Book: red covered book, written on front in gold 'Wannan's Engine-Drivers' Guide'. Written in pencil inside front cover : H.R. Attwood, Alice St., Sunshine and in blue pen 'Hrm Grauz' On further page, Hilliaue Grauz, Gibson Street, Warrnambool. Book contains chapters relating to boilers, operation and accidents.A.C. Wannan, Consulting Engineermachinery, engines- steam, wannan's engine-drivers' guide, richardson, wannan, boilers, mining, mines, engine driver, engineman

Book: blue covered book 'The Engineman's Pocket companion' by Michael Reynolds. A practical educator for Enginemen, boiler attendants and mechanics. Second Edition, revised. Published by Crosby Lockwood and co., Stationers' Hall Court, Ludgate hill, 1887. Written in pen inside front cover 'A.E. Richardson, 29 Harrison St., Bendigo ' Pencil equations written throughout book.Michael Reynoldsmachinery, engines- steam, engineman's pocket companion, richardson, boilers, mining, engine drivers, engineman

machinery, engines, steam

Hardcovered book, half leather bound with marbled paper. Formerly book number 4040 from the Ballaarat East Public Library. Contents include: new pit-saw, self-moving carriage (car), Lord Worcestor's steam engine, extinction of fires, Cameron's Soda Water Apparatus, Newton's Lectures on Astronomy, coining at the Royal Mint, mechanical geometry, lifting ships by steam, voltaic-mechanic agent, steam navigation, portable hand-mill, Brown's pneumatic engine, Bell's invention for saving lives from shipwreck, triple pump, cycloidal chuck, potato-washer, sand clock, Galvanic electricity, perpetual motion, Hadley's Quadrent, Wollaston's Night-Bolt, rope bridges, boring machinery, locomotive steam-engines, new London Bridge, naval architecture, steam and water wheel, Spencer's Patent Forge, boat with wings, ivory profile portraits, Jenning's Gas burner, Ramage's Telescope, washing machine, tallow lamp, iron masts, self regulating pendulum, prismatic compass, simple blowpipe. Includes image of Henry Brougham, and many drawings of inventions.non-fictioncar, newton, fire, shipwreck, bell, naval architecture, locomotive, ballaarat east public library, ballarat east public library, ballarat east library, henry brougham, potassium, meridian lines, pit saw, self moving carriage, lord worcestor, steam engine, cameron s, soda water, astronomy, royal mint, mechanical geometry, lifting ships by steam, voltaic mechanic agent, steam navigation, hand mill, brown s pneumatic engine, triple pump, cycloidal chuck, potato washer, sand clock, galvanic electricity, perpetual motion, hadley s quadrent, wollaston s night bolt, rope bridges, boring machinery, steam engines, new london bridge, steam and water wheel, spencer s patent forge, boat with wings, ivory profile portraits, jenning s gas burner, ramage s telescope, washing machine, tallow lamp, iron masts, self regulating pendulum, prismatic compass, simple blowpipe, bookplate

A large brown cloth hardcover book with black leather spine and corners. Title is engraved in gold on spine. Illustrated by numerous engravings on wood and steel, including select details, and complete machines. Illustrations in b/w. It includes a list of b/w plates, a table of contents, 116 p. of text and 112 p. of plates. This workwork provids instruction on drawing and illustrating heavy machinery including steam engines. It also contains lessons in drawings and examples of approved construction. non-fictionengineer drawings, drawing instruments, the sector, the lines of numbers, drawing of elementary forms, m le blanc, mm armengaud, linear drawing, projection, eccentric curves, machinery sketching, forms of gearing, projections of shadows, spur gearing

The 1st edition of this famous work, giving an excellent account of the machinery used in late 19th century metal mining in the UK and overseas is very rare. It covers a wide range of equipment - pumps, steam engines, drills, winding engines, stamps & concentration mills, aerial ropeways, tramways and early uses of electricity etc. Brown hard cloth covered book. xvi 564 pages with additional advertisements, with over 300 illustrations and drawings, some fold out. Chapters include Water as a motive power, Wind engines and ventilating machinery, Steam boilers/engines and oil engines, hoisting machinery, draining of Mines, pumping engines, rock drilling machinery, boring machinery, concentration machinery, sizing and classifications trommels, joggers and jigging, fine concentration, milling of gold ores, milling of silver ores, amalgamation plates and machinery, dry and roasting machinery, chlorination and cyandide processes for the extraction of gold, electricity as a motive power for mining, electric lighting and blasting, aerial wire ropeways, transport by rail and road. There a a number of lovely line illustrations in the book including: Poncelot's undershot waterwheel; Fromont furnace;Victor turbine; Pelton waterwheel; Root's positive blower;Cross section and front elevation of Lancashire boiler; Robey's Compound Mill Engine; Portable Winding Plant; Iron Pit Head Gear ; Loading Arrangement in an Incline Shaft; kibble; Worthington Pump; California Pump; Scram's Air Compressor; Rock drill Bits; Special Sharpening tools; Boring tools;Rotating Picking table; Ore Feeder; roller crusher; stamp battery; round buddle; slime table; vanner; amalgamating plant; belt elevator;roasting furnace;splicing wire rope; capel; tipping waggon;mining, cornish pump, linkenbach table, water wheel, ventilation, oil engine, california, america, water, steam boilers, steam engines, oil engines, pumpimg, rock drilling, boring, jiggers, milling, silver, gold, drying and roasting, chlorination, cyaniding, lead, zinc, copper, electricity, electric lighting, wire ropes, transport, wind engine, poppet head

