Handy hints on cooking using a fuel or slow combustion cooker. In this booklet, briquettes are named as the fuel of choice; issued by the State Electricity Commission of Victoria. Briquette Advisory Service. Includes a variety of recipes, menu ideas and handy hints.Part of a collection of recipe books from Laurence N. Lewis49p. illus. (some col.) Plastic spiral binding.non-fictioncookbooks, recipe books, combustion ovens

The cast iron combustion stove is significant as part of the evolution of domestic cooking. Previously, cooking was mostly carried out in the outdoors on open fires, and later in fireplaces indoors. The cast iron combustion stove is significant as part of the evolution of domestic cooking. Cast iron stoves burn solid fuel such as wood or coal, and are used for cooking and warmth. The stoves have a firebox with a grate where the fuel is burned. The hot air flows through flues and baffles that heat the stove top and the oven. By the 1920s gas cookers were being introduced for domestic use, and by the 1930s electric home cookers were being offered to householders. A vintage cast iron kitchen stove set in the back wall of the Mont De Lancey Slab Kitchen. It has two steel decorative hinged doors with a handle to open and close. There is one pull out metal shelf in each compartment. Between the two doors is a round door which opens to reveal the wood box with a slatted base. This allows the ash and small coals from the fire to fall though to a pull-out tray below to be emptied outside when cooled. There is another lift-out kid to clean the ash and coals underneath.On the chimney plate 'Andrews, Patent Non Pariel' On the front of the stove below the round wood box 'C Andrews Geelong'cooking equipment, cooking stoves, fuel cooking stoves, domestic ovens

Accompanied by article by Kevin Patterson (Nillumbik Historical Society) which explains the use of these blocks as a road surface in the City of Melbourne from the 1880s. The final wood blocks were dismantled in the 1950s and blocks sent to suburban wood yards to be sold as fuel for open fires and combustion heaters.As most of these blocks were sold for fuel, it is unusual to find one surviving. Block of timber cut to size and dipped in tar for use a a road block. wood blocks, paving, melbourne, road surfaces, tar

Depicts Booyoolee Shed, which was built in 1856 and demolished in 1989. View from east side of shed. A modern version of a "stobie" pole can be seen, which was used to carry 240 volt power to shed to drive the overhead, enabling the old combustion engine to be dispensed with. Taken by John Bailey in South Australia at the request of Gael Shannon (former NWM employee).

Wax matches also known as 'strike anywhere' were invented in 1826 by William Newton in England. It consisted of a wax stem with embedded cotton threads and a tip of phosphorus. Cases of various styles were introduced to protect against accidental combustion. This simple but robust metal cylindrical box with close fitting cap made it attractive to soldiers in World War One. Bryant & May was a British company created in the mid-19th century specifically to make matches. In 1901 they acquired the rights to the Swan Vesta process.Match cylinder with press on lid.On cap " Bryant & Mays Wax Vesta London"match, bryant & may

Cast iron stoves burn solid fuel such as wood or coal, and are used for cooking and warmth. The stoves have a firebox with a grate where the fuel is burned. The hot air flows through flues and baffles that heat the stove top and the oven. Before cast iron stoves were invented, cooking and heating were carried out in outdoor open fires, and later, in fireplaces inside the home. In 1642 the first cast iron stove was manufactured in Lynn, Massachusetts, where molten cast iron was poured into a sand mould to make rectangular plates that were then joined together to make a box. Benjamin Franklin invented the more efficient Pennsylvania stove in 1744, and this efficient design is still used today. After the mid-19th century cast iron stoves were produced with burners in different positions, giving varied temperatures, so a wide variety of foods could be cooked at the same time at the most suitable heat, from slow cooking to baking scones. In contemporary times people the new wood-burning stoves had to meet the anti-pollution standards now in place to protect our environment. By the 1920s gas cookers were being introduced for domestic use, and by the 1930s electric home cookers were being offered to householders. PLANET STOVES In August 1925 the firm Cox and Rizzetti, Stove Works, and also Sydney Road, South Melbourne, advertised in the Brunswick and Coburg Leader of November 11, 1925 as "formerly with Harnwell and Sons" and as "specialists in solid cast iron Planet stoves ... which merit an inspection from builders and householders". The firm continued in business and was mentioned as sponsors in the King Island News in 1971. Harnwell and Sons was listed in the Victorian Government Gazette of 1894. It is curious that the firm was mentioned in an article in the Sunrasia Daily of June 14, 1934 titled 'Planet Stoves' as a manufacturer of Planet Stoves. This Planet No 3 stove is an uncommon example of cooking equipment used in kitchens in the early 20th century, as the firebox is above the oven rather than beside it. The cast iron combustion stove is significant as part of the evolution of domestic cooking. Previously cooking was mostly carried out in outdoors in open fires, and later in fireplaces indoors. Cast iron stoves are still used today and have additional features such as thermostats to monitor and maintain temperature, water heating pipes connected, and environmentally approved anti-pollution fittings. Stove; a compact, blackened cast iron combustion cooker, installed within a fireplace and enclosed by bricks on both sides. The upright rectangular stove has a flat top with three round, removable cook plates and a flue connected at the back. The front has three doors with round knob handles; a swing-down firebox door above a sliding ashtray, and two side-hinged oven doors above a sliding opening. Inside on the side walls are two pairs of runners. Behind the pair of doors is an oven with two pairs of rails and two removable metal shelves. The stove has cast inscriptions on the chimney flue and on the front of the right hand side stove door. The model of the stove is The Planet No 3, made in Melbourne.Chimney flue, "[within rectangle] THE / PLANET" Stove door, "(within oval) PLANET / No 3"flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, stove, cast iron stove, combustion stove, wood-burning stove, wood stove, wood oven, solid fuel stove, cooker, the planet, planet, planet no. 3, kitchen equipment, baking, domestic cooking, cooking equipment, food preparation, planet stove, planet cooker, cooking range, slow combustion stove, antique, range cooker, cox and rizzetti, harnwell and sons, melbourne manufacturer

