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

The most common technique to measure fuel moisture content in Victorian forests until recently was the Speedy Moisture Meter. Originally developed in England during the 1920s for measuring moisture in wheat and other grains it was adapted for Australian forest fuels in the 1950s. Fuel was first ground using a Spong mincer, often attached to the bullbar of a vehicle, and a small sample placed into the Speedy together with a measure of calcium carbide and then sealed. A chemical reaction created gas pressure which was read on the external dial. There were important techniques with cleaning, mincing and using the chemicals with the Speedy to give reliable readings, but it was quick, inexpensive, robust, portable and practical in the field. It was used routinely before igniting a fuel reduction burn or measuring fuel moisture differentials on slash burns. In about 1996, Karen Chatto and Kevin Tolhurst from the Department’s Creswick Research Station developed the Wiltronics Fuel Moisture meter which measured electrical resistance.First reliable tool for measuring bushfire fuel moisture content in the fieldSpeedy Moisture Meter in wooden boxmanufactures marks and instructions on usebushfire, forests commission victoria (fcv)

A description of efforts to fight the bushfires in Gippsland in 2003, including maps and illustrations. This volume was published as a tribute to the work of staff and volunteers who put themselves at risk to protect local communities. It shows the impact on those communities in Victoria and the support they gave to those involved in fighting largest bushfires in Victoria for 60 years. The Alpine bushfires started on 8th January 2003, a day of Total Fire Ban. Lightning ignited 87 fires in the North-East and East Gippsland regions. Eight of these fires were unable to be contained; they joined together to form the largest fire in Victoria since the Black Friday fires in 1939. The majority of the area burnt in Victoria was public land, 1.19 million hectares of parks and forests, including 60 per cent of the Alpine National Park and 81 per cent of the Mt Buffalo National Park. Firefighting efforts were made difficult in hard-to-access, remote forest terrain. Approximately 90,000 hectares of private land was burnt.This book is significant because it documents the 2003 Victorian Bushfires and serves as a tribute to the CFA staff and volunteers who fought them.This publication of 119 pages features text, colour images, maps and detailed information related to the 2003 bushfires in Victoria.At bottom of front cover:- CFA Victoria Logo Victorian Government Logovictorian fires 2003, cfa (vic)

The 'Black Saturday' bushfires were a series of bushfires that ignited across the Australian state of Victoria on and around Saturday, 7 February 2009. It was Australia's worst ever natural disaster. The fires occurred during extreme bushfire-weather conditions and resulted in Australia's highest ever loss of life from a bushfire: 173 people died and 414 were injured as a result of the fires. For most women being part of the Lasting Memories Mosaic Group was a way of reconnecting to the area, friends and neighbours. As the months went by, the idea of creating a gift to the community together was born. The women wanted to artistically express their memories of what they had experienced. Creating a mosaic seat in the heart of St Andrews allowed the group to be 'in control' of building something from the ground up - a symbol of hope, recovery and renewal. All of their experiences and memories have been included into the seat design, which makes it so special. This mosaic seat is proudly positioned outside the St Andrews Hall, which is also the site for the St Andrews market held every Saturday throughout the year.The Lasting Memories Mosaic group began this piece just after the Black Saturday fires in 2009. After the horrific fires ravaged through St Andrews and the surrounding areas, a group of bushfire affected ladies bravely came back to St Andrews to begin their healing in an artistic way. Each woman created something beautiful and meaningful, using remnants of crockery, glass, tiles and bricks salvaged from their own properties. This artworks identifies who they are and tells their personal 'life journey' and family heritage and memories of what they had experienced before, during and beyond Black Saturday. It is also an expression of their love for the St. Andrews area and the nature and people within it. A large concrete seat in the style of an organic chaise lounge covered in mosaic (broken tiles, glass, crockery and ceramics of all shapes and colour). The pieces have been placed to form pictures, words and patterns that tell and recount stories and memories of reflection, hope and love of a group of people who experienced the Black Saturday bushfires. (Click on links to view details of the seat) black saturday, mosaic, art, lasting memories, st andrews, tiles, glass, fire, concrete, cement, chris reade, ekphrasis2017

Victorian Institute of Occupational Safety and Health (VIOSH) Australia is the Asia-Pacific centre for teaching and research in occupational health and safety (OHS) and is known as one of Australia's leaders on the field. VIOSH has a global reputation for its innovative approach within the field of OHS management. VIOSH had its first intake of students in 1979. At that time the Institution was known as the Ballarat College of Advanced Education. In 1990 it became known as Ballarat University College, then in 1994 as University of Ballarat. It was 2014 that it became Federation University. VIOSH Australia students are safety managers, senior advisors and experienced OHS professionals. They come from all over Australia and industry. Students are taught active research and enquiry; rather than textbook learning and a one-size fits all approach. VIOSH accepts people into the Graduate Diploma of Occupational Hazard Management who have no undergraduate degree - on the basis of extensive work experience and knowledge. Dust explosions are the result of high concentrations of combustible dust particles rapidly combusting inside an enclosed space. When mixed with oxygen these fine particles can ignite when in contact with a spark, metal ember, cigarette butt or other source.Wooden box with metal edges on top. Chrome handle and indicator buttons for Power, Air, Compression, Spark. Hinged front section that opens to show contents. Electrical Engineering lecturer Graeme Hood remembers Paul Brass demonstrating this unit to show how dangerous a combination of dust and electricity it. The demonstration would take about 1 minute, and would culminate with a loud bang which would make everyone jump. This item was probably last used by Paul Brass.viosh, victorian institute of occupational safety and health, dust explosion, combustible dust particles, enclosed space, spark, ember, cigarette, oxygen

