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Bharat Patel Tanzania Pvt Ltd, a known business group under Mitul Patel in Tanzania, managed by a team of professionals, has made significant progress since its inception in 1976. The group with many missions has successfully maintained consolidated diversity, focus on profitability and nobility of action.
The critical ingredient is getting off your butt and doing something. It’s as simple as that. A lot of people have ideas, but there are few who decide to do something about them now. Not tomorrow. Not next week. But today. The true entrepreneur is a doer, not a dreamer
Noble’s work culture is based on trust, openness and the commitment to growth. We are passionate about success and strive to deliver exceptional results. The group identifies each and every one of its employees as an achiever who will make a difference. Our employees get an opportunity free of intimidation and rigid pecking orders in the belief that free will stimulates initiative. The management style is flexible and adaptive. Initiatives are implemented with sincerity and commitment. Diversity is understood and accepted. There is a mutual respect for various ethnic cultures.
Jeetu Patel Tanzania a known business group under Mitul Patel in Tanzania, managed by a team of professionals, has made significant progress since its inception in 1976. The group with many missions has successfully maintained consolidated diversity, focus on profitability and nobility of action.
“KARIBU” is Swahili for “welcome“, and is the first friendly word most visitors will hear on arriving in Tanzania. Situated in East Africa, bordering Kenya & Uganda, Tanzania is legendary for its wildlife, mountains, sandy white beaches, friendly people and political stability. While on safari in Tanzania there is something to do for all ages; you can either go snorkelling or scuba diving off the coasts of mainland Tanzania and the islands of Zanzibar, Pemba and Mafia; climb the highest peak in Africa; visit a cultural village to learn about the fascinating Maasai; go fishing in ancient freshwater lakes, discover the unique wilderness sanctuaries where huge herds of animals can be seen; or honeymoon in a romantic villa on pristine white beaches. And these are only a few of the options mentioned available for visitors to do!
As the tag line ‘One Group, many Missions’ signify, the group has invested in diverse fields so as to fulfill different missions.
Tanzania boasts of national parks, game reserves and conservation areas where countless animals, birds and insects are to be found. In the west, bordering Lake Tanganyika, discover the Mahale Mountains National Park and Gombe Stream National Park, home to the chimpanzees, made famous by British explorer Jane Goodall.
Whatever the mind of man can conceive and believe, it can achieve. Thoughts are things! And powerful things at that, when mixed with definiteness of purpose, and burning desire, can be translated into riches
The group has contributed significantly to Tanzania’s economic and industrial development in numerous ways by:
Introducing modern technology and international quality standards in all manufacturing processes.
Modernizing agriculture through introduction of mechanized farming.
Providing high quality services to all their valued customers.
Consolidation in diversity, focus on profitability and nobility of action.
Manufacturing line for a-S silicon PV solar cell
(http://www.pvd-metallizer.com)
Manufacturing line for amorphous silicon PV solar cell is mainly applicable for the production of large-sized photovoltaic sheet glass. Taking common sheet glass as substrate goes through CVD or PVD coating process to make transparent conductive film coating, through PECVD to realize various amorphous silicon films, by sputtering coating to achieve aluminum film or AZO electrode. By laser technology to engrave on the coated films and after that with checking, examination and packing to accomplish the manufacturing process of large-area cell components. The total manufacturing is within 10 processes. It is more easy and simple in manufacturing process to make crystal silicon cell with advantages of higher utility of silicon material and lower production cost compared with that of crystal silicon cell production.
Our company as per market demands and customer requirements, has developed consecutive sputtering coating line of diverse models applicable for sputtering coating back and front electrodes on the plate of amorphous silicon solar photovoltaic cells by DC & MF sputtering technology and with auto control system OA2000 of his own intellectual property right. It is available for bulk production by good comparison with that made by western countries.