October inwards correspondence for the Ballarat School of Mines. * School of Mines and Industries, Bendigo (certification of Mine Managers) * Telegram - examination papers * Commonwealth telegram - Ballarat School of Mines battery availability for crushing ten tons. * Letterhead from the Roneo Co., Melbourne * J. Donald of Wallace St, Toorak * Letterhead from York Chambers, 49 Queen Street, Melbourne - signed J. Kaufmann * Letterhead from Cochran & Co - re Cocnran boilers * Letterhead of Thames School of Mines, New Zealand * Letter re James Chambers missing school from his father James Chambers Snr of Talbot * Education Department Circular * letter signed by F.W. Calaby * F.W. Silberberg & Co re crucibles * Letterhead of New Black Horse Mining Company - signed E. Howell * Australasian Institute of Mining Engineers, 57-59 Swanston Street, Melbourne - signed D.L. Stirling * Letterhead of John F. Paterson * Letterhead of the Welcome Stranger Dredging Company, Dunolly - W.J. Parker manager * Letterhead of Nevett and Nevett Barristers and Solicitors, Lydiard Street, Ballaarat * John Barker, H. Barbour * Telegram re Brearley Lyndhurst * Letterhead of the Commonwealth Minerals Co - John F. Paterson, Legal Manager * Query re courses at the Ballarat School of Mines - A. O'Mara * Stone to be crushed, Egerton from J.H. Davidson * Letterhead from 'Terascoa' Port Kembla signed by W.S. Macartney * Letter from Thomas Williams * Letterhead from Australian Institute of Mining Engineers regarding excursion to Toongabbie and Walhalla - Signed D.L. Stirling * Assay from George Brearley of Lyndhurst via Scottsdale * Letterhead of Berry United Deep Leads Limited, Ulina * Embossed leather classes for coachwork from S. Mee of Clunes * The Lord Nelson North Gold Mning Company No Liability signed by Edward H. Shackell * Correspondence from May Consolidated Gold Mining Company, Transvaal signed by Jason Hawthorne * Letterhead of the Northern Assurance Company, 448 Collins St, Melbourne * Letter fom James Lidgett of "Braelands" Myrniong * Gordon sides asking for a reference * Letterhead of Fraser & Chalmers Ltd, Manufacturersw of mining machinery, steam engines, boilers and machinery for systematic milling, smelting and concentration of ores, signed by W.R. Caithness * Letterhead of the Board of Examiners for Engine-Drivers, signed by R. Birrell * Letter concerning outstanding amount due to theBallarat East School of Design, signed by Edward Reid, Manager * Letterhead of the Ballarat Public Library concerning an outstanding amount in the School of Design Account. * Letterhead of the A. Gallenkamp and Co. regarding their new catalogue * Letterhead from the Creswick Advertiser, Albert Street, Creswick * Handwritten letter from John Brittain inviting Ballarat School of Mines students to join him at the telescope weather permitting * Letterhead of Victorian Railways, signed by E.B. Jones * Letterhead of the Ballarat East Town Clerk's Office * Letterhead of Elliott, Maclean and Co. Handwritten letter re Dressmaking from J.H. Wrightrand, south africa, kalgoorlie, school of mines and industries, bendigo, certification of mine managers, bendigo school of mines, telegram, ballarat school of mines battery, roneo co., melbourne, j. donald, york chambers, cochran & co, thames school of mines, new zealand, james chamberseducation department circular, f.w. calaby, * f.w. silberberg & co, crucibles, new black horse mining company, e. howell, * australasian institute of mining engineers, john f. paterson, welcome stranger dredging company, dunolly, w.j. parker, nevett and nevett, john barker, h. barbour, brearley lyndhurst, commonwealth minerals co, a. o'mara, j.h. davidson, 'terascoa' port kembla, w.s. macartney, thomas williams, australasian institute of mining engineers, excursion, toongabbie, walhalla, d.l. stirling, george brearley, lyndhurst via scottsdale, berry united deep leads limited, ulina, embossed leather classes for coachwork, s. mee, clunes, the lord nelson north gold mning company no liability, edward h. shackell, may consolidated gold mining company, transvaal, jason hawthorne, northern assurance company, james lidgett, "braelands" myrniong, gordon sides, fraser & chalmers ltd, mining machinery, w.r. caithness, examiners, ballarat east school of design, edward reid, ballarat public library, school of design, a. gallenkamp and co., creswick advertiser, john brittain, telescope, victorian railways, e.b. jones, ballarat east town clerk's office, elliott, maclean and co., dressmaking, j.h. wright, ausimm, berry united, school of mines and industries bendigo, lyndhurst tasmania, may consolidated gold co germiston transvaal, transvaal, germiston, roneo, thames school of mines, schools of mines, welcome stranger dredging co, cowley copper development syndicate ltd, department of mines, maryborough school, pharmacy board of victoria, tongalla survey camp, ballarat fine art gallery association, central microscopical