The origins of the humble handheld driptorch have been lost in time. They are widely used for ignition in controlled burning operations in forest and grasslands. The date, origins and manufacturer of this particular model are unknown. The “Pacific Forester“ with its short central wand and somewhat leaky ball-valve was made by the American Wajax company in the 1940s. The Pacific Forester is slightly different in design from the more robust and common “Panama” driptorch first manufactured in 1933 and used extensively by Queensland cane farmers. The Panama is closely related to the current “Firebug” used in Victoria which is manufactured by Rodney Industries in Brisbane. The fuel is a mixture of petrol and diesel and every FCV District had their own closely-guarded secret formula ... 2:1, 3:1, 1:1, 4:1 or 3:2 ratio. There was also the choice of 91, 95 or 98 octane petrol mixed with summer or winter diesel. Occasionally some of the old Avgas or Jet-A1 lying around the depot was added with a splash of engine oil to make the mixture stick to the fuel to be ignited. The fuel mixed also varied between autumn or spring, heathland, mixed forest, or high-intensity slash burnsEarly driptorch designDrip torch with handle Wand has loop and valve. The loop is designed to assist with even flow of fuel which flows out onto the burning head of the wand. Soldered tin fuel container which holds burner mix. Gravitational feed of the driptorch allows the unit to drip fire, making it simple and quick to operate. bushfire, forests commission victoria (fcv)

The origins of the humble handheld driptorch have been lost in time. They are widely used for ignition in controlled burning operations in forest and grasslands. The “Pacific Forester“ with its short central wand and somewhat leaky ball-valve was made by the American Wajax company in the 1940s. The Pacific Forester is slightly different in design from the more robust and common “Panama” driptorch first manufactured in 1933 and used extensively by Queensland cane farmers. The Panama is closely related to the current “Firebug” used in Victoria which is manufactured by Rodney Industries in Brisbane and has an offset wand design which gives it good balance. The fuel is a mixture of petrol and diesel and every FCV District had their own closely-guarded secret formula ... 2:1, 3:1, 1:1, 4:1 or 3:2 ratio. There was also the choice of 91, 95 or 98 octane petrol mixed with summer or winter diesel. Occasionally some of the old Avgas or Jet-A1 lying around the depot was added with a splash of engine oil to make the mixture stick to the fuel to be ignited. The fuel mixed also varied between autumn or spring, heathland, mixed forest, or high-intensity slash burnsCommon driptorch used throughout AustraliaDrip torch with handle Wand has loop and valve. The loop is designed to assist with even flow of fuel which flows out onto the burning head of the wand. Pressure equalising value in top of aluminum fuel container which holds 4 litres of burner mix. Gravitational feed of the driptorch allows the unit to drip fire, making it simple and quick to operate. Instructions for use. CF+L written with texta pen.bushfire

Used to mince fuel samples to measure moisture content Representative samples of fuel such as bark, leaves, twigs etc were minced and the moisture measured The availability of fuel to burn depends largely on its moisture content. When it exceeds 20-25% not much will burn, whereas 12-15% is generally ideal for fuel reduction burning, but if the moisture content drops as low as 7-10% virtually everything will ignite, and fire behaviour becomes extreme. During the afternoon of the Ash Wednesday bushfires on 16 February 1983 fuel moisture contents were recorded at Stawell as low as 2.7%. Fine fuels like leaves and bark can rapidly absorb moisture after a shower of rain, or from the air when the Relative Humidity (RH) is high, and the temperature is low. Conversely, they can also dry out very quickly. So even though the overall fuel quantity in the forest doesn’t change, the fine fuel availability can increase rapidly from zero after rain to many tonnes per hectare as the fuel dries out. This can happen over a few hours on hot and windy days. Heavy fuels like logs on the ground take longer to dry out. Fuel mincer Made at Altona as an alternative design to the commercial Spong Mincer With wooden plug to push fuel into the mincer and glass jar to collect sampleforests commission victoria (fcv), bushfire, forest measurement

Used to mince fuel samples to measure moisture content Representative samples of fuel such as bark, leaves, twigs etc were minced and the moisture measured The availability of fuel to burn depends largely on its moisture content. When it exceeds 20-25% not much will burn, whereas 12-15% is generally ideal for fuel reduction burning, but if the moisture content drops as low as 7-10% virtually everything will ignite, and fire behaviour becomes extreme. During the afternoon of the Ash Wednesday bushfires on 16 February 1983 fuel moisture contents were recorded at Stawell as low as 2.7%. Fine fuels like leaves and bark can rapidly absorb moisture after a shower of rain, or from the air when the Relative Humidity (RH) is high, and the temperature is low. Conversely, they can also dry out very quickly. So even though the overall fuel quantity in the forest doesn’t change, the fine fuel availability can increase rapidly from zero after rain to many tonnes per hectare as the fuel dries out. This can happen over a few hours on hot and windy days. Heavy fuels like logs on the ground take longer to dry out. Spong No 10 food mincerforests commission victoria (fcv), bushfire, forest measurement

Used to mince fuel samples to measure moisture content Representative samples of fuel such as bark, leaves, twigs etc were minced and the moisture measured The availability of fuel to burn depends largely on its moisture content. When it exceeds 20-25% not much will burn, whereas 12-15% is generally ideal for fuel reduction burning, but if the moisture content drops as low as 7-10% virtually everything will ignite, and fire behaviour becomes extreme. During the afternoon of the Ash Wednesday bushfires on 16 February 1983 fuel moisture contents were recorded at Stawell as low as 2.7%. Fine fuels like leaves and bark can rapidly absorb moisture after a shower of rain, or from the air when the Relative Humidity (RH) is high, and the temperature is low. Conversely, they can also dry out very quickly. So even though the overall fuel quantity in the forest doesn’t change, the fine fuel availability can increase rapidly from zero after rain to many tonnes per hectare as the fuel dries out. This can happen over a few hours on hot and windy days. Heavy fuels like logs on the ground take longer to dry out. Battery operated Fuel mincer. Plugs into 12 volt car cigarette lighter socket Adaption using parts from commercial food processor Made at Altona as an alternative design to the commercial Spong Mincer Glass jar to collect sampleforests commission victoria (fcv), bushfire, forest measurement