Bushfire behaviour is influenced by many factors including temperature, relative humidity (RH), forest type, fuel quantity and fuel dryness, topography and even slope. Wind has a dominant effect on the Rate of Spread (ROS), as well as fire size, shape and direction. Temperature and relative humidity have major impacts on fuel dryness and therefore upon the availability of fuel for combustion. A thermo-hygrograph measures and records both temperature and humidity. It produces a continuous record by drawing ink traces on a paper chart held in revolving cylinder. Humidity is measured by shortening or lengthening of specially treated horse hair. Temperature is measured by means of a bi-metallic strip. This particular instrument is a seven day recorder. The instrument is driven by clockwork. Thermo-hygrographNegretti & Zambra

This equipment was located in the outpatients department (Philip Block) until September 2021 when it was deemed obsolete by Infection Prevention. Hubert Ingham Clements (1886-1969) was an Australian engineer who established his own engineering business in NSW in 1908 manufacturing combustion engines. He became interested in anaesthesia equipment and from the 1920s Clements worked on improving ether apparatus and manufacturing portable suction machines for use in hospital operating theatres. The latter machines were to earn an unrivalled reputation for reliability; many remained in service over thirty years after their date of production. The business became H. I. Clements & Son when his son William joined the company. (https://adb.anu.edu.au/biography/clements-hubert-ingham-12846)Item is an example of equipment from its time period and is of historic significance.Portable Clements Suction & Pressure Pump built by H I Clements & Son Ltd Consists of motor with attached carry handle, attached pressure regulator, attached disposable drainage cannister with tubing and power cable mounted on a trolley with castors.H I Clements & Son Pty. Ltd. Metal Manufacturing label with: Serial Number 1725FS and SAA Certificate Number BCG/4S/60194 on motor (front side) Ward 11 engraved on motor handle AH Biomedical Engineering orange test due sticker and AH Biomedical blue test sticker (reverse side)suction, clements, portable suction, respiratory, pressure pump, surgical drainage

The 1960 Quadrangle magazine committee were Kelvin Whitford, Bill Heywood, Ken Delayney, Daryl Burt, John Cornish, John McDonald, Ross Gray, and Messrs I. Chisholm and N. Watkins.Salmon coloured soft covered magazine of 46 pages. Contents include: Villiers Internal Combustion Engine, Geelong, School Song, Death of W.J. Paterson, Old Boys Newsletter (Keith Rash), Pine plantation. Robert Champneys, Air Training Corps, Mothers' Club Images include: R. Watson (headmaster), staff, prefects, tennis court, Peter Trezise, Doug Rash, Wong Chik Min, John Gilbert, John McDonald, Ray Bilney, Denis Moy, John Crawley, Roberto Venier, Reijo Karvinen, Cheetham Salt Works; Graeme Cummins, Gerald Kessel, James Colligan, Alan Everett, David Newman, Air Training Corps, Ken Wach, Athletics team, Tunnel Ball Team, Cross Country Team, Basketball Team, Softball Team, Football Team, Swimming team, Cycling Team, Cricket Team, ballarat junior technica school, ballarat school of mines, whitford, watson, paterson, w.j. paterson, george cornell, franklin, tresize, prefects, tennis court, peter trezise, doug rash, wong chik min, john gilbert, john mcdonald, ray bilney, denis moy, john crawley, roberto venier, reijo karvinen, cheetham salt works, graeme cummins, gerald kessel, james colligan, alan everett, david newman, air training corps, ken wach, athletics team, tunnel ball team, cross country team, basketball team, softball team, football team, swimming team, cycling team, cricket team, r. watson, kelvin whitford, bill heywood, ken delayney, daryl burt, john cornish, ross gray, william paterson obituary, ron kirner, keith rash, air training cadets, i. pym, c. antonio, k. woodyatt, b. middleton, a. everett, b. clarke, d. riddiford, i. trembath, j. myers, l. goldsmith, p. chanler, p. edge, s. riddiford, r. cook, j. holt, k. fellows, d. coldicott, douglas rash, g. angow, n. jones, john dellaca, j. angwin, w. scanlon, m. chung, g. holt, r. bilney, w. carey, r. carmichael, b. mckinnon, n. bedggood, r. robinson, c. cunninham, r. grubb, l. skevington, g. cole, w. whiting, ronaldson-tippett, palmer bros, h. dubberley & son, m.b. john and hatersley limited, h.a. davis motor service, alexandria tea rooms