In 1867 the Singer Company decided that the demand for their sewing machines in the UK was sufficiently high to open a local factory. Glasgow was selected for its iron-making industries, cheap labour, and possibly because at the time the General Manager of the US Singer Sewing Machine Company was George McKenzie, who was of Scottish descent. The company obtained a lease on land near Queen Street Station and machinery and machine parts were shipped over from the US. Demand for sewing machines outstripped production at the new plant and by 1873 a new larger factory was completed near Bridgeton Cross. By now Singer employed over 2,000 people in Scotland but still, they could not produce enough machines. In 1882 George McKenzie, the soon to become President of the Singer Sewing Machine Company undertook the ground breaking ceremony on 46 acres of farmland at Kilbowie, Clydebank and the largest Singer factory in the world started to be built. Originally two main buildings were constructed. Built above the middle wing of the factory was a huge clock tower with the 'Singer' name displayed for all to see from miles around. Many miles of railway lines were laid throughout the factory to connect the different departments and to aid in the shipping of their goods. Railway lines from the factory connected Glasgow, Dumbarton, and Helensburgh stations. The factory was regarded as the most modern facility in Europe at that time. As different departments in the factory were completed, the workers moved from the old sites to the new one at Kilbowie and the factory was finally finished in 1885. With nearly a million square feet of space and almost 7,000 employees producing on average 13,000 machines a week, making it the largest sewing machine factory in the world. The Clydebank factory was so productive that in 1905 the US Singer Company set up the Singer Manufacturing Company Ltd. as a UK registered company. The invention of the sewing machine had several very significant impacts on the lives of many people. It changed the domestic life of many women as more households began to own sewing machines, women as the ones who traditionally stayed home to do chores including making and repairing clothing, found themselves with more free time. Previously several days a week would be dedicated to sewing clothing for herself and her family, a housewife could now complete her sewing in merely several hours, allowing for more free time to pursue hobbies and attain new skills. Sewing and clothing production, in general, became more industrialized activities, taking place less in the home and more in large factories. Industrial sewing machines, in combination with the cotton gin, the spinning jenny, and the steam engine, made clothing production much easier and much cheaper. Sewing machine, treadle operated, "Branded Premier" 5-7-9-2-0-0-" Serial Number Y6243048 (denotes 1922 year of manufacture) flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, sewing machine, hand operated, dressmaking, textile machinery, portable, premier sewing machine, premier, singer treadle sewing machine

Original held by Mr. Mike Rosel. Relates to series of images, reg. No P000027, P000028.2, P000029.3, P000030.2, P000031, P000032Photograph shows Port of Echuca from a slight height looking lengthways (north ward) with the steam train carriages and the wharf dominating the view. Murray river on the right, Murray esplanade on left with Star hotel visible and Federal Ale sign of the northern fence beyond the hotel. Sawmill is a commercial concern (steam visible above roof). Steam train marked A2 and 996 on the front of the engine. Various equipment , including manual cranes, visible on and around the wharf. Cargo shed is clearly visible on the wharf.Black and white photograph of the Port of Echuca from a slight height looking lengthways, (north) with steam train and wharf dominating the view. Murray river on the right and Murray Esplanade on left. Cranes and cargo shed clearly visible with other wharf machinery running along the side of the wharf. Star Hotel visible on the far left of the photograph. Saw mill (in background) is still a working operation.On train "A2" and "996". "Federal Ale" sigh on the fence beyond the Star Hotel.port of echuca, sawmill, steam trains, echuca wharf, rosel, mike

The Davey Paxman Experimental Steam Engine was purchased as the result of a bequest from Thomas Bath. The 'substantial sum' was used to build an Engineering Laboratory. The Ballarat School of Mines Council minutes of 08 November 1901 record: - Plans for [the] proposed building were submitted ... and ... it was resolved that a temporary building for an Engineering Laboratory be put up.' This laboratory, as an existing building, is first mentioned in the Ballarat School of Mines President's Annual Report of 1901, presented on 28 February 1902, reporting 'the erection of a building 67ft long by 33 ft wide' This report also lists all the equipment that would be accommodated in the Engineering Laboratory, including the experimental steam engine and boiler. The experimental Davey-Paxman steam engine arrived in Ballarat towards the end of 1902. The Engineering Laboratory was opened on 14 August 1903 by His Excellency Sir Sydenham Clarke. This engineering laboratory remained in use till about 1945. By 1944 preparations were under way at the Ballarat School of Mines to expand existing facilities, to be ready for the influx of returned soldiers. A new Heat Engines laboratory was built, this time of brick construction, replacing the previous corrugated-iron shed. In the early stages the steam engine was used to drive an overhead transmission shaft for machinery in the adjacent workshop. Later the steam engine was moved to a space that became the Heat Thermodynamics Laboratory. At the end of 1969 the engine was relocated to the Thermodynamics Laboratory at the then Ballarat Institute of Advanced Education (BIAE) Mt Helen Campus. It was donated to Sovereign Hill in 2006. According to the research of Rohan Lamb in 2001 around five experimental steam engines were made by Davey Paxman, and three of these had similar configuration to the Ballarat School of Mines Steam Engine, however, each of these was also unique with different valve arrangements. The list, which was on a scrap of paper in a folio held in the Essex Archives, confirmed that one was sent to India. The Ballarat steam engine can be dated to late 1901 to early 1902. Zig Plavina was responsible for moving the steam engine to Mount Helen, and worked on it as a technician for many years. He observed the following: * The condenser is driven by the low pressure engine. * The following arrangements are possible: i) the high pressure engine alone, exhausting to atmosphere. Condenser not used, crankshaft flanges not coupled. ii) crankshafts coupled, mains pressure (120 psi) steam supplied to high pressure engine, partially expanded steam delivered to low pressure engine (Tandem operation). Choice available re exhaust steam: either to the condenser or to atmosphere. iii) crankshafts not coupled, reduced pressure steam supplied to low pressure engine. Exhaust steam - either to the condenser or to atmosphere. * Valve arrangement - a choice of Pickering cut-off or throttle governor. On low pressure engine - throttle governor only.Black and white photograph of the Davey Paxman Experimental Steam Engine. On the brake is returned serviceman Norman WIlliam Ludbrook (Diploma Electrical Engineering, 1952). Far right is Roy E. Mawby (Diploma Electrical Engineering, 1950)steam engine, model steam engine, davey paxman, electrical engineering, laboratory, scientific instrument, norman ludbrook, norman william ludbrook, roay mawby, roy e. mawby

