Environmental Engineering

Question 1

Glutamic acid (C5H9O4N) is used as one of the reagents for a standard to check the BOD test. Determine the
theoretical oxygen demand of 150 mg · L−1 of glutamic acid. Assume the following reactions apply

Answer 1

212 mg · L−1

Question 2

The company you work for plans to release a waste stream containing 7.0 mg · L−1 of benzaldehyde.
Assuming that benzaldehyde degrades according the reaction:
C7H6O + 8O2 −→ 7CO2 + 3H2O
calculate the theoretical carbonaceous oxygen demand of this waste stream (in mg · L−1
).

Answer 2

16.906 mg · L−1

Question 3

If the BOD5 of a waste is 220.0 mg · L−1 and the ultimate BOD is 320.0 mg · L−1, what is the rate constant?

Answer 3

k = 0.233 day−1

Question 4

The BOD rate constant is 0.233 day−1 for a municipal wastewater. The BOD5 was measured to be
250 mg · L−1. What is the ultimate BOD?

Answer 4

363 mg · L−1

Question 5

A sample of municipal sewage is diluted to 1% by volume prior to running a BOD5 analysis. After 5 days
the oxygen consumption is determined to be 2.00 mg · L−1. What is the BOD5 of the sewage?

Answer 5

BOD5 = 200 mg · L−1

Question 6

If the ultimate BOD values of two wastes having k values of 0.3800 day−1 and 0.220 day−1 are
280.0 mg · L−1, what would be the 5-day BOD for each?

Answer 6

Answer: For k = 0.38 day−1
, BOD5 = 238 mg · L−1 ; for k = 0.22 day−1
, BOD5 = 187 mg · L−1

Question 7

The following data are provided to you:
Seeded wastewater:
Initial DO = 8.6 mg · L−1
Final DO (after 5 days) = 2.1 mg · L−1
Volume of wastewater = 2.5 mL
Total volume in BOD bottle = 300.0 mL
Seeded dilution water:
Initial DO = 8.6 mg · L−1
Final DO (after 5 days) = 7.3 mg · L−1
Volume of seeded dilution water = 300.0 mL
T = 20◦C
Calculate the BOD of the sample (in units of mg · L−1 ).

Answer 7

Answer: 625 mg · L−1

Question 8

The Waramurungundi tannery with a wastewater flow of 0.011 m3 · s−1 and a BOD5 of 590 mg · L−1 dis-
charges into the Djanggawul Creek. The creek has a 10-year, 7-day low flow of 1.7 m3 · s−1. Upstream of
the Waramurungundi tannery, the BOD5 of the creek is 0.6 mg · L−1. The BOD rate constants (k) are
0.115 day−1 for the Waramurungundi tannery and 3.7 day−1 for the creek. Calculate the initial ultimate BOD
after mixing.

Answer 8

Answer: 9.27 mg · L−1

Question 9

The initial ultimate BOD after mixing of the Bergelmir River is 12.0 mg · L−1. The DO in the Bergelmir
River after the wastewater and river have mixed is at saturation. The river temperature is 10◦
C. At 10◦
C, the
deoxygenation rate constant (kd) is 0.30 day−1
, and the reaeration rate constant (kr) is 0.40 day−1
. Determine
the critical point (tc) and the critical DO.

Answer 9

Answer: tc = 2.88 days. Critical DO = 7.53 mg · L−1

Question 10

The discharge from the Renenutet sugar beet plant causes the DO at the critical point to fall to 4.0 mg · L−1.
The Meskhenet Stream has a negligible BOD and the initial deficit after the river and wastewater have
mixed is zero. What DO will result if the concentration of the waste (Lw) is reduced by 50%? Assume that
the flows remain the same and that the saturation value of DO is 10.83 mg · L−1 in both cases.