This lamp is typical of lamps used in Welsh Coal Mines. It was purchased from the supplier around mid 1995. The Welsh Miners’ Lamps were ingeniously designed over 180 years ago to alert coal miners to danger. It ensures the burning of a protected flame in the presence of explosive gas, by regulating the necessary supply of atmospheric air, and by allowing the products of combustion to pass through without igniting the gaseous atmosphere. If the atmosphere is so heavily charged that noxious gas enters the lamp, its presence will be indicated by a change in the length and color of the flame, and (unless there are exceptional circumstances), the miner has sufficient warning to secure his safety. (http://www.welshminerslamps.com/info_lamp_personaluse.shtml, accessed 06/05/2015) E. Thomas & Williams, Ltd. mining lamps have been in continuous production since 1860. Cambrian Lamps are approved for use in coal mines where methan gas and oxygem deficinecy are hazards.Solid Brass traditional miners Flame Safety Lamp with Copper Chimney. The base of this lamp is tooled from solid brass because brass does not spark when it hits rock and is therefore the safest metal to use underground. The lamp burns lamp oil (kerosene). R. Thomas and Williams Ltd Makers Aberdare Wales Cambrian No 152897mining lamp, miner's lamp, thomas and williams, wales, welsh, welsh miners lamp, mining, cambrian lampworks, miners flame safety lamps

Bushfire behaviour is influenced by many factors including temperature, relative humidity (RH), forest type, fuel quantity and fuel dryness, topography and even slope. Wind has a dominant effect on the Rate of Spread (ROS), as well as fire size, shape and direction. Temperature and relative humidity have major impacts on fuel dryness and therefore upon the availability of fuel for combustion. A thermo-hygrograph measures and records both temperature and humidity. It produces a continuous record by drawing ink traces on a paper chart held in revolving cylinder. Humidity is measured by shortening or lengthening of a bundle of specially treated human hair. Temperature is measured by means of a laminated bi-metal strip of temperature-sensitive metals which bend differentially with temperature change. The recording drum is driven by clockwork which may be geared for rotation intervals of daily, weekly or monthly periods. This particular instrument is a seven-day recorder. Serial number 10186 which probably dates from about 1960. The chart indicates it was last used in March 1979.Used for bushfire research.Clockwork Thermo-hygrographCasella London 10186 Made in England Research Branch. Forests Commission Orbostbushfire, forests commission victoria (fcv), forest measurement

Portable Compound Engine - Marshall & Son's. Builders Number 48317 Built by Marshall Sons & Co., Ltd., Gainsborough, England (Builder’s Number 48317 of approximately 1908/1909), to the order of Robison Brothers, Engineers, South Melbourne. It was used for operating a pump to supply irrigation water at Robinvale in Northern Victoria. Robison Bros & Co. P/L was founded by James McFarlane Robison and his brothers in 1854, initially as plumbers and coppersmiths, the firm expanded into general engineering, boiler-making and brass, iron and steel founders and became one of Melbourne's most important engineering firms. They constructed railway bridges, gold mining equipment, railway locomotives, pumping stations, brewing vessels, abattoir machinery, amongst much else and including the first turnstiles at the Melbourne Cricket Ground. A portable engine is either a steam engine or an internal combustion engine, that remains in one place while operating (providing power to machinery), and can be easily moved from one work site to another. Mounted on wheels or sometimes skids, it is required to be towed between work sites.Historic - Industrial Portable Compound Engine - steam engine - Marshall & Son's. Marshall & Son's Portable Compound Engine - Builders Number 48317 made of steel Marshall & Son's. Builders Number 48317puffing billy, state rivers and water supply commission of victoria, portable compound engine - marshall & son's., portable compound engine, marshall sons & co., ltd., robison bros & co. p/l