An information brochure regarding The Marysville Museum in Marysville in Victoria.An information brochure regarding The Marysville Museum in Marysville in Victoria. Fred Sawyer was originally from London, but then later relocated to Sydney, Australia, and then to Marysville in Victoria where he established The Marysville Museum. The Marysville Museum held a collection of horse-drawn vehicles, veteran, vintage, and classic vehicles, various machinery, and memorabilia. the marysville museum, marysville, victoria, 1909 wolesley siddley, 1965 bentley s3, model mg td, 1928 rugby ute, 1929 packard straight 8 golf bag tourer, 1926 parkard phaeton model 426, 1925 bsa 350cc side valve, 1865 gillet bland and co turret clock, 1890 shand mason twin vertical horse drawn steam driven fire engine, 1904 romany vardo, fred sawyer

A colour photograph of a vehicle that was housed in The Marysville Museum in Marysville in Victoria.A colour photograph of a vehicle that was housed in The Marysville Museum in Marysville in Victoria. Fred Sawyer was originally from London, but then later relocated to Sydney, Australia, and then to Marysville in Victoria where he established The Marysville Museum. The Marysville Museum held a collection of horse-drawn vehicles, veteran, vintage, and classic vehicles, various machinery, and memorabilia. 1890 SHAND/ MASONthe marysville museum, marysville, victoria, photograph, copper fire extinguisher, 1890 shand mason twin vertical horse drawn steam driven fire engine, fred sawyer

Cyrus Chambers was a self-described mechanic who started out winding bobbins in his father's woollen mill and went on to invent machines that changed their industries. Cyrus Chambers came from Quaker parents the ninth of thirteen siblings, he once said a year before his death. “I believe I have succeeded because, first, I was industrious; second, because I made a study of the subject that was before me.” At age 7, Chambers went to work in his father’s mill. His job was to monitor bobbins—wooden spindles around which thread was wound and to remove and replace them as they became full. "There was no child labour law at that time," he later recalled. Chambers loved machinery and always regarded himself as a mechanic rather than an inventor. At age 16, Chambers was sent to learn dentistry with an older brother, (Edwin) who was already in the field and willing to take him on as an apprentice. Chambers was talented at working with small parts. He used his brother's dental instruments to build a miniature high-pressure steam engine of silver. It ran at 3,000 revolutions per minute and weighed less than a half-ounce. At that time it was the smallest engine that had ever been constructed. The engine was displayed at the 1876 Centennial and is now in a permanent collection at the Franklin Institute USA. Chambers major invention was the paper folding machine and came from reading that school teachers made less than the young girls who were employed to fold book pages as they came off the press. He told friends that his first efforts were to make the machine that would fold newspapers after demonstrating his device he met with Horace Greeley of the New York Tribune who advised Chambers would never invent the machine that would be able to fold his newspaper or books. In less than a year Chambers had built a full-size machine capable of folding large newspapers and books and was installed at J B Lippincott & Co folding pages for the "Comly Speller" this machine ran successfully for twenty-five years until the printing works burnt down. Chambers then went into partnership with a brother and they established the firm "Chambers, Brother & Co" at a plant in Philadelphia. It was also observed in 1910 and a fact that there was not a periodical or newspaper printed or recently published book that had not gone through one of Chambers inventions. Chambers went on to produce many mechanical inventions and improvements to existing tools and machinery most notable was his invention for the machine that would make clay bricks. This machine made forty bricks per hour and by the end of Chambers life after many improvements, it could make more than four hundred. Although there were a large number of bold cutters made of this patent at Cyrus Chamber’s foundry in Philadelphia, the item is associated with a notable American inventor of the nineteenth century. This particular patent for a bolt and rivet cutter won Chambers the prestigious Elliott Cresson Medal. This cutter is just one of the many inventions and mechanical improvements that Cyrus Chambers made during his lifetime, contributing to the ongoing development of mechanical improvements that were occurring in American industry of the time and therefore a notable addition to the Flagstaff collection.Cast iron bolt cutter with removable tempered steel cutter. Chambers New No. 2.Raised embossed lettering on cast body of cutter "New No 2" on one side, "Chambers Bros & Co" on the other sideflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, cyrus chambers, bolt cutter, paper folding machine, brick making machine, elliot cresson, elliot cresson medal, franklin institute, gold medal, rivet cutter

Thomas Broadbent $ sons Ltd was established in 1864 in Huddersfield England. They are an engineering firm , specialists in heavy duty engineering products. By 1893 Broadbent had progressed to steam powered engines for the textile industry. Some of these machines operated for upwards of 50 years Today Broadbent is a leading world designer in the manufacture and maintenance of advanced centrifuges. This document is a manual for a suspended direct steam driven hydro extractor. It shows the various parts , maintenance instructions and erection and working instructions. While it is stamped as Albion Woollen mills which were situated at Geelong, it is likely to have connections to the Warrnambool Woollen Mills.This document is a good example of machinery manual. It is possibly linked to the Warrnambool Woollen Mill. The fact that the company which manufactured these items is still in existence today after 150 years is testament to the quality of the items produced.Cream coloured document with mainly black text with some red text for headings contained in the document. It is printed front and back and is folded in three sections.Stamp at top "Albion Woollen mills Pty Ltd" .4H x 4 in red pencil in top RHC. Printed on front page. Thomas Broadbent & Sons Ltd Central Iron Works Huddersfield. warrnambool, warrnambool woollen mill, broadbent direct steam driven hydo extractors,, broadbent centrifuge