Used to mince fuel samples to measure moisture content Representative samples of fuel such as bark, leaves, twigs etc were minced and the moisture measured The availability of fuel to burn depends largely on its moisture content. When it exceeds 20-25% not much will burn, whereas 12-15% is generally ideal for fuel reduction burning, but if the moisture content drops as low as 7-10% virtually everything will ignite, and fire behaviour becomes extreme. During the afternoon of the Ash Wednesday bushfires on 16 February 1983 fuel moisture contents were recorded at Stawell as low as 2.7%. Fine fuels like leaves and bark can rapidly absorb moisture after a shower of rain, or from the air when the Relative Humidity (RH) is high, and the temperature is low. Conversely, they can also dry out very quickly. So even though the overall fuel quantity in the forest doesn’t change, the fine fuel availability can increase rapidly from zero after rain to many tonnes per hectare as the fuel dries out. This can happen over a few hours on hot and windy days. Heavy fuels like logs on the ground take longer to dry out. Adaption of a timber moisture meter made by the FCV radio lab to measure fuelforests commission victoria (fcv), bushfire, forest measurement

Used to measure moisture content by electric current resistance Representative samples of fuel such as bark, leaves, twigs etc were minced and the moisture measured The availability of fuel to burn depends largely on its moisture content. When it exceeds 20-25% not much will burn, whereas 12-15% is generally ideal for fuel reduction burning, but if the moisture content drops as low as 7-10% virtually everything will ignite, and fire behaviour becomes extreme. During the afternoon of the Ash Wednesday bushfires on 16 February 1983 fuel moisture contents were recorded at Stawell as low as 2.7%. Fine fuels like leaves and bark can rapidly absorb moisture after a shower of rain, or from the air when the Relative Humidity (RH) is high, and the temperature is low. Conversely, they can also dry out very quickly. So even though the overall fuel quantity in the forest doesn’t change, the fine fuel availability can increase rapidly from zero after rain to many tonnes per hectare as the fuel dries out. This can happen over a few hours on hot and windy days. Heavy fuels like logs on the ground take longer to dry out. Commercial timber moisture meter used to measure fuelDCR9-Tforests commission victoria (fcv), bushfire, forest measurement

Used to measure fuel moisture content Representative samples of fuel such as bark, leaves, twigs etc were minced and the moisture measured The availability of fuel to burn depends largely on its moisture content. When it exceeds 20-25% not much will burn, whereas 12-15% is generally ideal for fuel reduction burning, but if the moisture content drops as low as 7-10% virtually everything will ignite, and fire behaviour becomes extreme. During the afternoon of the Ash Wednesday bushfires on 16 February 1983 fuel moisture contents were recorded at Stawell as low as 2.7%. Fine fuels like leaves and bark can rapidly absorb moisture after a shower of rain, or from the air when the Relative Humidity (RH) is high, and the temperature is low. Conversely, they can also dry out very quickly. So even though the overall fuel quantity in the forest doesn’t change, the fine fuel availability can increase rapidly from zero after rain to many tonnes per hectare as the fuel dries out. This can happen over a few hours on hot and windy days. Heavy fuels like logs on the ground take longer to dry out. Adaption of a commercial timber moisture meter measure fuelTF 933 Cforests commission victoria (fcv), bushfire, forest measurement

The origins of the humble handheld driptorch have been lost in time. They are widely used for ignition in controlled burning operations in forest and grasslands. The “Pacific Forester“ with its short central wand and somewhat leaky ball-valve was made by the American Wajax company in the 1940s. The Pacific Forester is slightly different in design from the more robust and common “Panama” driptorch first manufactured in 1933 and used extensively by Queensland cane farmers. The Panama is closely related to the current “Firebug” used in Victoria which is manufactured by Rodney Industries in Brisbane and has an offset wand design which gives it good balance. The fuel is a mixture of petrol and diesel and every FCV District had their own closely-guarded secret formula ... 2:1, 3:1, 1:1, 4:1 or 3:2 ratio. There was also the choice of 91, 95 or 98 octane petrol mixed with summer or winter diesel. Occasionally some of the old Avgas or Jet-A1 lying around the depot was added with a splash of engine oil to make the mixture stick to the fuel to be ignited. The fuel mixed also varied between autumn or spring, heathland, mixed forest, or high-intensity slash burnsKerosene drip torch Short wand no valveBCR Holdingsforests commission victoria (fcv), planned burning, bushfire

The origins of the humble handheld driptorch have been lost in time. They are widely used for ignition in controlled burning operations in forest and grasslands. The “Pacific Forester“ with its short central wand and somewhat leaky ball-valve was made by the American Wajax company in the 1940s. The Pacific Forester is slightly different in design from the more robust and common “Panama” driptorch first manufactured in 1933 and used extensively by Queensland cane farmers. The Panama is closely related to the current “Firebug” used in Victoria which is manufactured by Rodney Industries in Brisbane and has an offset wand design which gives it good balance. The fuel is a mixture of petrol and diesel and every FCV District had their own closely-guarded secret formula ... 2:1, 3:1, 1:1, 4:1 or 3:2 ratio. There was also the choice of 91, 95 or 98 octane petrol mixed with summer or winter diesel. Occasionally some of the old Avgas or Jet-A1 lying around the depot was added with a splash of engine oil to make the mixture stick to the fuel to be ignited. The fuel mixed also varied between autumn or spring, heathland, mixed forest, or high-intensity slash burnsKerosene drip torch Long straight wand with control valveBell Backburnerforests commission victoria (fcv), planned burning, bushfire

The origins of the humble handheld driptorch have been lost in time. They are widely used for ignition in controlled burning operations in forest and grasslands. The “Pacific Forester“ with its short central wand and somewhat leaky ball-valve was made by the American Wajax company in the 1940s. The Pacific Forester is slightly different in design from the more robust and common “Panama” driptorch first manufactured in 1933 and used extensively by Queensland cane farmers. The Panama is closely related to the current “Firebug” used in Victoria which is manufactured by Rodney Industries in Brisbane and has an offset wand design which gives it good balance. The fuel is a mixture of petrol and diesel and every FCV District had their own closely-guarded secret formula ... 2:1, 3:1, 1:1, 4:1 or 3:2 ratio. There was also the choice of 91, 95 or 98 octane petrol mixed with summer or winter diesel. Occasionally some of the old Avgas or Jet-A1 lying around the depot was added with a splash of engine oil to make the mixture stick to the fuel to be ignited. The fuel mixed also varied between autumn or spring, heathland, mixed forest, or high-intensity slash burnsKerosene drip torch Long straight wand with control valveBell Backburnerforests commission victoria (fcv), planned burning, bushfire

