440
POWER PLANT ENGINEERING
Sl.No.
Description of Drain
Discharge (mld)
BOD (mg/l)
9.
Moat Drain
2
195
10.
Civil Mill Drain
55
180
11.
Rajghat/Delhi Gate Drain
43
190
12.
Sen-Nursing Home
100
280
13.
Drain No.14
153
320
14.
Bara Pula Drain
255
165
15.
Maharani Bagh Drain
54
370
16.
Kalkaji Drain
27
210
17.
Tehkand Drain
34
310
18.
Tuglakabad Drain
11
150
19.
Trans Yamuna
1471
240
Total
3651
Source : DJB Pre-feasibility study report on rehabilitation of Sewer System.
13.20 METHOD FOR POLLUTION CONTROL
The following methods for developing the power generating capacity without pollution to the
atmosphere.
1. F.P. Rogers has suggested that it would be safer to set the nuclear power plants underground.
This definitely preserves the environment. There would be lot of difficulties in excavation,
concreting, roof lining, structural supporting, lowering the reactor equipments and many oth-
ers. But even then it is suggested that locating the power plant underground would be profit-
able in the long run.
2. The tidal power must be developed in the coining years that is free from pollution.
3. The thermal discharges to the environment are common from fossil and nuclear-fueled power
stations. Significant quantities of particulates and gases from fossil-fueled system, small quan-
tities of radioactive gases from nuclear, have an impact upon an environment. Offshore sit-
ting of power plants mitigates these problems of pollution. Offshore sitting of power stations
also isolates the plants from earthquakes and provides the thermal enhancement of the water
to increase recreational and commercial values. No doubt, offshore location requires new
design consideration and floating platforms in the sea increasing the capital cost of the plant.
4. It was proposed that the thermal pollution of the atmosphere and the generation cost of the
plant could be reduced by using the low-grade energy exhausted by the steam. The ideal use
for enormous quantity of residual energy from steam power plants requires large demand
with unity power factor.
Particularly in U.S.A., many uses of energy are available in winter, but not in summer therefore
finding large-scale valuable uses of thermal energy is the key for developing beneficial uses.

POLLUTION AND ITS CONTROL
441
It is estimated that the total energy used in U.S.A. for air-conditioning is equivalent to the
total energy used for heating the offices and residences. The low-grade energy exhaust by the
thermal plants is not readily usable for air-conditioning purposes. It is possible to use this
energy by stopping the expansion of steam at a temperature of 95°C to 100°C and use of this
energy can be made to drive an absorption refrigeration system such as lithium bromide water
system. This will be a definite positive answer to reduce the thermal pollution of environment
otherwise caused by burning extra fuel to run the absorption refrigeration system in summer
or to run the heating systems in winter.
As for open field irrigation, soil heating with warm water and better cultivation of the fishes
in slightly warm water. In short, a combination of uses could consume all heat from a large
thermal power station, making conventional cooling unnecessary and reduce the generating
cost with minimum thermal pollution of the atmosphere.
5. Use the sun energy for the production of power that is absolutely free from air-pollution.

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