This photograph was taken at what is now the Young’s Creek picnic area which is located on the site of an old sawmill, once owned and operated by L.E. & H. Williams, dating back to the early 1920’s. The mill was eventually sold, dismantled, and the machinery transferred to a sawmill at Cabbage Tree Creek. there are still some items of old sawmill debris. The old steam engine at the edge of the car park is the remains of the mill’s former power plant. This portable steam engine was constructed in Leiston, Suffolk, in England.This is a pictorial record of a popular recreational area in the Orbost district in the late 19th century.A black / white photograph of a wooden bridge over a creek in forest setting. There is a second copy.on back - handwritten "the Young's Creek Bridge June 1897"young's-creek-orbost bridge-young's-creek

A steam boiler like this one, made in the late 18th century, is often called a colonial boiler. Steam boilers were used in factories throughout Australia, mounted over similar designs of brick furnaces. This boiler is a fire tube type, in which the heat from the fire travels through the tubes and water circulates around them. Another kind of boiler is a water tube boiler, in which the water is inside the tubes and the heat of the combustion surrounds the tubes. The boiler in our collection burned wood as fuel but others of this design could also burn coal, coke, gas and liquid fuels. The boiler was made by T & F Johnson, boilermakers. In 1922 their factory was located at Coventry Street, South Melbourne. They were still advertising their 'Colonial, multi, vertical boilers, all sizes' at the same address in 1934. The connected pressure gauge, made in London by Dewrance, measures 0 to 400 pounds per square inch. John Dewrance is renowned as a pioneer of the steam locomotive in the early 19th century. He founded John Dewrance & Co. in South London in 1844. His son Sir John Dewrance took over in 1879. In 1939 the company became a subsidiary of Babcock & Wilcox, and was eventually owned by Emerson. How the boiler works: - A boiler is about two-thirds filled with water and heat is applied, in this case in the form of burning wood. The heat is transferred through the metal of the boiler to the water. When the water boils the steam rises to the top, and as it escapes from the boiler the steam pressure builds up in the steam space to later be released to do work; drive machinery such as ship and train engines, turbines, presses, wheels, and driving belts to operate looms and saws. The heat associated with the boiler can be used for preserving food, sterilising, factory manufacturing processes, and steaming wood for shipbuildin. Every boiler has several components fitted for safe operation: - - Safety valves - Gauge glass - Pressure gauge - Main steam stop valve - Water check valve - Blowdown valve - Manhole doorThe boiler is a significant item that gives us a snapshot of early Melbourne's industrial history. It is an example of the technological advancement during the Industrial Revolution where steam-driven machinery and motors could perform tasks more efficiently than manual labour. The makers were one of many boilermaker businesses in Melbourne during the early late-19th andearly 20th centuries. The maritime trade and skills of boilermaking are still learned and applied today. The Dewrance steam pressure gauge connected to the boiler was made by the London firms foundered by John Dewrance. He was renowned for developing the steam locomotive in the early 19th century.Boiler; a horizontal cylindrical underfired steam boiler. It is a multi-tubular design and is timber plank-clad, with brass fittings and pressure gauges. The boiler has an iron door at one end with a metal chimney above it. It is installed over a brick-enclosed solid fuel furnace. Two large, wood-mounted pressure gauges are connected to the boiler and have inscriptions. An inscription is on a red, cast iron plaque above the boiler door. The boiler's maker is T & F Johnson, South Melbourne. One of the pressure gauges was made by Dewrance, London..Maker's plate: "T & F JOHNSON / BOILERMAKERS / SOUTH MELBOURNE" Pressure gauge: "POUNDS PRESSURE / PER [square] INCH / DEWRANCE LONDON"flagstaff hill, warrnambool, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, boiler, multi tube boiler, steam boiler, steam technology, underfired boiler, horizontal boiler, timber clad boiler, steam power, industrialisation, boilermakers, south melbourne, dewrance, john dewrance, pressure gauge, dewrance pressure gauge, t & f johnson, london, steam engine, steam locomotive, pounds per square inch, 19th century, steam machine

George McCulloch was an inspector of machinery for the Western Australia Department of Mines. Brown hard covered book of 452 pages including illustrations and index. Contents include Design; Tail ropes; Winding from Great Depths; Colliery Winding; Electric Winding; Steam engine details, Drims; brakes; Clutches; Safety Devices; Winding ropes; Cages; Skips; Cage Safety Gear, Safety Cages; Cage Guides; Head gearsmining, winding, engines, steam engines, safety devices, winding ropes, cages, safety cages

It's assumed that this journal was read at the Ballarat School of MinesA small illustrated journal with advertisements and pictures. pages 328-356 (and 26 pages of illustrated advertisements). Illustrations include machinery, corn crushers, condensers, chlorination plants. stea, hammers, steam engines, steam pumps, lamps, saw bench, leather belting, casks, barrels, machinery, boiler, cohran and co, birkenhead, stern, cowles syndicate company, electric smelting works, aluminium manufacturing, w t glover and co, rope machine, steam travelling crane, webster wood fibre machine, automatic govenor expansion gear, international exhibition edinburgh, beacon light, air propeller, well boring tools and pumps, cochran and co.'s launch, tug and boat building yard, s.s. jeanette, cochran boiler, cochran and co's boiler shop, stern wheel steamer, s.s. esperanca, cowles syndicate co, milton, w.t. glover & co.'s patent compound rope making machine, bendh drilling machine, steam launch, bicycle, well-boring tools

This book was specially compiled and prepared for the convenient use of mine officials, mining engineers, and students preparing themselves for certificates of competency as mine inspectors or mine foremen.Dark, hard covered book. Contents include arithmetic, weights and measures, Cylinders, Geometry, Mensuration, Surveying, strength and Weight of Materials, wire ropes, chains, Colliery management, precious metals, ventilation, hydrostatics, hydraulics, mine railways, Friction of mine cars, colliery machinery, steam raising, rules for engine drivers, faults, electricity, glossary of Mining terms.mining, coal, metal, colliery, definitions, brook, advertisements