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

The Canadians developed a machine that used "ping pong balls" instead of cylindrical incendiary capsules, and in 1977 the FCV purchased a Premo machine for evaluation. The balls were made from high impact polystyrene, diameter 32mm containing potassium permanganate in capsule 3.5g. They were injected with 1ml of glycol which would ignite after a short delay The first Premo machine used four slipper blocks, which were loaded via a hand-operated hopper which when rotated forward the balls would be fed into four feed chutes to individual slipper blocks. Each slipper block has an opening allowing individual balls to enter and exit once injected. The original design the machine was not suitable to meet the burning objectives and a number of modification were necessary. Following close inspection and field testing it was clear that utilising four slipper blocks was excessive and would generate too much fire. It was acknowledged that satisfactory spacing’s could be achieved by using just one slipper block. Selective spacing’s could be achieved by the speeding up or slowing down of the slipper block transferring the capsule’s during the injection process. By regulating the speed that the injected capsules are being dropped controls the amount of fire created on the ground. This machine was the result of many years of expermiation at AltonaSignificant development of aerial incendiary machines enabled expansion of the fuel reduction burning program across Victoria.Aerial Incendiary machine for use in helicopters Modification at the Altona workshops over many years by Barry Marsden forests commission victoria (fcv), planned burning, bushfire, bushfire aviation

Owen 'Doc' Matthews is remembered for his spectacular Grand Prix dressage exhibitions with his horse Aintree Boy, performed to music under spotlights at Melbourne Royal Show from 1965-1975. He also performed at smaller country shows. Doc Matthews was born in the Melbourne suburb of Fitzroy in 1923, during the Great Depression. He and his brother Paddy were placed in a foster home and then in a Geelong orphanage before being put to work at a dairy farm. Doc was given an elderly piebald mare to ride, which ignited his passion for horses. When he was 16, he enlisted in World War 2 but captured by the Japanese and ended up working on the Burma Railway, spending years as a prisoner of war in the notorious Changi Prison. Doc joined Victoria Police in 1952 and by 1962 was chief horse master and riding instructor in the mounted branch. He drilled teams to perform musical rides and horses and riders were always turned out to perfection. Doc and Aintree Boy became a partnership after the horse had been used in the mounted branch for four years. Doc decided to try his hand at dressage and as there were few instructors, trained Aintree Boy with nothing to go by but a couple of books and film of a single dressage competition. Owen 'Doc' Matthews was truly a pioneer of Grand Prix dressage in Australia. ( ref. TOPHORSE )Agricultural shows are an important part of cultural life in small country towns and the Orbost Show is an integral part of Orbost 's agricultural history.A square shaped ticket for Orbost Show - Monday, March 10th 1975. It is on white card with blue print.Orbost Wonder Horse "Aintree Boy". Monday, March 10th 1975aintree-boy dressage equestrian matthews-owen

A cigarette lighter is a portable device used to generate a flame. It consists of a metal or plastic container filled with a flammable fluid or pressurized liquid gas, a means of ignition, and some provision for extinguishing the flame. A spark is created by striking metal against a flint, or by pressing a button that compresses a piezoelectric crystal (piezo ignition), generating an electric arc. In naphtha lighters, the liquid is sufficiently volatile, and flammable vapour is present as soon as the top of the lighter is opened. Butane lighters combine the striking action with the opening of the valve to release gas. The spark ignites the flammable gas causing a flame to come out of the lighter which continues until the top is closed (naphtha type), The Beney Company was founded by Robert Ernest Beney of London, England. R. E. Beney invented and marketed the first Beney mechanical lighter in 1919. Beney also designed and manufactured numerous luxury lighters and striker boxes for Alfred Dunhill of London as well as Hermes of Paris. In 1938, Beckenham based Beney Lighters was acquired, adding utility lighters and precision tools to the company's (Winn & Coates) ever growing list of products. The biggest selling line manufactured by Beney was the Economic Gas Lighter which hung on the side of housewife's gas cookers and was also used for lighting Bunsen burners in laboratories. In 1939-1940 the company moved its administration to the Beney Lighter premises in Beckenham after the Head Office at Trinity Square along with many company records were destroyed in a 'doodlebug' flying bomb attack. Beney Ltd. continued producing lighters at least through the late 1954. A green metal cigarette lighter that used fuel and a striking action arm to produce a flame .base: BENEY / COMPANION / PATENT 568897 / BRITISH MADEtobacco, cigarettes, cigarette lighters, fuels, moorabbin, cheltenham, bentleigh, early settlers, beney pty ltd, beckenham england