Coupled with this sputtering coating line, PECVD sputter coaters, glass edge grinding machine, glass washing machine, heat treatment device and laser cutting machines and related coating technology, etc are also supplied by our company. Our company offers all the technical information and technical support for whole manufacturing process of amorphous silicon solar photovoltaic cells.
China Guangdong PVD Metallizer Co.
Alex Li
Tel: +86 758 2279559
Fax:+86 758 2279559
Mobile:+86 13929890858
Email: vacuumsale@hotmail.com
MSN: vacuumsale@hotmail.com
Skype: vacuum-metallizer
Website: www.pvd-metallizer.com
Delvendahl Martin Architects’ installation for Moss Bross explores the possibilities of the windows by distorting the perception of depth and perspective as viewed from the street. This is achieved by using hundreds of cotton strings to stitch the edges of the window space to form a series of seemingly floating voids, where the three main strands of Moss Bros products arebe displayed. The material expression of the cotton strings recall the raw materials of garments, the loom-based manufacturing process of cloth, and the craftsmanship of the Moss Bespoke service.
Photography (c) Agnese Sanvito
Syrup Manufacturing Plant,Liquid Syrup Plant,Manufacturing Plant, Pharmaceutical syrup manufacturing process,Sugar syrup manufacturing plant-Prism Pharma Machinery,Ahmedabad,Gujarat,India.
For more detail visit us at : www.liquidsyrupmanufacturingplant.com
Worn Again trainers by Terra Plana were among the exhibits at Climate Cool By Design, an exploration of how design and consumer choices impact on our climate. This British Council China exhibition curated by [re]design toured Shanghai, Guangzhou and Chongqing. Shown here at Shanghai Science and Technology Museum (17-25 November 2007).
This pioneering brand of ethical trainers is made from 99% recycled materials – often surprising ones – including old suits, shirts, jeans, fireman's trousers, ex-military parachutes, car seats, prison blankets and coffee bags, with recycled rubber soles. The range also aims to reduce emissions from manufacture and transport, sourcing materials in the region of production where possible and developing new models of manufacture closer to where the products are sold.
Some of the range incorporates E-leather, an innovative material consisting of re-woven leather fibre made with offcuts from leather production (normally sent to landfill). Its cutting edge manufacturing process recycles 95% of used water in a closed loop and converts waste streams into energy. E-leather is supplied in rolls, which reduces offcut waste to around 5% compared to around 30% for natural animal hides.
New Porsche 911 turbo cabs are rare, offering a unique mix of comfort, top-down California style and the heartpounding performance of over 500 horsepower and sophisticated all-wheel-drive. This particular model has been upgraded with a set of HRE custom forged CL40 centerlock wheels, featuring a brushed and clear coated finish sized at 19x8.5 front and 19x11 rear. At HRE we are proud to not only offer the finest Centerlock forged performance wheels on the planet, we can also boast a TUV verified facility, a strict inspection process by German authorities that certifies the quality of the manufacturing process. Every wheel we build is forged for maximum strength and performance, then crafted by artisans who recognize that every Porsche owner demands style, exclusivity and performance.
To learn more about HRE forged wheels for your 911, call (760) 598-1960 or visit the HRE wheels section online.
Product Description
From the original bamboo cutting board company, Totally Bamboo, this 14-inch salad server set is a beautiful, functional, ecologically sound addition to any kitchen. Bamboo is actually a grass that grows to a harvestable height of 60 feet in about 3 to 5 years, growing as much as 2 feet per day. It has an extensive root system that continually sends up new shoots, naturally replenishing itself. It does not require replanting, making it one of the most renewable resources known. Totally Bamboo uses 'Moso' timber bamboo which is neither a food source nor a habitat for the Giant Panda. Totally Bamboo's salad servers are assembled with approved food-grade glue -- none of their products are made with formaldehyde-based glue. No dyes or stains are used in the manufacturing process. The pleasing designs are created by using the naturally-occurring variations within the wood grain. Totally Bamboo prides itself on using only premium hand-selected bamboo, innovative design, exemplary craftmanship, and fair labor policies.