R.M. Serjeant was listed as a mining manager and Joseph Flude as a metallurgist. In 1875 they were both living in Ballarat. The patent number is A.D.1875, 4th March. No 2031. According to the patent the hearth of the furnace is in the form of a cone revolving horizontally. The feed is supplied to the apex of the cone by an archimedian screw. The crown of the furnace comprises a double covering or roof with an intermediate chamber for receiving heated air. The inner covering is pierced to admit of the heated air being brought into contact with the pyrites on the face of the revolving hearth. The discharge of the roasted substance is affected by means of a scraper at the base of the cone. It was claimed that this was a new mode of introducing heated air, and the exclusion of flame during the operation of roasting pyrites. The self-acting charge and discharge of the furnace and the peculiar construction of the hot air chambers, and the use of perforated bricks through which the supply of air is affected were also new. (http://patentsvictoria.net/002031.html) From the Goulburn Herald, 14 September 1878 "A feature connected with the school of mines is the yet unfinished pyrites works. The extraction of the gold from pyrites and the utilization for commercial purposes of other substances connected with pyrites are peculiarly important to Ballarat, because were a simple and inexpensive method devised there are millions and millions of tons of quartz that would then be made remunerative. With this thought in their minds two scientific gentlemen invented the school of mines self-acting rotatory furnace. This, for lack of funds, has not been completed as yet, but the amount in hand for the purpose is daily increasing, and it will eventually be an accomplished fact. It is in contemplation also to erect machinery shops in connection with the school, and it is purposed to con struct a steam-engine to do at once the work of the pyrites treatment and the ma chine room. A model shaft and mine too are being prepared for on the reserve, so that practical mining of the most thorough character may be taught on the ground.'Large indenture on red bordered vellum. The indenture was regarding a patent for the benefit of the Ballarat School of Mines. Letters Patent for an Invention for Roasting Pyrites to be called 'the Ballarat School of Mines self-Acting Pyrites Furnace" to Robery Malachy Serjeant and Joseph Flude. The large document is on a vellum type paper complete with stamps and seal. The document is signed by Acting-Governor William Stawell. Inscriptions and Markings Written on verso: "Date of Patent 4th March 1875 No 2031 Letters Patent for An invention for roasting pyrities to be called "The Ballarat School of Mines Self-acting Pyrities Furnace" to Robert Malachy Serjeant and Joseph Flude Melbourne, Victoriaballarat school of mines, serjeant, r.m. serjeant, robert m. serjeant, flude, joseph flude, patent, barry, redmond barry, rogers, judge rogers, bland, rivett henry bland, john airy, warrington rogers, establishment, indenture, legal, cuthbert, ballarat school of mines trustees, william stawell, john warrington rogers

R.M. Serjeant was listed as a mining manager and Joseph Flude as a metallurgist. In 1875 they were both living in Ballarat. The patent number is A.D.1875, 4th March. No 2031. According to the patent the hearth of the furnace is in the form of a cone revolving horizontally. The feed is supplied to the apex of the cone by an archimedian screw. The crown of the furnace comprises a double covering or roof with an intermediate chamber for receiving heated air. The inner covering is pierced to admit of the heated air being brought into contact with the pyrites on the face of the revolving hearth. The discharge of the roasted substance is affected by means of a scraper at the base of the cone. It was claimed that this was a new mode of introducing heated air, and the exclusion of flame during the operation of roasting pyrites. The self-acting charge and discharge of the furnace and the peculiar construction of the hot air chambers, and the use of perforated bricks through which the supply of air is affected were also new. (http://patentsvictoria.net/002031.html) From the Goulburn Herald, 14 September 1878 "A feature connected with the school of mines is the yet unfinished pyrites works. The extraction of the gold from pyrites and the utilization for commercial purposes of other substances connected with pyrites are peculiarly important to Ballarat, because were a simple and inexpensive method devised there are millions and millions of tons of quartz that would then be made remunerative. With this thought in their minds two scientific gentlemen invented the school of mines self-acting rotatory furnace. This, for lack of funds, has not been completed as yet, but the amount in hand for the purpose is daily increasing, and it will eventually be an accomplished fact. It is in contemplation also to erect machinery shops in connection with the school, and it is purposed to con struct a steam-engine to do at once the work of the pyrites treatment and the ma chine room. A model shaft and mine too are being prepared for on the reserve, so that practical mining of the most thorough character may be taught on the ground.'Letters Patent for an Invention for Roasting Pyrites to be called 'the Ballarat School of Mines Self-Acting Pyrites Furnace' to Robert Malachy Serjeant and Joseph Flude. The large document is on a vellum type paper complete with stamps and seal. The document is signed by Acting-Governor William Stawell.Written on verso: "Date of Patent 4th March 1875 No 2031 Letters Patent for An invention for roasting pyrities to be called "The Ballarat School of Mines Self-acting Pyrities Furnace" to Robert Malachy Serjeant and Joseph Flude Melbourne, Victoriaballarat school of mines, serjeant, r.m. serjeant, robert m. serjeant, flude, joseph flude, richard gibbs, stawell, william stawell, pyrities furnace, philately, statute stamp, seal (victoria), ballarat school of mines self-acting pyrities furnace, ballarat school of mines self-acting pyrites furnace