Bushfire behaviour is influenced by many things including temperature, relative humidity, forest type, fuel quantity and fuel dryness, topography and even slope. Wind has a dominant effect on the Rate of Spread (ROS), and also bushfire size, shape and direction. Fuel arrangement is as important as fuel quantity (tonnes/ha). Fibrous and ribbon bark, together with elevated and near-surface scrub fuels act as ladders which lead flames into the tree canopy. But the availability of fuel to burn depends largely on its moisture content. When it exceeds 20-25% not much will burn, whereas 12-15% is generally ideal for fuel reduction burning, but if the moisture content drops as low as 7-10% virtually everything will ignite, and fire behaviour becomes extreme. During the afternoon of the Ash Wednesday bushfires on 16 February 1983 fuel moisture contents were recorded at Stawell as low as 2.7%. Fine fuels like leaves and bark can rapidly absorb moisture after a shower of rain, or from the air when the Relative Humidity (RH) is high, and the temperature is low. Conversely, they can also dry out very quickly. So even though the overall fuel quantity in the forest doesn’t change, the fine fuel availability can increase rapidly from zero after rain to many tonnes per hectare as the fuel dries out. This can happen over a few hours on hot and windy days. Heavy fuels like logs on the ground take longer to dry out. Since the 1930s foresters, firefighters and researchers have been working to develop quick and reliable techniques for measuring fuel moisture content. One of the most accurate methods is slowly drying a sample of fuel in a conventional oven for 24-48 hours to remove all the moisture and measuring the weight difference, but this takes time and is not practical in the field when rapid measurements are needed. But oven drying is often used as a benchmark to compare other methods. Microwave ovens are faster but can cause uneven drying and even char the fuel. They are also not very practical for use in the field. Some mathematical models rely on weather records such as rainfall, wind speed, evaporation, cloud cover, shading, relative humidity, slope, aspect and season of the year to predict soil and fuel moisture. The Keetch-Byram Drought Index of soil dryness is the most common. But complex fuels with leaves, twigs, grass etc make the predictive models often inadequate for fine fuels. The most common technique in Victorian forests until recently was the trusty Speedy Moisture Meter. Originally developed in England during the 1920s for measuring moisture in wheat and other grains it was adapted for Australian forest fuels in the 1950s (I think). Fuel was first ground using a spong mincer, often attached to the bullbar of a vehicle, and a small sample placed into the Speedy together with a measure of calcium carbide and then sealed. A chemical reaction created gas pressure which was read on the external dial. There were important techniques with cleaning, mincing and using the chemicals with the Speedy to give reliable readings, but it was quick, inexpensive, robust, portable and practical in the field. It was used routinely before igniting a fuel reduction burn or measuring fuel moisture differentials on slash burns. But in about 1996, Karen Chatto and Kevin Tolhurst from the Department’s Creswick Research Station developed the Wiltronics Fuel Moisture meter which measured electrical resistance. Wiltronics is an Australian owned company operating from Ballarat. The final result was a kit that was portable, accurate and could reliably measure fuel moisture contents between 3% and 200%. Although expensive, it is now widely used by fire agencies around the world which has virtually relegated the Speedy to the back cupboard.Prototype Fuel moisture meterT-H Fine Fuel Meterforests commission victoria (fcv), bushfire, forest measurement

A Brief History Of Mabie Todd Ltd The company originated in America from the beginnings during the 1860s when a Mr. Todd and a Mr. Mabie began making pencil cases and pen holders in New York. Later they were joined by the Bard Brothers who made Gold nibs and by 1873 the company of Mabie Todd and Bard were established in New York. By 1878 the first patent was filed for the design and manufacture of a fountain pen, achieved under the design leadership of one William Washington Stewart. The first Swan fountain pen followed just 6 years later in 1884 with an over-under feed with ink delivery assisted by a twisted silver wire. This same year an office had been established in the UK with a showroom in Cheapside, London. The UK was being supplied with a steadily increasing supply of pens from New York and by 1905 new, larger showrooms were established in High Holborn. By this time the Swan pen had become synonymous with fountain pens at large. In 1906 the name of Bard was dropped in the US and the UK company subsequently adopted the title Mabie Todd & Co. New York. In 1907 British production began, using imported nibs from New York and whilst the company in the UK flourished, the business in the US started to diminish under stiff competition from new manufacturers.. By 1915 manufacturing was doing well in England from a factory in Weston Street, London and the New York company agreed to sell the rights to all European and Colonial business to Mabie Todd & Company Ltd of England. From then onwards, the development of the range mostly followed, rather than led the interests of the markets they were supplying. Even during the First World War the business continued to flourish. with factories in both London and Liverpool. At the end of 1919 a new expansion plan saw the establishment of a new Headquarters in Oxford Street, London. Throughout this period, some components were continuing to be imported from America, but gradually these diminished and during the 20s and 30s manufacturing facilities were expanded and by the end of the 1930s Mabie Todd were in full production, manufacturing pens in its London factory, gold nibs in Birmingham and ink in Liverpool. Another new headquarters grew out of this period of abundance and market domination. when in 1936 they moved into Sunderland House in Mayfair, London, a highly prized mansion building. Disaster struck early in the Second World War. Its prestigious Sunderland House headquarters was destroyed during the blitz, followed by destruction of its main factory in Harlesden, North London. Some machinery was saved and able to be used at another factory premises in the City, but like many other 'non essential' manufacturing, the main production was centred on wartime components such as rocket fuses and ammunition. After The War, in 1945 they moved out of their City premises to Park Royal and eventually in 1946 proper fountain pen production was resumed. In 1948 the company decided to go public. But at the time they had no plans to enter into the market for the now growing interest in ballpoint pens, the result was the beginning of their slide into obscurity and subsequent demise. They became Biro Swan in 1952 following a large share purchase by Biro Pens. Even though at this time they had just launched their new high profile Calligraph range to join the competition for the new market associated with a craze for italic writing, fountain pen manufacture under the new company was to suffer a lack of real support. The restyled ranges of 1956 failed to ignite market interest and with diminishing quality, the end of the Mabie Todd story was inevitable. After 80 years of Swan pens, the book was closed.This bottle of ink would have been supplied to schools. After a child was deemed old enough to progress from just using slate and board, he/she would have been supplied with a pen shaft made of wood and with a very basic metal nib. The ink bottle would be used to fill up the individual inkwells. This operation would have been conducted by the teacher him/herself, or by an older pupil under the close eye of the teacher.Ink bottle clear glass with 'Swan Ink' paper label. Has rusted screw on top & black ink inside.Label has 'Mabel Todd' manufacturer's logo at top,; 'Swan Ink' name clearly shown; 'Made in England' printed clearly; and 'Mable Todd & Co Ltd, London & Liverpool' printed at base of label.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, ink, bottle, mabie todd ltd

