A carcinogen is in drinking water at a concentration of 0.01 mg/L. The cancer risk of...

Suppose a 60 kg individual drinks 3 L/day of water containing 0.1 mg/L of 1,1-dichloroethylene for...

Suppose a 60 kg individual drinks 3 L/day of water containing 0.1 mg/L of 1,1-dichloroethylene for 20 years. a. Find the hazard quotient for this exposure b. Find the cancer risk c. If the individual drinks this water for 40 years instead of just 20, recompute the hazard quotient and the cancer risk.

NaOCl is added to drinking water to obtain a concentration of 10-mg/L. Prepare a graph (using...

NaOCl is added to drinking water to obtain a concentration of 10-mg/L. Prepare a graph (using MS-Excel or comparable program) showing the concentration of hypochlorous acid and hypochlorite ion for a pH range of 5.0 to 9.0. Indicate the pKa on the graph and determine the concentration of the two chlorine species at this value.

An underground storage tank has been leaking for many years contaminating the groundwater and causing a...

An underground storage tank has been leaking for many years contaminating the groundwater and causing a contaminant concentration in a drinking water well is 0.282 mg/L. (a) If the contaminant is tetrachloroethylene, estimate the cancer risk of an adult who has used this public drinking water well for 10 years. Average lifetime of an adult is 70 years. Use Table 4.10 for exposure factors. (b) Do you think that city will close the well based on the risk assessment done...

One way to estimate maximum acceptable concentrations of toxicants in drinking water or air is to...

One way to estimate maximum acceptable concentrations of toxicants in drinking water or air is to pick an acceptable lifetime risk and calculate the concentration that would give that risk assuming typical exposures, such as recommended by EPA (e.g. Mihelcic Tab. 6.14). Find the acceptable concentrations of the following substances: a. Benzene in drinking water (mg L-1) at a lifetime acceptable risk of 1 × 10-5 b. Benzene in air (mg m-3) at a lifetime acceptable risk of 1 ×...

Water with a chloroform concentration of 0.8 mg/L is fed at a rate of 180 m3...

Water with a chloroform concentration of 0.8 mg/L is fed at a rate of 180 m3 /h to a GAC contactor that has an area of 3.75 m by 6 m and is 2 m deep. The objective of the GAC contactor is to reduce the chloroform concentration to below 0.005 mg/L. The Freundlich parameters for chloroform are K = 15 and 1/n = 0.47 when the concentrations are measured in mg/L in the aqueous phase and mg/g on the...

The solubility of sodium fluoride in water at 20 degrees C is 40,400 mg/L. City of...

The solubility of sodium fluoride in water at 20 degrees C is 40,400 mg/L. City of Baton Rouge supplies 5mgd (million gallons per day) drinking water and the annual sodium fluoride usage is 126,000 kg. Based on the solubility data provided, a. Check if the City of Baton Rouge, Louisiana is within the solubility limit for sodium fluoride b. Does city of Baton Rouge, Louisiana need to make any changes to the amount of sodium fluoride usage to meet EPA...

Toluene has contaminated a city's drinking water supply. An activated carbon system will be designed to...

Toluene has contaminated a city's drinking water supply. An activated carbon system will be designed to remove toluene to below regulatory levels. If equilibrium is achieved between activated carbon and aqueous-phases and the concentration of toluene in the aqueous-phase is 0.010 mg/L, what will be the concentration of toluene sorbed to the activated carbon? The Freundlich parameters for toluene and the particular type of activated carbon are: K= 159 mg/g (L/mg)^1/n = 0.54. Express your answer in units of mg...

6. (1) A water treatment plant applies chlorine for disinfection so that 10 mg/L chlorine is...

6. (1) A water treatment plant applies chlorine for disinfection so that 10 mg/L chlorine is achieved immediately after mixing. The volume of water treated each day is 25,000,000 gal. What is the mass of chlorine needed by this plant every day? (2) The disinfection takes place in a contact tank which is a CSTR at steady state. Chlorine concentration in the contact tank is constant at 3 mg/L. Effluent of this contact tank will enter drinking water distribution systems...

Iron in drinking water may be measured using the optical absorbance at 520 nm after treating...

Iron in drinking water may be measured using the optical absorbance at 520 nm after treating the sample like this: add 300-500 mg of ascorbic acid to reduce Fe3+ to Fe2+, add 20 mL of 1 g/L 2,2'-dipyridyl solution, dilute to 100.0 mL, wait 5 minutes and then measure absorbance. Standards were prepared by following this procedure with 5.00, 10.00, 15.00, 20.00 and 25.00 mL of 4.05 mg/L Fe. Then the procedure was followed using 50.00 mL of a tap...

1. The National ambient air quality standard for sulfur dioxide is 180 μg/m3. Assuming a lifetime...

1. The National ambient air quality standard for sulfur dioxide is 180 μg/m3. Assuming a lifetime exposure (24 hr/day, 365 days/year) for an adult male of average body weight. What is the estimated lifetime CDI for this concentration? Assume the exposure duration equals the lifetime. 2. Find the concentration of polychlorinated biphenyls in drinking water that would result in a 10-6 risk for a 70-kg person who drinks 2L/day throughout his or her entire lifetime.​