The history of the water supply in Simla is extremely
interesting, firstly, because it relates to great engineering feats, and
secondly, because water vitally concern the health and existence of the
population of the town. Roughly speaking the water supply has cost to the date
about 54 lakh rupees. Prior to 1880 Simla depended partly on local ‘baolies’
(springs), and partly on the reservoir fed by
the water issuing from two
tunnels bored a short distance into Jakhoo on either side of the Combermere
bridge ravine.
In 1880 the first serious attempt was made to tackle
the water problem, when some 15,000 acres of land was accuired on the south of
Mahasu ridge from the Rana of Koti. This was the beginning of the now extensive
Catchment area, and a 6" pipeline eleven miles in length was laid to
deliver water in the new reservoirs at the church and Sanjoli and this pipe
gave and still give, a discharge of 60,000 gallons per day during the hot
weather.
In 1893 the catchment area was extended to the old
toll-bar on the Mashobra road, and two stem engines were installed at Cherot
Nullah, 1,300 feet below the Hindustan Tibet road and the supply increased
about 150,000 gallons daily.
This again proved insufficient, so in 1899 a second gravitation pipe line, four miles in length, was constructed to tap at the lower level the same stream as the pipe laid in 1880.
This again proved insufficient, so in 1899 a second gravitation pipe line, four miles in length, was constructed to tap at the lower level the same stream as the pipe laid in 1880.
This added 150,000 gallons daily to the supply
available for the pumping at Cherot where a third stem pumping engine was
installed, and a large storage reservoir holding 2 and a half million gallons
was built at Seog in the Catchment area forest.
Then came the railway and increasing requirements in connection with the new sewage works and the demand again rose above the supply, and 1913 saw the installation under the able direction of Captain B.C. Battye R.E.L., of the Chaba electricity generation station on the Sutlej and the Chair pumping station on the ravine below Fagu and Shali peak.
Then came the railway and increasing requirements in connection with the new sewage works and the demand again rose above the supply, and 1913 saw the installation under the able direction of Captain B.C. Battye R.E.L., of the Chaba electricity generation station on the Sutlej and the Chair pumping station on the ravine below Fagu and Shali peak.
The capacity of Chair station is 300,000 gallons
lifted by ram pumps driven by the electric motors to a height of 3,000 feet, to
the tank above Hindustan-Tibet road about 9 miles from Shimla. From this tank
the water run by gravitation in 6" and 7" mains via Kufri and Charabra.
Into the Catchment area to Dhali, and there the whole of the water from the
Chair, Cherot and the Catchment area is filtered in slow sand filters and then
goes on in 3 pipes of various sizes to Sanjouli.
In 1941 advantage was taken of the electricity to
install at Cherot a turbine pump driven by an electric motor, and from this
date it was possible to dispense with the services of number of wood cutters
and coolies who had hitherto provided fuel for the boilers working the steam
pumps. The presence of this large body of workmen in the Catchment area had
always been objected to by the sanitary authorities.
It was then hoped that the Chair extension would
suffice for the needs of the station for some years, but the new generation
arose which demanded considerably more comfort and convenience.
Visitors at hotels clamored for English baths and sanitation, Government offices were no longer satisfied with primitive sanitary methods, and the owners and the tenants of the houses who had previously been content with the one tap in the compound, wanted water laid on to the bathrooms, kitchens and pantry. In additions to these demands the Municipal Committee encouraged the builders of the new houses to install sanitary fittings, and commenced replacing obsolete Municipal latrines with those of the modern type.
Visitors at hotels clamored for English baths and sanitation, Government offices were no longer satisfied with primitive sanitary methods, and the owners and the tenants of the houses who had previously been content with the one tap in the compound, wanted water laid on to the bathrooms, kitchens and pantry. In additions to these demands the Municipal Committee encouraged the builders of the new houses to install sanitary fittings, and commenced replacing obsolete Municipal latrines with those of the modern type.
However, in 1919 a definite scheme was placed before
the local government for pumping from the Guma on the Nauti River 4,000 feet
below Mashobra.
In 1920 Mr. A.F. Henderson was placed on special duty to prepare the Guma Pumping Project in detail, and was sanctioned in 1922, and completed at the end of 1924. at Guma there are two electricity driven ram pumps, each capable of lifting 35,000 gallon per hour, to the reservoir on the ‘Craignanao’ estate, now the property of the United Service Club, at the height of 4,000 feet above Guma. This lift is reputed to be the highest for water works purposes in the world, and the pressure on the pumps there is over quarter of a ton per square inch. The rising mains are of steel, varying in thickness from an half an inch at Guma to quarter inch at Craignano. At Guma the water passes through settling tanks and then after treatment with alum to coagulating tanks and finally to Paterson filters, but as a second safeguard the water is treated at ‘Craignano’ an 18-inch main leads to the reservoir at Mashobra and thence a 12-inch main takes the water to Sanjouli reservoir.
In 1920 Mr. A.F. Henderson was placed on special duty to prepare the Guma Pumping Project in detail, and was sanctioned in 1922, and completed at the end of 1924. at Guma there are two electricity driven ram pumps, each capable of lifting 35,000 gallon per hour, to the reservoir on the ‘Craignanao’ estate, now the property of the United Service Club, at the height of 4,000 feet above Guma. This lift is reputed to be the highest for water works purposes in the world, and the pressure on the pumps there is over quarter of a ton per square inch. The rising mains are of steel, varying in thickness from an half an inch at Guma to quarter inch at Craignano. At Guma the water passes through settling tanks and then after treatment with alum to coagulating tanks and finally to Paterson filters, but as a second safeguard the water is treated at ‘Craignano’ an 18-inch main leads to the reservoir at Mashobra and thence a 12-inch main takes the water to Sanjouli reservoir.
From this brief description it will be gathered that
the Guma scheme is unique in the history of waterworks undertakings, and after
he has designed it the execution was also entrusted to Mr. Henderson who was
assisted by Mr. Main.
The distribution system in Shimla is intricate, for
not only the pressure in the mains be reduced at intervals, but arrangements
also exists through which pressure may be augmented in case of fire, and the
whole system is controlled by an elaborate system of recording meters and
valves in order that leakage may be readily detected. All houses connections
are metered, and probably Shimla is the only town in India, where this wise
policy has been consistently pursued by the Municipal Committee.
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