This is a SPRA, or Schermuly’s Pistol Rocket Apparatus. The large firearm type pistol would have been used to throw a line between ships, usually in the event of saving lives. The line throwing pistol consists of a long barrel with handle attached, a pistol grip and trigger, which fires a short blank cartridge. Accessories for the pistol included: flares, 12 gauge adaptor (to shoot 12 gauge flares), a wood plunger, and boxes of faked line. The stamp on the handle, Crown over "NP" is a Birmingham Proof House mark that dates the pistol between 1904 and 1954. However Schermuly's line throwing pistol was invented in the 192s and used on British Naval Ships from 1929. The serial number '22507' is only 806 numbers later than one on sale as a British Military WWII issue SRPA '21701'. This pistol appears to be made 125-1945. The apparatus was used as a life saving device for crew and passengers on vessels in distress that were only a few hundred metres from shore, often eliminating the need to launch a boat and risk lives to go out to the vessel in dangerous conditions. It could also be used from ship to ship rescue. The pistol would launch a line from shore to the vessel. The line would be attached to the vessel, then shore crew would send out equipment, including a breeches buoy, in which the stranded people could be pulled to shore. It has saved many lives at sea. The cartridge is loaded into the breech of the pistol and the rocket is inserted into the muzzle. On pulling the trigger, the gases generated by the fired cartridge eject the rocket on its correct line of flight, and at the same time, burst through the waterproof disc and ignite the propellant mixture, which carries the rocket and line on the remainder of the flight. The rocket consists of a weldless steel case filled with propellant mixture sealed in by a waterproof disc. Fixed to the rocket case is a direction bridle, to the end of which a short length of flexible steel wire is attached, this in turn being connected to the end of the line to be thrown. A complete rocket set, or line throwing kit. would include a wood carrying case, two coils of faked line in separate compartments, three rockets and a can of six cartridges. William Schermuly (1857 – 1929) - Founder of the Schermuly business. In 1897 he invented a trough-fired, line throwing apparatus. In 1920 he and his third son, Alfred James Schermuly, invented the pistol rocket apparatus and promoted this overseas during the 1920s. The system was approved by the British Navy in 1929 through an Act of Parliament, which made it compulsory for ships over 500 tons to carry this equipment. The company, Schermuly Pistol Rocket Apparatus Ltd., grew quickly during and after World War II but business eased off during the 1970s before it eventually closed in the 1990s. Saving lives in Warrnambool – The coastline of South West Victoria is the site of over 600 shipwrecks and many lost lives; even in Warrnambool’s Lady Bay there were around 16 known shipwrecks between 1850 and 1905, with eight lives lost. Victoria’s Government responded to the need for lifesaving equipment and, in 1858, the provision of rocket and mortar apparatus was approved for the lifeboat stations. In 1859 the first Government-built lifeboat arrived at Warrnambool Harbour and a shed was soon built for it on the Tramway Jetty, followed by a rocket house in 1864 to safely store the rocket rescue equipment. In 1878 the buildings were moved to the Breakwater (constructed from 1874-1890), and in 1910 the new Lifeboat Warrnambool arrived with its ‘self-righting’ design. For almost a hundred years the lifesaving and rescue crews, mostly local volunteers, trained regularly to rehearse and maintain their rescue skills. They were summoned when needed by alarms, gunshots, ringing bells and foghorns. In July 1873 a brass bell was erected at Flagstaff Hill specifically to call the rescue crew upon news of a shipwreck. Some crew members became local heroes but all served an important role. Rocket apparatus was used as recently as the 1950s. This line-throwing pistol is part of he Rocket Launching Equipment used to perform life-saving rescue at sea from the 1920s. It is significant for its connection with local history, maritime history and marine technology. Lifesaving has been an important part of the services performed from Warrnambool's very early days, supported by State and Local Government, and based on the methods and experience of Great Britain. Hundreds of shipwrecks along the coast are evidence of the rough weather and rugged coastline. Ordinary citizens, the Harbour employees, and the volunteer boat and rescue crew, saved lives in adverse circumstances. Some were recognised as heroes, others went unrecognised. In Lady Bay, Warrnambool, there were around 16 known shipwrecks between 1850 and 1905. Many lives were saved but tragically, eight lives were lost.Pistol, line-throwing, SPRA (Schermuly's Pistol Rocket Apparatus). This line throwing pistol has a wooden pistol grip, brass trigger mechanism, and a long, wide, steel barrel with Bakelite handle attached to the top. Inscriptions are stamped onto the pistol.Stamped on handle: "5" and "[symbol of a Crown] above NP" , "22507", "[within oval] SPRA" Stamped on barrel: "L22507".gun, pistol, flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, flagstaff hill maritime village, great ocean road, line throwing, line throwing pistol, spra, schermuly's pistol rocket apparatus, sea rescue, pyrotechnicks, marine technology, schermuly pistol rocket apparatus ltd., william schermuly, alfred schermuly, pistol line thrower, flagstaff hill maritime museum and village, maritime village, lady bay, warrnambool harbour, port of warrnambool, shipwreck, life-saving, lifesaving, rescue crew, rescue, rocket rescue, rocket crew, beach rescue, line rescue, rescue equipment, rocket firing equipment, rocket rescue equipment, maritime accidents, shipwreck victim, rocket equipment, rescue boat, lifeboat, volunteer lifesavers, volunteer crew, life saving rescue crew, lifesaving rescue crew, rocket apparatus, rocket rescue method, shore to ship, rocket apparatus rescue, stranded vessel, line throwing mortar, rocket rescue apparatus, line thrower, lifeboat warrnambool, rocket machine, rocket head, rocket launcher, rocket line, beach rescue set, rocket set, schermuly, line-firing pistol, line throwing gun, pistol rocket apparatus, line throwing cartridge, line-throwing rocket, firearm, life saving, lsrc