A flat-wick lamp is a simple type of kerosene lamp, which burns kerosene drawn up through a wick by capillary action. A flat-wick lamp has a fuel tank (fount), with the lamp burner attached. Four prongs hold the glass chimney, which acts to prevent the flame from being blown out and enhances a thermally induced draft. The glass chimney needs a "throat," or slight constriction, to create the proper draft for complete combustion of the fuel; the draft carries more air (oxygen) past the flame, helping to produce a smokeless light which is brighter than that produced by an open flame. The lamp burner has a flat wick, usually made of cotton. The lower part of the wick dips into the fount and absorbs the kerosene; the top part of the wick extends out of the wick tube of the lamp burner, which includes a wick-adjustment mechanism. Adjusting how much of the wick extends above the wick tube controls the flame. The wick tube surrounds the wick, and ensures that the correct amount of air reaches the lamp burner. Adjustment is usually done by means of a small knob operating a toothed, metal sprocket bearing against the wick. A paraffin lamp with a green metal base to hold fuel with a side screw to adjust wick length. An opaque white glass shield sits in a metal frame attached to base* moorabbin, bentleigh, cheltenham, pioneers, early settlers, market gardeners, lights, lamps, paraffin, oil lamps

These mid-1960s Peacock and Gold brand lighter fuel hand warmers were used in Falls Creek to keep out the cold. The concept behind the hand warmer is that through combustion (ignition) of lighter fluid (light petrol distillate) it becomes a catalytic heater, relying on a catalysed chemical reaction to break down molecules and create heat. The devices could get quite hot, not hot enough to set paper on fire, but hot enough to give a nasty burn if sustained contact against your skin occurred. The construction of the device is very simple. There is very fine rolled wire mesh which fits on top of the reservoir body. After you fill the reservoir with lighter fluid, vapor pressure builds up. The device ignites by heating the grill with a match or lighter until it glows red. There is no open flame. The hand warmer also had a velvet bag to place it in after igniting to prevent direct skin contact. They were able to generate heat for up to a whole day. The Japanese company Yamato Shokai Ltd was founded in 1923 in the city of Osaka. Destroyed during air raids in 1945, the factory was rebuilt in 1946. They manufactured the Peacock brand pocket-warmer and sold it internationally.These items are significant because they were commonly used at Falls Creek.The pocket warmer is a small, relatively flat device with a tank at the bottom and a burner mechanism a t the top. "PEACOCK/MADE IN JAPAN" is engraved near the burner. The warmer fits into a metal case which features a series of ventilation holes in the shape of a peacock's tail. JAPANESE PAT. 237413.483177 MADE IN JAPANhand warmers, ski equipment 1960s

8HP Blackstone Lamps Start Oil Engine engine number 71076 Engine Details Maximum operating RPM of 240. Fitted with a 3'9" Flywheel Tested on the 6th of November 1908. Shipped to Cluter buck South Australia for installation on concrete base. Recovered and restored during the 80's in South Australia Purchased privately in 2013 in Tailem Bend South Australia and transported to Victoria. Currently on loan to the Puffing Billy Museum at Menzies Creek as an operating exhibit. Blackstone & Co. was a farm implement maker at Stamford, Lincolnshire, United Kingdom. In 1896 they built lamp start oil engines. The Lamp or hot-bulb engine (also hotbulb or heavy-oil engine) is a type of internal combustion engine. It is an engine in which fuel is ignited by being brought into contact with a red-hot metal surface inside a bulb, followed by the introduction of air (oxygen) compressed into the hot-bulb chamber by the rising piston. There is some ignition when the fuel is introduced, but it quickly uses up the available oxygen in the bulb. Vigorous ignition takes place only when sufficient oxygen is supplied to the hot-bulb chamber on the compression stroke of the engine. Most hot-bulb engines were produced as one-cylinder, low-speed two-stroke crankcase scavenged units Historic - Industrial - single cylinder, horizontal, 4 stroke, hot-bulb ignition oil engine Blackstone 8HP Oil Engine made from steel, wrought iron and brassOval Plate with Black Stones and Clutter Buck Brass Plaque engine number 71076blackstone, oil engine, clutter buck, black stone, puffing billy, hit and miss, engine, blackstone & co