The Password JDM Dry Carbon Fiber Engine Pulley Cover NEW SUBARU BRZ SCION FR-S V1 will clean up the look of your engine bay! Like all of our Dry Carbon parts we manufacture, this engine cover has been precision crafted for a perfect fitment every time. We have used a fade resistant resin during the manufacturing process to ensure this pulley cover will always look & function as good as the day you bought it!
Includes all necessary mounting hardware.
Features include:
- Perfect dry carbon fitment with structural integrity
- high-heat, fade resistant resin fabrication process
- Extreme lightweight to strength ratio
- Made in the USA
- Badass looks for your BRZ or FR-S engine bay!
© 2012 PKG Photography, all rights reserved
Clothing or jewelry worn around the neck: this is the basic dictionary definition for a necklace; yet, there used to be much more to it than a simple fashionable accessory that completes a trendy casual or elegant dress. To the ancient people, a necklace meant a lot more than a mere decorative item: first of all, the manufacturing process was a lot more difficult than it is today, and jewels as such were plainly used to suggest some form of differentiation or belonging to a group or a class. Wood, rocks, plant beads, shells, gems and so on, were all used in the design of neck jewelry.
Past symbolism has partly survived in the special nature of a certain type of necklace: many Christians now wear a cross or a crucifix as a faith epitome. Such a necklace is considered to protect and help the wearer in difficulty by its direct connection with Jesus Christ, His Love and Sacrifice for humanity. Nevertheless, there are some who wear the cross necklace out of sheer decorative pleasure, without attaching any hidden meaning to it; such cases would definitely explain the wide variety of cross-like jewelry that is presently available on the market.
The way a woman wears a necklace is completely different from the way a man does; this is basically relevant for the fact that for the latter, the necklace is a way of drawing attention to the cleavage. A necklace doesn't suggest sexuality, it only accents femininity, charm, elegance and the fine curves of a delicate neck. Men on the other hand wear some choke-type necklace models that have a mere decorative function; yet they still send a clear message about the wearer: he is interested in good looks, trendy in style and therefore, a man of his times.
Offering a necklace as a gift is more than common nowadays, and we often have the tendency of attaching some form of emotional value to it. People come to associate a piece of jewelry with the dear one that presented it to them, and this is how mothers leave their necklaces to their daughters and so on. Even the most common necklace could mean a fortune for someone when it is about more than mere good looks. Except for such unique cases, wearing a necklace is now part of the daily routine that requires us to look nice and trendy both for ourselves and for the others.
Delvendahl Martin Architects’ installation for Moss Bross explores the possibilities of the windows by distorting the perception of depth and perspective as viewed from the street. This is achieved by using hundreds of cotton strings to stitch the edges of the window space to form a series of seemingly floating voids, where the three main strands of Moss Bros products arebe displayed. The material expression of the cotton strings recall the raw materials of garments, the loom-based manufacturing process of cloth, and the craftsmanship of the Moss Bespoke service.
Photography (c) Agnese Sanvito
“Well, to God's honour and glory would I speak, and not to my own. I had been to several places seeking work (collieries, brickworks), yes, Pilkingtons, and was about to be taken on when it seemed as though God shut the door and said no.
"God moves in a mysterious way
His wonders to perform;
He plants His footsteps in the sea,
And rides upon the storm."*
The man who interviewed me said to my father who was with me, "Do you work here?" When my father said "No" he said "I am sorry, I can't take you on" and that was where God closed the door. It was custom for Pilkingtons only to take on relatives. Well, it seemed strange, but God is His own interpreter and He did make it plain.”
[From Thomas Melling's “testimony to His eternal praise from an unworthy sinner”, published posthumously in The Gospel Standard Vol 165/No. 1962 (January 1999). *First stanza of the well-known hymn by William Cowper, 1774.]