This rocket launching machine is used in conjunction with the Dennett Rocket Set. Both are part of the rocket rescue equipment that launches the line-throwing rescue rockets. A light line is threaded through the carved holes in the 8 foot long shaft and attached to the scribed channel at the base of the shaft. The rocket head is fitted to the shaft and inserted into the machine. The machine is set at an angle determined by the person in charge of the rescue crew, and the legs and base of the machine are adjusted accordingly with the use of the quadrant, or protractor, and plumb-bob on the side of the machine. The rocket is then ignited and fired across the vessel in distress. John Dennett - John Dennett was from Carisbrooke, in the Ilse of Wight, UK. In 1826 he invented, patented and demonstrated an improved method of rocket powered, line firing rescue equipment for saving lives. The rockets had a longer range than the mortars being used, they were lighter, needed less preparation time, only needed one line for repeated shots, and fewer people were needed to move the equipment. Very favourable reports of Dennett’s rockets were received by those in charge of His Majesty’s Naval and Military services. In 1832, Dennett’s rocket-thrown line was sent out to the wreck of the ‘Bainbridge’, and was responsible for nineteen survivors coming ashore in two boatloads, along the fired line. Dennett’s rocket received national fame, and a one-year contract to supply rockets to the Coastguards. He became known as ‘Rocket Man’ and his rockets were used in rescues at least until 1890, when his son Horatio was running the business. A rocket weighing 23 lb would have a range of about 250 yards (228 metres), on average. Saving lives in Warrnambool – The coastline of South West Victoria is the site of over 600 shipwrecks and many lost lives; even in Warrnambool’s Lady Bay there were around 16 known shipwrecks between 1850 and 1905, with eight lives lost. In 1859 the first Government-built lifeboat arrived at Warrnambool Harbour and a shed was soon built to house it. In 1858 the provision of rocket and mortar apparatus was approved for lifeboat stations in Victoria, and in 1864 a rocket house was built to safely store the rocket rescue equipment. In 1878 the buildings were moved to the Breakwater area, and in 1910 the new Lifeboat Warrnambool arrived with its ‘self-righting’ design. For almost a hundred years the lifeboat and rocket crews, mostly local volunteers, trained regularly to maintain their rescue skills. They were summoned when needed by alarms, gunshots, ringing bells and foghorns. Some became local heroes but all served an important role. By the end of the 1950s the lifeboat and rescue equipment had become obsolete. Rocket Rescue Method - The Government of Victoria adopted lifesaving methods based on Her Majesty’s Coast Guard in Great Britain. It authorised the first line-throwing rescue system in 1858. Captain Manby’s mortar powered a projectile connected to rope, invented in 1808. The equipment was updated to John Dennett’s 8-foot shaft and rocket method that had a longer range of about 250 yards. From the 1860s the breeches buoy and traveller block rocket rescue apparatus was in use. It was suspended on a hawser line and manually pulled to and from the distressed vessel carrying passengers and items. In the early 1870s Colonel Boxer’s rocket rescue method became the standard in Victoria. His two-stage rockets, charged by a gunpowder composition, could fire the line up to 500-600 yards, although 1000 yards range was possible. Boxer’s rocket carried the light line, which was faked, or coiled, in a particular way between pegs in a faking box to prevent twists and tangles when fired. The angle of firing the rocket to the vessel in distress was measured by a quadrant-type instrument on the side of the rocket machine. Decades later, in about 1920, Schermuly invented the line-throwing pistol that used a small cartridge to fire the rocket. The British Board of Trade published instructions for both the beach rescue crew and ship’s crew. It involved setting up the rocket launcher on shore at a particular angle measured by the quadrant, inserting a rocket that had a light-weight line threaded through its shaft, and then firing it across the stranded vessel, the line issuing freely from the faking board. A tally board was then sent out to the ship with instructions in four languages. The ship’s crew would haul on the line to bring out the heavier, continuous whip line, then secure the attached whip block to the mast or other sturdy part the ship. The rescue crew on shore then hauled out a stronger hawser line, which the ship’s crew fixed above the whip block. The hawser was then tightened using the block on the shore end of the whip. The breeches buoy and endless whip are then attached to the traveller block on the hawser, allowing the shore crew to haul the breeches buoy to and from the vessel, rescuing the stranded crew one at a time. This rocket launcher machine is significant for its connection with local history, maritime history and marine technology. Lifesaving has been an important part of the services performed from Warrnambool's very early days, supported by State and Local Government, and based on the methods and experience of Great Britain. Hundreds of shipwrecks along the coast are evidence of the rough weather and rugged coastline. Ordinary citizens, the Harbour employees, and the volunteer boat and rescue crew, saved lives in adverse circumstances. Some were recognised as heroes, others went unrecognised. In Lady Bay, Warrnambool, there were around 16 known shipwrecks between 1850 and 1905. Many lives were saved but tragically, eight lives were lost.Rocket launcher, named a Rocket Machine, and storage box. Launcher has a long open metal channel with a spike at the base, and narrow, rectangular device, which is the line-firing rocket machine, at the top, all painted blue. Two hinged wooden legs are attached where the channel and machine meet. The side of the machine has an oval cut-out window and an attached quadrant, or protractor, with a plumb-bob on it. The quadrant has angles marked in degrees. The long protective box has white stencilled letters along the side. Its lid has three hinges and is fastened with two metal latches.On box “ROCKET MACHINE” On quadrant “10” “20” “30” “40”flagstaff hill maritime museum & village, flagstaff hill, maritime museum, maritime village, warrnambool, great ocean road, shipwreck, life-saving, lifesaving, rescue crew, rescue, rocket rescue, maritime accidents, shipwreck victim, rocket crew, beach rescue, line rescue, rescue equipment, rocket firing equipment, rocket rescue equipment, rocket apparatus, beach apparatus, petticoat breeches, breeches buoy, rocket house, rocket shed, lifeboat men, rocket equipment, rocket machine, rocket head, rocket launcher, rocket line, marine technology, william schermuly, line-firing pistol, line throwing gun, schermuly pistol, pistol rocket apparatus, beach rescue set, traveller, block, running block, pulley, hawser, faking, faking box, faked line, rescue boat, lifeboat, lady bay, warrnambool harbour, port of warrnambool, tramway jetty, volunteer lifesavers, volunteer crew, breakwater, lifeboat warrnambool, rocket rescue method, rocket rescue apparatus, captain manby, mortar, henry trengrouse, sky rocket, john dennett, shore to ship, colonel boxer, two-stage rocket, italian hemp, quadrant, protractor, schermuly, line-throwing pistol, line throwing cartridge, rocket apparatus rescue, stranded vessel, tally board, light line, whip line, endless whip, petticoat buoy, traveller chair, traveller block, her majesty’s coast guard, harbour board, line thrower, line throwing, beach cart, hand barrow, sand anchor, hawser cutter, life jacket, faking board, welsh hand barrow, rocket set