Bushfire behaviour is influenced by many factors including temperature, relative humidity (RH), forest type, fuel quantity and fuel dryness, topography and even slope. Wind has a dominant effect on the Rate of Spread (ROS), as well as fire size, shape and direction. Temperature and relative humidity have major impacts on fuel dryness and therefore upon the availability of fuel for combustion. The amount of fine fuel available can increase rapidly from nearly zero when fuel moisture content is more than 16% after rain or a heavy morning dew, to many tonnes per hectare as fuel dries out later in the day and the moisture content drops below 9%. This explosive escalation in the amount of available fuel can happen over a few hours on hot and windy days. This device is used for determining air temperature and relative humidity. It contains two thermometers, one of which is covered with a wick saturated with ambient temperature liquid water. These two thermometers are called dry bulb and wet bulb. Once the thermometers to reach equilibrium temperatures the two thermometers are quickly read. The figures are then used to convert the dry bulb temperature TDB and the wet bulb temperature TWB into humidity information. The wet bulb temperature is approximately equal to the adiabatic saturation temperature. Relative humidity meter in wooden box two stainless steel tubes contain wet and dry thermometers A small clock drives a fan motor in the base to circulate airforests commission victoria (fcv), weather, bushfire

Bushfire behaviour is influenced by many factors including temperature, relative humidity (RH), forest type, fuel quantity and fuel dryness, topography and even slope. Wind has a dominant effect on the Rate of Spread (ROS), as well as fire size, shape and direction. Temperature and relative humidity have major impacts on fuel dryness and therefore upon the availability of fuel for combustion. The amount of fine fuel available can increase rapidly from nearly zero when fuel moisture content is more than 16% after rain or a heavy morning dew, to many tonnes per hectare as fuel dries out later in the day and the moisture content drops below 9%. This explosive escalation in the amount of available fuel can happen over a few hours on hot and windy days. A sling psychrometer is a simple device for determining air temperature and relative humidity. It contains two thermometers, one of which is covered with a wick saturated with ambient temperature liquid water. These two thermometers are called dry bulb and wet bulb. When the sling psychrometer is spun rapidly in the air, the evaporation of the water from the wick causes the wet bulb thermometer to read lower than the dry bulb thermometer. After the psychrometer has been spun long enough for the thermometers to reach equilibrium temperatures, the unit is stopped, and the two thermometers are quickly read. A psychrometric scale on the side of the instrument is then used to convert the dry bulb temperature TDB and the wet bulb temperature TWB into humidity information. The wet bulb temperature is approximately equal to the adiabatic saturation temperature. The thermometers fold back into the plastic handle when not in use. Used to measure temperature and relative humiditySling PsychrometerBACHARACH INSTRUMENTS - Pittsburg PAbushfire, forests commission victoria (fcv)

Used by the Malvern city council until 1969 to drive a rock crushing plant. While large horizontal steam engines predominated in major factories, small vertical steam engines like this were the workhorses of industries that had modest power requirements. This reliable little engine, made by leading UK manufacturer Tangye Bros of Birmingham Steam engines had the advantage that any fuel could be used to fire their boilers, but they were less convenient and efficient than internal combustion engines, required operators with higher skill levels, and had lower power to weight ratios. Tangye Limited was founded in 1857 in Birmingham by businessman Richard Tangye (1833-1906) and his mechanic brothers James and Joseph; brothers Edward and George joined them later. Richard was born near Redruth in Cornwall and educated at the Friends School at Sidcot, Somerset, where he became a pupil-teacher. From there he moved to Birmingham to work as a clerk for an engineering firm. In 1856 he started a hardware factor and commission agent business in Birmingham whose customers were mainly Cornish mine-owners in the Redruth district. From 1858 Tangyes concentrated on the manufacture of machinery and secured the sole right to manufacture Weston's differential pulley block (object 2003/45/1). They established their Cornwall Works in the Birmingham suburb of Smethwick in 1864 and soon developed a huge range of products. It was stated that 'there are perhaps no other works in the kingdom so largely employed upon so great a variety of specialities as the Cornwall Works of Messrs Tangye Bros.' The Tangyes attracted creative people to work for them. They wrote: 'We are in a position to offer unusual facilities to Inventors for carrying out their patents.' Info about Tangye Bros of Birmingham from Powerhouse Museum https://ma.as/207954 Donated by Malvern City Council in 1969 Of Interest : The Vertical and Horizontal Tangye engines on display are of the design that won a Gold Medallion at the Paris Industrial Exhibition of 1878.Historic - Industrial Steam Engine Equipmentsingle cylinder vertical Steam Engine made of Cast Iron, (Painted)Tangye Birmingham Builder's number 2462tangye, vertical steam engine, steam engine, puffing billy, stone crushing, george and george, malvern