Pilkington Brothers Ltd (as it became formally in 1894) began as a partnership between William Pilkington, his brother-in-law Peter Greenall and various others in 1826. By the middle of the last century it had grown to become the world's largest flat glass producer, employing some 25,000 people across its several sites. The business was acquired by NSG Group of Japan in 2006, but continues to manufacture, process and distribute glass in the UK under the Pilkington brand name.
The above photograph is © Tate from a negative by Paul Nash (1889-1946), now preserved in the Tate Archive at ref. TGA 7050PH/330 and posted here under licence CC-BY-NC-ND 3.0 (Unported).
This is an ANTIQUE Japanese Large Patterned Komon with Chuu Furisode length sleeves. Komon are informal kimono worn at home and about town. They are essentially the jeans and t-shirt combo of the kimono world. The smaller the pattern on a komon, the more casual it is. This one has a rather large pattern, so it's a less casual piece. It also has long sleeves which also increase the formality a little bit. This kimono likely originates in the Taisho Period (1912 - 1926). It features a very striking geometric pattern. The kimono is also made from ro; a type of perforated, semi-transparent silk worn during the heat of summer.
I have inspected this kimono in detail, and there there is some generalized patina all over the light coloured areas. There are also some prominent dye spots on the interior of the kimono - though these will not be visible when worn and are most likely a default of the manufacturing process. Otherwise I would rate this kimono to be in average to good antique condition. I believe this garment is 100% silk.
MEASUREMENTS:
147cm - Long (Collar to Hem)
126cm - Arm span
60cm - Width across the back
127cm - Total width of skirt
74cm - Sleeve drop
SIZING:
If you are unsure of how to interpret the kimono's size it is important to know that the length (collar - hem) should be approximately 10cm longer to 10cm shorter than the wearer's overall height (longer is better). This is because the excess length will be folded up at the waist. Meanwhile, the skirt should wrap around the hips a full 1.5 times. The armspan should also reach wrist to wrist on the wearer. In this case, the kimono will ideally fit a woman about 137cm (4'6") - 157cm (5'2") tall, with hips about 85cm (33.5") around. There is some give and take in these measurements though.
This piece is currently up for sale in my Etsy shop: www.etsy.com/ca/listing/735697036/stripes-and-shippo-anti...
It's also up for auction on Ebay:: www.ebay.ca/itm/293309051200?ssPageName=STRK:MESELX:IT&am...
Copyright © 2012 by Ian J MacDonald. Permission required for any use. All rights reserved
Fictional hazardous waste dump. Prior to 1971 and pre-EPA this was the way of doing business and dealing with hazardous waste - spent solvents, oils, lubricants, petroleum, dyes, grits, surfactants, ordinance, paper, ash, metal, plastics, hardeners, resins, insecticides, herbicides, by-products, radionuclides, resins, pharmaceuticals, biohazards, heavy metals, etc... etc... etc....
Although many have been cleaned up there are certainly many many more of these hiding out there. Preventing this is the EPA mission and should be remembered when politicians talk about defunding or eliminating the EPA to foster a more "business friendly" climate to compete with primarily China. The Chinese people are beginning tor realize the hidden environmental costs of purely unregulated business. Unfortunately they cannot protest it very effectively, nor choose politicians with a inkling nor direct contact with this stuff.
An idea for a text on the environment. Slowly working through it.
"Hazardous waste is waste that is dangerous or potentially harmful to our health or the environment. Hazardous wastes can be liquids, solids, gases, or sludges. They can be discarded commercial products, like cleaning fluids or pesticides, or the by-products of manufacturing processes." EPA
Every newcomer in the fashion industry must have to know about the clothing manufacturing process.
For details, www.beautifulcng.com/clothing-manufacturing-process/
#ladies #fashion #clothing #wholesale #manufacturer #womens #apparel #style #boutique #dress #outfits #bulk #girls #fabric #garment #female #bcg
(En) Founded in 1906, the Coking Plant of Anderlues was specialized in the production of coke for industrial use.
