The President steam engine described in in the Australian Advertiser
Whilst pondering on how to start this dive into the history of the President steam I stumbled across this real gem of an article, and also an amazing website for historical research. Although written in 1872 the article was perfect to introduce this series of posts- a gift-thanks the National Library of Australia.
On the Trove website of the National Library of Australia is a newspaper article from the South Australian Advertiser, published May 13th, 1872 that describes the President Engine, and also refers to John West and several other Cornish Engineers. The Trove site is a fascinating resource, and whilst there, I was quickly sidetracked into doing my bit by correcting the transcript of the article. I highly recommend a visit to Trove, and having a session at correcting some text for them.
THE LARGEST STATIONARY ENGINE IN THE WORLD
A recent number of the Mining Journal gives an interesting account of the starting of the Lehigh Zinc Company’s mammoth engine, in America. After describing the progress of fine ore mining generally, the following brief description of the great pumping engine is added:—
The engine was three years building, and was designed by Mr. John West, engineer of the Lehigh Zinc Company, who personally superintended its erection in all its parts, down to the minutest particular. The engine was built by Merries: & Sons, Philadelphia, and thepumps and boilers by I. P. Morris & Co., Philadelphia. The object for which the engine was built was to concentrate the greatest amount of power on one particular spot in the mines in the most economical manner. These new pumps drain the whole property of the Company, and are erected on the particular spot on which they stand on account of the presence of a firm rock to plant upon. Following is a description of the mammoth engine, as we gathered it from a conversation with Mr.West, which will be found to contain technical facts which Mr. Webster did not give in his remarks.The engine has a pumping capacity of 15,000 gallons per minute, and may be run to 17,000 in case of emergency, raising water from a depth of 300 feet The engine alone weighs 650 tons, and including the pumps and boilers the total weight of the machinery is 1,000 tons. Size of cylinder, 110 inches in diameter; length of stroke, 10 feet. The heaviest pieces of iron in the engine are the sections of beams, and weigh 24 tons. There are two pieces of wrought-iron -weighing 16 tons each. The fly-wheels weigh 75 tons each; crank pins 1 ton each. The piston rod is 14 inches in diameter. The cross head weighs 8 tons. The connecting rods have 9-inch necks, and are 15 inches in the middle, 41 feet 2 1/2 inches long, and weigh 11 tons each.There are two air pumps, 50 inches in diameter each.This is, so far as known, the most powerful stationary engine in the world. Next to it in point of size and capacity is the engine at the Cincinnati Waterworks, cylinder 109 inches in diameter. Next is the engine at the Brooklyn Works, cylinder 90 inches; and next the engines used to drain the Meer at Haarlem, in Holland, There are three of these cylinders, 84 inches steam, with 12 feet Sims’compound, 600 -horse-power each. Next are the large Cornish engines used in the Cornish mines in England, and in the London Waterworks.The work of the “President” will be to drive four plunger pumps, each 30 inches in diameter by 10-feet stroke ; four lifting pumps, each 31 1/2 inches in diameter by 10-feet stroke—the plunger pumps being uppermost and stationary. The lifting pumps will be used in the bottom of the shaft, and are movable, so as to go down as the shaft is sunk;and the lifting pumps, on account of veins of ore running through theshaft, are and will continue to be suspended, or the weight of the pumps would force them down into the ore to an indefinite depth. To handle these lifting pumps, hoisting or lowering them at pleasure, a steam capstan, capable of lifting 50 tons vertically, is used. By a series of strong gearing, a drum and a steel wire rope, with this capstan, if anything goes wrong with the pumps they can be taken hold of by the top and pulled out of water, repaired, and put back in a very short time. Everything that past experience could dictate is here applied, or at least, as Mr. West said, so it is thought, so far as known.Mr. John West, who has brought this massive engine to its present state of perfect working, has been employed by the Lehigh Zinc Company for about five years, and designed and superintended the construction of all the machinery in and about these mines. This engine is certainly a triumph of skill, pluck, and per severance, of which the Company, who backedup the President, Mr. Webster, who backed upand sustained Mr. West, the engineer, who conceivedand carried out the only feasible plan for relief from the difficulties under which theCompany labored—too much water—may all feel very proud.The erector of this mammoth engine, under Mr. West’s supervision, is Simeon Noell, a Cornishman, who has had 21 years’ experience in this kind of work in Cornwall, England.. The engineers who will run the “President” hereafter are William Harry, a Cornishman, age 35 years, with 17 years’ experience; and John Beddington, also a Comishman, age 37 years, 21 years’ experience as engineer. Bothsaw the engine go up from its foundation, and know every piece of it, and will keep a watchful and intelligent eye on the mammoth engine.
And now I will read through the article again and pick up some threads to explore.