The Adlake Non Sweating Lamp "THE ADLAKE NON SWEATING LAMP CHICAGO" Adlake is a shortened name of the "Adams and Westlake" company. They began doing business in 1857 in Chicago. They manufactured railroad supplies and hardware in Chicago. In 1927, they moved to Elkhart, Indiana, where they remain in business today. The difference between "lamp" and "lantern" is that the lamp is meant to be hung on a post or a hook during use and the lantern is hand-held and only used when a person is directing traffic. It has four lenses- two amber and two blue. Adams & Westlake, also known as A&W or Adlake, became a dominant maker of short-globe lanterns and their #200, #250, and plain “Kero” (sometimes known as #300 or #400) models were sold by the thousands to the entire range of railroads. Short-globe lanterns came about because manufacturers figured out how to get a lantern to burn properly with a shorter combustion chamber, which allowed lanterns to be shorter and cheaper. Adams & Westlake began selling #200 Kero lanterns around 1921 and they sold well, the #250 Kero lantern was released in the mid 1920’s as an improvement over the #200 version, with a new burner design. FInally, around 1930 Adams & Westlake released models marked simply “Kero” but are sometimes known as the #300 or #400 models, which are further refinements. The #200, #250, and “Kero” models all look very similar in design and in fact they are all pretty much the same frame design with a couple of minor differences on the later “Kero” models. Short globe lanterns are still very easy to find because they were produced well into the mid 1900s. Adams & Westlake short globe lanterns can usually be dated by looking for a two-part date code on the bottom of the lantern. The first digit will be 1,2,3, or 4 followed by a dash and then a two digit number. Sample code: 2-39 would mean that the lantern was produced in the 2nd quarter (Apr-Jun) of 193Historic - Railways - Adlake Non Sweating LampAdlake Non Sweating Lamp made of metal and glass Metal with handle, painted black, oil Bullseye lens, 13 cm diameter, green Circular lens on opposite site, 5 cm diameter, clear Sliding panel provides access to burner Rain shield embossed 'THE ADLAKE NON SWEATING LAMP' 'LAMP MFG 7 RLY SUPPLIES LONDON''THE ADLAKE NON SWEATING LAMP' 'LAMP MFG 7 RLY SUPPLIES LONDON'puffing billy, adlake non sweating lamp

Before the introduction of electricity, irons were heated by combustion, either in a fire or with some internal arrangement. An "electric flatiron" was invented by American Henry Seely White and patented on June 6, 1882. It weighed almost 15 pounds (6.8 kg) and took a long time to heat. The UK Electricity Association is reported to have said that an electric iron with a carbon arc appeared in France in 1880, but this is considered doubtful. Two of the oldest sorts of iron were either containers filled with a burning substance, or solid lumps of metal which could be heated directly. Metal pans filled with hot coals were used for smoothing fabrics in China in the 1st century BC. A later design consisted of an iron box which could be filled with hot coals, which had to be periodically aerated by attaching a bellows. In the late nineteenth and early twentieth centuries, there were many irons in use that were heated by fuels such as kerosene, ethanol, whale oil, natural gas, carbide gas (acetylene, as with carbide lamps), or even gasoline. Some houses were equipped with a system of pipes for distributing natural gas or carbide gas to different rooms in order to operate appliances such as irons, in addition to lights. Despite the risk of fire, liquid-fuel irons were sold in U.S. rural areas up through World War II. In Kerala in India, burning coconut shells were used instead of charcoal, as they have a similar heating capacity. This method is still in use as a backup device, since power outages are frequent. Other box irons had heated metal inserts instead of hot coals. From the 17th century, sadirons or sad irons (from Middle English "sad", meaning "solid", used in English through the 1800s[4]) began to be used. They were thick slabs of cast iron, triangular and with a handle, heated in a fire or on a stove. These were also called flat irons. A laundry worker would employ a cluster of solid irons that were heated from a single source: As the iron currently in use cooled down, it could be quickly replaced by a hot one. https://en.wikipedia.org/wiki/Clothes_ironThis iron is typical of the clothes iron used before electric irons superseded it.Salter iron no. 6, painted black but with rust showing through. Salter iron no. 6.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, iron, clothes, laundry