The Davey Paxman Experimental Steam Engine was purchased as the result of a bequest from Thomas Bath. The 'substantial sum' was used to build an Engineering Laboratory. The Ballarat School of Mines Council minutes of 08 November 1901 record: - Plans for [the] proposed building were submitted ... and ... it was resolved that a temporary building for an Engineering Laboratory be put up.' This laboratory, as an existing building, is first mentioned in the Ballarat School of Mines President's Annual Report of 1901, presented on 28 February 1902, reporting 'the erection of a building 67ft long by 33 ft wide' This report also lists all the equipment that would be accommodated in the Engineering Laboratory, including the experimental steam engine and boiler. The experimental Davey-Paxman steam engine arrived in Ballarat towards the end of 1902. The Engineering Laboratory was opened on 14 August 1903 by His Excellency Sir Sydenham Clarke. This engineering laboratory remained in use till about 1945. By 1944 preparations were under way at the Ballarat School of Mines to expand existing facilities, to be ready for the influx of returned soldiers. A new Heat Engines laboratory was built, this time of brick construction, replacing the previous corrugated-iron shed. In the early stages the steam engine was used to drive an overhead transmission shaft for machinery in the adjacent workshop. Later the steam engine was moved to a space that became the Heat Thermodynamics Laboratory. At the end of 1969 the engine was relocated to the Thermodynamics Laboratory at the then Ballarat Institute of Advanced Education (BIAE) Mt Helen Campus. It was donated to Sovereign Hill in 2006. According to the research of Rohan Lamb in 2001 around five experimental steam engines were made by Davey Paxman, and three of these had similar configuration to the Ballarat School of Mines Steam Engine, however, each of these was also unique with different valve arrangements. The list, which was on a scrap of paper in a folio held in the Essex Archives, confirmed that one was sent to India. The Ballarat steam engine can be dated to late 1901 to early 1902. Zig Plavina was responsible for moving the steam engine to Mount Helen, and worked on it as a technician for many years. He observed the following: * The condenser is driven by the low pressure engine. * The following arrangements are possible: i) the high pressure engine alone, exhausting to atmosphere. Condenser not used, crankshaft flanges not coupled. ii) crankshafts coupled, mains pressure (120 psi) steam supplied to high pressure engine, partially expanded steam delivered to low pressure engine (Tandem operation). Choice available re exhaust steam: either to the condenser or to atmosphere. iii) crankshafts not coupled, reduced pressure steam supplied to low pressure engine. Exhaust steam - either to the condenser or to atmosphere. * Valve arrangement - a choice of Pickering cut-off or throttle governor. On low pressure engine - throttle governor only.Black and white photograph of the Davey Paxman Experimental Steam Engine installed at the Ballarat School of MInes. steam engine, model steam engine, davey paxman, thomas bath, experimental steam engine

The Davey Paxman Experimental Steam Engine was purchased as the result of a bequest from Thomas Bath. The 'substantial sum' was used to build an Engineering Laboratory. The Ballarat School of Mines Council minutes of 08 November 1901 record: - Plans for [the] proposed building were submitted ... and ... it was resolved that a temporary building for an Engineering Laboratory be put up.' This laboratory, as an existing building, is first mentioned in the Ballarat School of Mines President's Annual Report of 1901, presented on 28 February 1902, reporting 'the erection of a building 67ft long by 33 ft wide' This report also lists all the equipment that would be accommodated in the Engineering Laboratory, including the experimental steam engine and boiler. The experimental Davey-Paxman steam engine arrived in Ballarat towards the end of 1902. The Engineering Laboratory was opened on 14 August 1903 by His Excellency Sir Sydenham Clarke. This engineering laboratory remained in use till about 1945. By 1944 preparations were under way at the Ballarat School of Mines to expand existing facilities, to be ready for the influx of returned soldiers. A new Heat Engines laboratory was built, this time of brick construction, replacing the previous corrugated-iron shed. In the early stages the steam engine was used to drive an overhead transmission shaft for machinery in the adjacent workshop. Later the steam engine was moved to a space that became the Heat Thermodynamics Laboratory. At the end of 1969 the engine was relocated to the Thermodynamics Laboratory at the then Ballarat Institute of Advanced Education (BIAE) Mt Helen Campus. It was donated to Sovereign Hill in 2006. According to the research of Rohan Lamb in 2001 around five experimental steam engines were made by Davey Paxman, and three of these had similar configuration to the Ballarat School of Mines Steam Engine, however, each of these was also unique with different valve arrangements. The list, which was on a scrap of paper in a folio held in the Essex Archives, confirmed that one was sent to India. The Ballarat steam engine can be dated to late 1901 to early 1902. Zig Plavina was responsible for moving the steam engine to Mount Helen, and worked on it as a technician for many years. He observed the following: * The condenser is driven by the low pressure engine. * The following arrangements are possible: i) the high pressure engine alone, exhausting to atmosphere. Condenser not used, crankshaft flanges not coupled. ii) crankshafts coupled, mains pressure (120 psi) steam supplied to high pressure engine, partially expanded steam delivered to low pressure engine (Tandem operation). Choice available re exhaust steam: either to the condenser or to atmosphere. iii) crankshafts not coupled, reduced pressure steam supplied to low pressure engine. Exhaust steam - either to the condenser or to atmosphere. * Valve arrangement - a choice of Pickering cut-off or throttle governor. On low pressure engine - throttle governor only. Black and white photograph of an experimental steam engine which was produced for the Ballarat School of Mines. It was designed for experimental purposes, such as testing of efficiency, etc. The laboratory which housed the steam engine was lit with gas lighting. davey paxman experimental steam engine, model steam engine, davey paxman, steam, thomas bath, thermodynamics

