100mg/L C6N2H4O c) 100mg/L C12N4H6O2 d) 100mg/L C10N2H8O2
Calculate the total theoretical oxygen demand (mg/L) of a solution containing 750 mg/L of C5H7O2N. Also,...
Calculate the total theoretical oxygen demand (mg/L) of a solution containing 750 mg/L of C5H7O2N. Also, calculate Carbonaceous ThOD and Nitrogenous ThOD separately
Determine the Theorethical Oxygen Demand(ThOD) for sewage containing 150 mg/L of CH2(NH2)COOH and 40 mg/L of...
Determine the Theorethical Oxygen Demand(ThOD) for sewage containing 150 mg/L of CH2(NH2)COOH and 40 mg/L of NH3. Find, (1) mg/L of oxygen for both carbon and nitrogen compounds (2) grams of oxygen per gram of CH2(NH2)COOH (oxygen used only for carbon oxidation) (3) grams of oxygen per gram of NH3 (oxygen used only for nitrification)
Wastewater of 30ft3/s with a biochemical oxygen demand (BOD) of 55mg/l, and dissolved oxygen (DO) of...
Wastewater of 30ft3/s with a biochemical oxygen demand (BOD) of 55mg/l, and dissolved oxygen (DO) of 3.3mg/l enters a river where the flow is 125ft3/s with an ultimate BOD of 7.0 mg/l, and DO of 6.8mg/l. The downstream has an average velocity of 0.8ft/s. i           Calculate the minimum DO level and its distance in miles downstream using the oxygen sag equation. Assume k1 = 0.046 per day and k2 = 0.304 per day. The saturation DO = 8.5mg/l. (1 mile...
A wastewater containing 150 mg/l chlorobenzene is treated in a laboratory adsorption unit using a PVC...
A wastewater containing 150 mg/l chlorobenzene is treated in a laboratory adsorption unit using a PVC column, 1.0 inch internal diameter, to an effluent concentration of 15 mg/l . Service times, and throughput volumes at specified depths and flowrates associated with a breakthrough concentration of 15.0 mg/l are given in table 1. table1 : result of adsorption column experiment Loading rate,gpm/ft2   Bed depth,ft Throughput volume, gal Time, hr loading rate gpm/ft2 bed depth ft throughput volume, gal time, hr 2.5...
A wastewater containing 150 mg/l chlorobenzene is treated in a laboratory adsorption unit using a PVC...
A wastewater containing 150 mg/l chlorobenzene is treated in a laboratory adsorption unit using a PVC column, 1.0 inch internal diameter, to an effluent concentration of 15 mg/l . Service times, and throughput volumes at specified depths and flowrates associated with a breakthrough concentration of 15.0 mg/l are given in table 1. table1 : result of adsorption column experiment Loading rate,gpm/ft2   Bed depth,ft Throughput volume, gal Time, hr loading rate gpm/ft2 bed depth ft throughput volume, gal time, hr 2.5...
What is the level of saturation of lake water containing 10.8 mg/L dissolved oxygen at 14o...
What is the level of saturation of lake water containing 10.8 mg/L dissolved oxygen at 14o C. Note that KH (14o C)= 1.53*10-3 mol/L*atm. I know that [O2]eq=KH*PO2 but I am unsure how I should approach this problem otherwise.
Determine the theoretical oxygen demand for the following solutions: (a) 200 mg/L of acetic acid, CH3COOH...
Determine the theoretical oxygen demand for the following solutions: (a) 200 mg/L of acetic acid, CH3COOH (b) 40 mg/L of ethanol. C2H5OH (c) 64 mg/L of sucrose, C2H12O6. All reactions are of the form: CH3COOH + O2 >> CO2 + H2O
calcuate the concentration of dissolved oxygen (unit of mol/L and mg/L of water is equilibrated with...
calcuate the concentration of dissolved oxygen (unit of mol/L and mg/L of water is equilibrated with pure oxygen at 250C at 1.0 atm.
An industrial wastewater flowing at a rate of 37,000 m3/day is contaminated by 187 mg/L of...
An industrial wastewater flowing at a rate of 37,000 m3/day is contaminated by 187 mg/L of propanol ā€“ CH3CH2CH2OH. As an environmental consultant, you propose to treat the water in an activated sludge process in which propanol is oxidized by oxygen into carbon dioxide ā€“ CO2. The reaction is highly favorable and assumed to be complete. a) Equilibrate the half-reactions and overall reaction that are expected to occur during the treatment process. b)Determine the theoretical quantity of oxygen (in mol/day)...
ADVERTISEMENT
Subjects
ADVERTISEMENT
Latest Questions
ADVERTISEMENT