A blowtorch or blowlamp is a fuel-burning tool used for applying flame and heat to various applications, usually metalworking. Early blowlamps used liquid fuel, carried in a refillable reservoir attached to the lamp. Modern blowtorches are mostly gas-fuelled. The blowlamp is of ancient origin and was used as a tool by gold and silversmiths. They began literally as a "blown lamp", a wick oil lamp with a mouth-blown tube alongside the flame. This type of lamp, with spirit fuel, continued to be in use for such small tasks into the late 20th century. In 1882, a new vaporizing technique was developed by Carl Richard Nyberg in Sweden, and the year after, the production of the Nyberg blow lamp started. It was quickly copied or licensed by many other manufacturers. Carl Richard Nyberg (May 28, 1858, – 1939) was the founder of Max Sievert’s Lödlampfabrik, then one of the largest industries in Sundbyberg, Sweden. After school he started working for a jeweller and later he moved to Stockholm and worked with various metalworks. 1882 and set up a workshop at Luntmakargatan in Stockholm making blowtorches. However the business didn't work well because it took too long to both manufacture and sell them. In 1886 he met Max Sievert (1849 - 1913) at a country fair and Sievert became interested in Nyberg's blowtorch and started selling it. In 1922 the company was sold to Max Sievert who continued to own it until 1964 when it was bought by Esso. The blowtorch is commonly used where a diffuse high temperature naked flame heat is required but not so hot as to cause combustion or welding: soldering, brazing, softening paint for removal, melting roof tar, or pre-heating large castings before welding such as for repairing. It is also common for use in weed control by controlled burn methods, melting snow and ice from pavements and driveways in cold climate areas, road repair crews may use a blowtorch to heat asphalt or bitumen for repairing cracks in preventive maintenance. It is also used in cooking; one common use is for the creation of the layer of hard caramelised sugar in a crème brûlée. A brass blowtorch, 'Sievert' with a wooden handleSIEVERTtools, blow torches, blow lamps, welding, brazing, jewellery, cookery, soldering, nyberg carl, sievert max, stockholm, sweden, spirit fuel, kerosene, gas fuel, moorabbin, bentleigh, cheltenham, market gardeners, pioneers, early settlers, plumbing, carpenters,

A steam boiler like this late 18th century boiler, is often called a colonial boiler. Steam boilers were used in factories throughout Australia, mounted over similar designs of brick furnaces. This heat from the fire travels through the tubes in this fire tube boiler and the water heats as it 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 shipbuilding. 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, johnson tyne foundry, colonial boiler, fire tube boiler

The Wodonga Historical Society Haeusler Collection provides invaluable insight into life in late nineteenth and early twentieth century north east Victoria. The collection comprises manuscripts, personal artefacts used by the Haeusler family on their farm in Wodonga, and a set of glass negatives which offer a unique visual snapshot of the domestic and social lives of the Haeusler family and local Wodonga community. The Haeusler family migrated from Prussia (Germany) to South Australia in the 1840s and 1850s, before purchasing 100 acres of Crown Land made available under the Victorian Lands Act 1862 (also known as ‘Duffy’s Land Act’) in 1866 in what is now Wodonga West. The Haeusler family were one of several German families to migrate from South Australia to Wodonga in the 1860s. The Schuster family were also of German migrant background. Johannes Edward Schuster was born in Hoyles Plains, South Australia and with his wife Johanna and young family moved to Victoria circa 1882. He took up farming land in Wodonga West. The St John’s Lutheran Church Sunday school hall was erected from part of the proceeds of the sale of some 41 acres of land at Wodonga West, which had been bequeathed to the Wodonga congregation by the late Johannes Edward Schuster. This land was the original home site of the Schuster family on arrival from South Australia. Shearing - Although the first mechanised sheep shearing machine was created by James Higham, from Melbourne in 1868, the use of blade shears were more common well into the early 20th century. Pastoralists on smaller holdings continued to either shear their own sheep or employ blade shearers rather than outlay the cost of machines. In large sheds, professional shearers worked as they travelled the country. They would earn around 17 to 20 shillings per day in the early days of the wool industry. However mechanisation continued and by 1915 most sheep shearing sheds in Australia contained sheep shearing machines. The original machines were powered by steam and later combustion engines were used. This digital image was produced from one of the glass negatives that form part of the collection, probably taken by Louis Haeusler (b.1887) with the photographic equipment in the Wodonga Historical Society Haeusler Collection.This item is unique and has well documented provenance and a known owner. It forms part of a significant and representative historical collection which reflects the local history of Wodonga. It contributes to our understanding of domestic and family life in early twentieth century Wodonga, as well as providing interpretative capacity for themes including local history and social history.Digital image created from the Haeusler Glass negative collection. Harry Schuster shearing sheep using blade shears. wodonga pioneers, haeusler family, glass negatives, dry plate photography, blade shearing, schuster family