A postcard in a series produced by the Rose Stereograph Company in Victoria, Australia as a souvenir of Marysville.A black and white photograph showing a panoramic view from Wych Cross which was a guesthouse in Marysville. The Wych Cross Private Guesthouse was part of the Wych Cross Private Hotel Co. Ltd of which Mr. Felix Jellicoe was Managing Director at the time. The guesthouse burnt down in a fire on the 14th of November, 1926. This fire started in the kitchen where it was soon extinguished by one of the employees. However, it is believed that sparks from the earlier fire, which were not noticed at the time, ignited the second fire which destroyed the weatherboard guesthouse in 20 minutes. Guests who were staying at the guesthouse were all away from the premises at the time of the fire and lost all their belongings; including one guest who lost a considerable sum of money.POST CARD REAL PHOTO/ THE "ROSE" SERIES DE LUXE PRODUCED IN AUSTRALIA Published by "The Rose Stereographs"/ Armadale, Victoria. "Sunnyside"/ Marysville/ 18/12/26 Dear Mr & Mrs De La Rue/ Just a line/ or two in which to convey the very/ best of good wishes. A very happy/ Christmas and Happy New Year/ to you and your family./ Yours sincerely Mrs. & Miss Newman. wych cross, marysville, victoria, p. 4959, rose series postcard, postcard, souvenir, wych cross hotel co ltd, felix jellicoe, guest house, 14th november 1926

This photograph, in late 1950s, shows an Alpine Fire Prevention technique of "burning off" low levels of scrub to reduce the level of available fuel against any possible summer bush fires. The Alpine regions accumulate high levels of potential fuel (undergrowth and small shrubs) which if not reduced has the potential of breaking into a dangerous bush fire. The men in this photograph are not wearing any protective clothing. Their visibility to other firefighters is severely reduced by smoke. This photo is a snap shot in time when Occupational Health and Safety Legislation was in its infancy stage.This photograph details the fire prevention activities in the Victorian Alps under the management of the SEC Victoria. The level of undergrowth within the Australian bush needs to be kept under control to avoid the possibility of lightning strikes (during summer storms) igniting dry forests resulting in a major bush fire. Controlled fires within alpine regions are required not only to reduce the level of dry undergrowth but also to provide those various plant species requiring fire for regenerate. This method was used by the original inhabitants (Aborigines) as limited scrub fires were used to flush game and bird population for eating with the side benefit to those plants requiring the fire for regeneration.This black and white photograph shows an Alpine Fire Prevention technique of "burning off" low levels of scrub. The photograph is on 200gsm paper but it is not photographic paper. It can be assumed that the photo is not the original but a copy. alpine fire prevention, sec fire prevention

This photograph, from the 1950s, shows an Alpine Fire Prevention technique of "burning off" low levels of scrub to reduce the level of available fuel against any possible summer bush fires.The Alpine regions accumulate high levels of potential fuel (undergrowth and small shrubs) which if not reduced has the potential of breaking into a dangerous bush fire. The men in this photograph are not wearing any protective clothing. Their visibility to other firefighters is severely reduced by smoke. This photo is a snap shot in time when Occupational Health and Safety Legislation was in its infancy stage.This photograph details the fire prevention activities in the Victorian Alps under the management of the SEC Victoria. The level of undergrowth within the Australian bush needs to be under control to avoid the possibility of lightning strikes (during summer storms) igniting dry forests resulting in a major bush fire. Controlled fires within alpine regions are required not only to reduce the level of dry undergrowth but also to provide those various plant species requiring fire for regenerate. This method was used by the original inhabitants (Aborigines) as limited scrub fires were used to flush game and bird population for eating with the side benefit to those plants requiring that fire for regeneration.This black and white photograph shows an Alpine Fire Prevention technique of "burning off" low levels of scrub. The photograph is on 200gsm paper but it is not photographic paper. It can be assumed that the photo is not the original but a copy produced by the SEC Vic. See also KVHS 0413 and KVHS 0414 for other similar photos.kiewa valley tourism, victorian alps, alternate energy supplies, alpine population growth

This photograph, in late 1950s, shows an Alpine Fire Prevention technique of "burning off" low levels of scrub to reduce the level of available fuel against any possible summer bush fires. The Alpine regions accumulate high levels of potential fuel (undergrowth and small shrubs) which if not reduced has the potential of breaking into a dangerous bush fire. The men in this photograph are not wearing any protective clothing. Their visibility to other firefighters is severely reduced by smoke. This photo is a snap shot in time when Occupational Health and Safety Legislation was in its infancy stage.This photograph details the fire prevention activities in the Victorian Alps under the management of the SEC Victoria. The level of undergrowth within the Australian bush needs to be kept under control to avoid the possibility of lightning strikes (during summer storms) igniting dry forests resulting in a major bush fire. Controlled fires within alpine regions are required not only to reduce the level of dry undergrowth but also to provide those various plant species requiring fire for regenerate. This method was used by the original inhabitants (Aborigines) as limited scrub fires were used to flush game and bird population for food, with a side benefit to those plants requiring the fire for regeneration.This black and white photograph shows an Alpine Fire Prevention technique of "burning off" low levels of scrub. The photograph is on 200gsm paper but it is not photographic paper. It can be assumed that the photo is not the original but a copy. See also KVHS 0413 and KVHS 0415 for other similar photos.kiewa valley tourism, victorian alps, alternate energy supplies, alpine population growth