Answer 10

Answer: DO = 7.4 mg · L−1

Question 11

Assuming that the mixed oxygen deficit (Da) is zero and that the ultimate BOD (Lr) of the Manco Capac
River above the wastewater outfall from Urcaguary is zero, calculate the amount of ultimate BOD
(in kg · day−1
) that can be discharged if the DO must be kept at 4.00 mg · L−1 at a point 8.05 km down-
stream. The stream deoxygenation rate (kd) is 1.80 day−1 at 12◦
C, and the reaeration rate (kr) is 2.20 day−1
at 12◦
C. The river temperature is 12◦
C. The river flow is 5.95 m3 · s−1 with a speed of 0.300 m · s−1. The
Urcaguary wastewater flow is 0.0130 m3 · s−1.

Answer 11

Answer: Mass flux = 1.14 × 104 kg · day−1 of ultimate BOD

Question 12

A small lake is surrounded by agricultural land. The lake is 150 m long and 120 m wide. The average
depth is 30 m. The lake is fed by a small pollution-free stream having an average flow rate of 1.5 m3 · s−1.
A herbicide, Greatcrop, is detected at a concentration of 45.2 g · L−1 in the lake. Greatcrop degrades
biologically with a rate constant of 0.22 day−1
. Assuming that the lake is at steady-state conditions and
completely mixed at the time of sampling, what would have been the mass input of herbicide? Assume
that the stream is the only source of water to the lake and that evaporation, precipitation, and seepage can
be neglected.

Answer 12

Answer: 11.2 kg · day−1

Question 13

Suspended solid present in the waste water generated in blast furnace gas cooling and cleaning plant is removed by

Answer 13

radial settling tank (thickener) using coagulant (lime & ferrous sulphate)

Question 14

Persons working in cement plants and limestone quarries are more prone to disease like
a. cancer
b. asthma
silicosis
flourosis (bone diseases)

Answer 14

silicosis

Question 15

Particulates (< 1μm size) remaining suspended in air indefinitely and transported by wind currents are called
a. fumes
b. mists
smoke
aerosols

Answer 15

aerosols

Question 16

Operating principle of cyclone separator is based on the action of __________ dust particles.

Answer 16

centrifugal force on

Question 17

Exposure to small amount of __________ results in high blood pressure & heart disease in human beings.
a. hydrogen sulphide
b. mercury
cadmium
asbestos

Answer 17

cadmium

Question 18

Maximum allowable concentration of CO2 in air for safe working is __________ ppm (parts per million).
50
1000
2000
5000

Answer 18

5000

Question 19

Tolerable limit of nitrogen oxides in air is __________ ppm.

Answer 19

5

Question 20

Iron & manganese present as pollutant in water can not be removed by

Answer 20

chlorination

Question 21

In water chemical treatment plant, use of chloramines ensures

Answer 21

disinfection

Question 22

H2S present in gaseous stream can be removed by adsorption on

Answer 22

bog iron

Question 23

Fluorosis (a bone disease) is caused by the presence of high concentration of __________ in atmospheric air.

Answer 23

hydrogen flouride

Question 24

Main pollutants released from iron & steel industry is

Answer 24

CO, CO2 & SO2.

Question 25

Exposure to chemicals having carcinogenic properties cause

Answer 25

cancer

Question 26

Scale formation in boiler is controlled by

Answer 26

reduction in hardness, silica & alumina in feed water.

Question 27

Noise level heard at a distance of about 100 metres from a jet engine with after burner is about __________ decibels.

Answer 27

170

Question 28

Which of the following is the most detrimental for water used in high pressure boiler ?

Answer 28

Silica

Question 29

Turbidity of water is an indication of the presence of

Answer 29

suspended inorganic matter

Question 30

Presence of excess flourine in water causes

Answer 30

fluorosis

Question 31

Siderosis is a disease caused by the inhalation of __________ dust.

Answer 31

iron

Question 32

Which of the following pollutants is not emitted during volcanic eruptions ?

Answer 32

hydrocarbons

Question 33

The main pollutant in waste water discharged from a petroleum refinery is oil (both in free and emulsified form). Free oil is removed by

Answer 33

gravity separator having oil skimming devices.

Question 34

Phenolic water generated in coke ovens & by-product plant attached to an integrated steel plant containing phenol in concentration of less than 100 mg/litre can be removed by

Answer 34

treating in biological oxygen pond