Madagascar was a large British merchant ship built for the trade to India and China in 1837 that disappeared on a voyage from Melbourne to London in 1853. The disappearance of Madagascar was one of the great maritime mysteries of the 19th century and has probably been the subject of more speculation than any other 19th-century maritime puzzle, except for the Mary Celeste. Madagascar, the second Blackwall Frigate, was built for George and Henry Green at the Blackwall Yard, London, a shipyard that they co-owned with the Wigram family. A one-eighth share in the vessel was held throughout her 16-year career by her first master Captain William Harrison Walker Walker. Madagascar carried freight, passengers, and troops between England and India until the end of 1852. In addition to her normal crew, she also carried many boys being trained as officers for the merchant marine. Known as midshipmen from naval practice, their parents or guardians paid for their training, and they only received a nominal wage of usually a shilling a month. Due to the Victorian Gold Rush, Madagascar, under the command of Captain Fortescue William Harris, was sent to Melbourne with emigrants. She left Plymouth on 11 March 1853 and, after an uneventful passage of 87 days, reached Melbourne on 10 June. Fourteen of her 60 crew jumped ship for the diggings, and it is believed only about three replacements were signed on. She then loaded a cargo that included wool, rice, and about two tonnes of gold valued at £240,000, and took on board about 110 passengers for London. On Wednesday 10 August, just as she was preparing to sail, police went on board and arrested a bushranger John Francis, who was later found to have been one of those responsible for robbing on 20th July the Melbourne Private Escort between the McIvor goldfield at Heathcote, Victoria and Kyneton. On the following day, the police arrested two others, one on board the ship and the other as he was preparing to board. As a result of these arrests, Madagascar did not leave Melbourne until Friday 12 August 1853. After she left Port Phillip Heads Madagascar was never seen again. When the ship became overdue many theories were floated, including spontaneous combustion of the wool cargo, hitting an iceberg and, most controversially, being seized by criminal elements of the passengers and/or crew and scuttled, with the gold being stolen and the remaining passengers and crew murdered. There have been many rumors as to what happened to Madagascar over the years but what really happened is still a mystery. The lithograph was made around 1950 from an original painting of Madagascar a Vessel with a notorious past and is interesting and a significant item for the ships part in early Victorian history. The picture is it’s self not valuable or can be associated with a significant person in history. The interest lies in the events that are linked to the ship in the mid 19th century.Lithograph of the ship Madagascar, in a wooden frameThe Madagascar East Indiaman 1000 tonsflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, lithograph, the madagascar, east indiaman

Sectioned steam pump so that the pump workings can be seen. Inscriptions & Markings: Tangye Birmingham, This steam pump was presented by the colonial gas Assn Ltd (brass plaque) The Colonial Gas Association was originally formed in London on 2 February 1888, as The Australasian Gas Association Limited. The primary objective of the company was to provide investment capital to help finance the construction and management of gasworks being established by the London engineering firm John Coates & Co in metropolitan cities and regional towns throughout Australia and New Zealand. By 1890, the Australasian Gas Association had acquired gasworks at Benalla, Shepparton, Wangaratta, Warragul, Maldon and Seymour, and had constructed a large gasworks at Box Hill to supply the eastern suburbs of Melbourne. In 1893, the company's name was changed to the Colonial Gas Association Limited. During the 1890s, the company acquired regional gasworks in Queensland, Western Australia and South Australia, followed by its first gasworks in New South Wales, in 1911. In 1914, the company consolidated its metropolitan supply area by purchasing the Oakleigh and Footscray gasworks. Further expansion occurred in the 1920s with the purchase of established gasworks at Williamstown, Frankston and Dandenong and the acquisition of ten further gas undertakings in Queensland and New South Wales, making the firm the fifth largest gas producer in Australia. info from The Colonial Gas Association Limited, circa 1893 https://collections.museumvictoria.com.au/items/1553322 Originally formed by the five Tangye brothers from Cornwall as James Tangye & Brothers in 1857, this Birmingham engineering firm grew to become one of the largest suppliers of jacks, pumps, steam and oil engines, hydraulic presses, gas producers and machine tools in the late 19th and early 20th centuries. The successful sideways launching of I.K. Brunel's 'Great Eastern' from the mud of the Thames in 1857 using Tangyes hydraulic jacks gave the firm much needed publicity and new orders flowed in. To finance expansion, George Price provided additional capital and the company name became Tangye Brothers & Price in 1859. A new factory known as the 'Cornwall Works' was built in Clement Street, Birmingham. In 1872, the firm became Tangye Brothers and in about 1879- 1880 began production of internal combustion stationary engines based on Horace Robinson's patents, later using the Otto four-stroke design for its Soho range of gas engines. Examples of the Soho engine were exhibited by the firm at the 1880 Melbourne International Exhibition. Petrol and oil engines were made from the 1890s onward, and by 1910 had developed into the Model B, BR and AA series engines. Tangyes supplied custom-built pumps and presses for particular applications, becoming a major exporter of engineering equipment. In 1884, Tangye Brothers opened a custom-built branch office, showroom and warehouse in Melbourne at Cornwall House in Collins Street West, advertising the full range of engineering products. These lantern slides images are taken from Tangyes product catalogues from the 1910-1925 period and are believed to have been used as sales promotional aids in Australia by the Tangye Brothers. info from https://collections.museumvictoria.com.au/articles/4670 Historic - Industrial Steam Operated Water Pump built by Tangye Bros and used by the Colonial Gas Company - Melbourne, Victoria, AustraliaSectioned steam pump so that the pump workings can be seen. Tangye Birmingham, This steam pump was presented by the colonial gas Assn Ltd (brass plaque)puffing billy, steam pump, sectioned, tangye bros