The Davey Paxman Experimental Steam Engine was purchased by the Ballarat School of Mines as the result of a bequest from Thomas Bath.The Davey Paxman Experimental Steam Engine was purchased as the result of a bequest from Thomas Bath. The 'substantial sum' was used to build an Engineering Laboratory. The Ballarat School of Mines Council minutes of 08 November 1901 record: - Plans for [the] proposed building were submitted ... and ... it was resolved that a temporary building for an Engineering Laboratory be put up.' This laboratory, as an existing building, is first mentioned in the Ballarat School of Mines President's Annual Report of 1901, presented on 28 February 1902, reporting 'the erection of a building 67ft long by 33 ft wide' This report also lists all the equipment that would be accommodated in the Engineering Laboratory, including the experimental steam engine and boiler. The experimental Davey-Paxman steam engine arrived in Ballarat towards the end of 1902. The Engineering Laboratory was opened on 14 August 1903 by His Excellency Sir Sydenham Clarke. This engineering laboratory remained in use till about 1945. By 1944 preparations were under way at the Ballarat School of Mines to expand existing facilities, to be ready for the influx of returned soldiers. A new Heat Engines laboratory was built, this time of brick construction, replacing the previous corrugated-iron shed. In the early stages the steam engine was used to drive an overhead transmission shaft for machinery in the adjacent workshop. Later the steam engine was moved to a space that became the Heat Thermodynamics Laboratory. At the end of 1969 the engine was relocated to the Thermodynamics Laboratory at the then Ballarat Institute of Advanced Education (BIAE) Mt Helen Campus. It was donated to Sovereign Hill in 2006. According to the research of Rohan Lamb in 2001 around five experimental steam engines were made by Davey Paxman, and three of these had similar configuration to the Ballarat School of Mines Steam Engine, however, each of these was also unique with different valve arrangements. The list, which was on a scrap of paper in a folio held in the Essex Archives, confirmed that one was sent to India. The Ballarat steam engine can be dated to late 1901 to early 1902. Zig Plavina was responsible for moving the steam engine to Mount Helen, and worked on it as a technician for many years. He observed the following: * The condenser is driven by the low pressure engine. * The following arrangements are possible: i) the high pressure engine alone, exhausting to atmosphere. Condenser not used, crankshaft flanges not coupled. ii) crankshafts coupled, mains pressure (120 psi) steam supplied to high pressure engine, partially expanded steam delivered to low pressure engine (Tandem operation). Choice available re exhaust steam: either to the condenser or to atmosphere. iii) crankshafts not coupled, reduced pressure steam supplied to low pressure engine. Exhaust steam - either to the condenser or to atmosphere. * Valve arrangement - a choice of Pickering cut-off or throttle governor. On low pressure engine - throttle governor only.davey paxman experimental steam engine, model steam engine, steam, thermodynamics laboratory, thomas bath, bequest

This little steam boiler has been beautifully built. It could have been used to drive an engine in a small workshop, a boat or launch, or even farming equipment. It is an example of the steam technology and mechanisation of the 19th century. William Cook introduced steam heating in England in the 18th century. Steam combined with pressure was used for powering transport, such as steam engines for trains, and manufacturing, such as steam engines driving manufacturing machines. Steam boilers are still used today as an energy-efficient means of power.This steam boiler would have been suitable to drive a small engine, possibly that of a small boat. Coal was added to the firebox for fuel to heat water in the boiler. It is an example of the power used to drive machinery and equipment in the mid-to-late 19th century. Steam boilers like this one have played a part in the evolution of steam power. Steam engine boiler; vertical cylindrical coal-fired boiler with a black firebox at its base and a dome top. The cylinder's sides and top have brass fittings, inlet and outlet taps. A round opening near the base is covered by an adjustable metal plate that controls the boiler's temperature. The front door of the firebox has two hinges at the base and when the side clips are opened. A shiny brass collar tops the tall chimney. Oak wood planks around the sides of the boiler, and held in place by brass bands with nut and screw fixtures. The boiler stands on a metal and wood frame with a looped handle at the back. An inscription has been noted. Circa 1880. "1948 D/430" flagstaff hill, warrnambool, maritime museum, maritime village, great ocean road, boiler, steam engine, steam boiler, coal fired boiler, vertical boiler, boat boiler, power source, steam driven, engine boiler, steam machine, firebox, steam engine boiler

This is the first edition of the book, printed in 1899. It has since been reprinted with slight corrections in January 1900 and with correction in 1902. It is a text book and reference book based on the study of steam, gas and oil driven machinery of the late 19th and early 20th century. The author, John Perry D. Sc., F.R.S., was born in 1850 and passed away in 1920. He was a Professor of Mechanics and Mathematics in the Royal College of Science, Vice-President of the Institution of Electrical Engineers, and Vice-President of the Physical Society. This book has significance as the First Edition of the book, published in 1899. The book is significant to the history, understanding and evolution of power driven machines. The principles apply to the machinery of the late 19th to early 20th centuries. The Steam Engine and Gas and Oil Engines: a book for the use of students who have time to make experiments and calculations Author: John Perry D.Sc., F.R.S. Publisher: Macmillan & Co Ltd, London Printed by Richard Clay and Sons, Limited, London and Bungay This is the First Edition of the book, printed in 1899 A hard cover book, red linen with black print. The Preface is written by the aughor on 22nd February 1899. The book contains many diagrams and tables as well as having reference numbers on many paragraphs in the chapters.Pencil on front endsheets "SJ 9""Rec. 371 a" Stamped in purple , front endsheet "F. ST. G. D. HOLYMAN" "L.4." Handwritten in ink "Richard G ---- / Liverpool --- P---ye"warrnambool, shipwrecked-coast, flagstaff-hill, maritime-museum, shipwreck-coast, book, the steam engine and gas and oil engines, john perry, reference book, scientific book, steam engines, gas engines, oil engines, combustion engines