Coke was obtained by distillation of coal in furnaces and, thanks to its superior fuel coal properties, it was used afterwards to feed the blast furnaces in the steel manufacturing process.
Closed and abandoned since 2002, the site has since undergone many losses and damages, not including an important pollution. While some buildings have now been demolished, there are however still some important parts of the former coking plant.
Among them, the former coal tower, next to the imposing "battery" of 38 furnaces, where the coke was produced. Besides them, we still can see the administrative buildings, the power station with its cooling tower, and buildings for the by-products, which were obtained by recovering the tar and coal gas. There are also a gasometer north side, the coal tip east side and a settling basin south side.
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(Fr) Fondées en 1906, les Cokeries d'Anderlues étaient spécialisées dans la fabrication de coke à usage industriel.
Le coke était obtenu par distillation de la houille dans des fours et, grâce à ses propriétés combustibles supérieures au charbon, il servait par après à alimenter les hauts-fourneaux dans le processus de fabrication de l'acier.
Fermé et laissé à l'abandon depuis 2002, le site a depuis lors subi de nombreuses pertes et dégradations, sans compter la pollution qui y règne. Si certains bâtiments (comme l'ancien lavoir à charbon) ont aujourd'hui été démolis, on retrouve encore toutefois certaines parties importantes de cette ancienne cokerie.
Parmi celles-ci, l'ancienne tour à charbon suivie de près par l'imposante "batterie" de 38 fours, où était produit le coke. A côté d'eux, on découvre également les bâtiments administratifs, la centrale électrique avec sa tour de refroidissement, ainsi que les bâtiments des sous-produits, lesquels étaient obtenus par récupération du goudron et du gaz de houille. Et en périphérie, on retrouve un gazomètre côté nord, le terril à l'est et un bassin de décantation côté sud.
Winner of the Best Image Demonstrating Collaboration Category
An NCC core project investigated the materials and manufacturing processes required to deposit carbon fibre reinforced Polyether ether ketone (PEEK) composite using the Automated Fibre Placement (AFP) process. At the end of the project, a demonstrator panel was produced, putting the years’ research into practice.
A Coriolis AFP machine was used to lay up 16 plies of carbon fibre reinforced PEEK material onto a flat aluminium tool. A 6kW diode laser was used to melt and weld together the layers of material at approximately 400°C.
The image shows the project team, consisting of NCC project engineers, technicians and EngDoc researchers, taking stock of what has been produced.
The lighting shown here was required for photographs of the panel without glare or reflections, which show up easily on the fine surface finish of the composite.
John Allison is William F. Hosford Professor of Materials Science and Engineering at the University of Michigan and a National Academy of Engineering member.
His major research interest is in understanding the inter-relationships between processing, alloying, microstructure and properties in metallic materials – and in incorporating this knowledge into computational tools for use in research, education and engineering. An important part of his research is development of Integrated Computational Materials Engineering (ICME) tools – and thus collaborations with other computational and experimental groups are an essential element of my work. Central to my research are investigations on the evolution of microstructures - current examples include precipitate evolution, recrystallization and grain growth and texture development in magnesium, aluminum and titanium alloys. He is also interested in mechanical behavior of these materials, with an emphasis on development of mechanistic and phenomenological understanding of the influence of microstructure on properties such as strength, ductility and fatigue resistance.
Allison comes to the University from Ford Motor Company, where he was a senior technical leader in the Research and Advanced Engineering organization. Over the twenty seven years of his tenure at Ford, he led teams developing integrated computational materials engineering, or ICME, methods. He helped develop advanced computer software that simulates manufacturing processes and predicts the influence of the manufacturing process on material properties. The output of these models is then coupled with product performance models to predict how manufactured components will behave during service.
July 11, 2023.
Photo by Marcin Szczepanski/Lead Multimedia Storyteller, Michigan Engineering
These salt lamps are crafted in different shapes including ball shape, moon shape, round shape and many more shapes weighting from 2 KG to 10 KG approximately. To carve these lamps, first a block of required size is cut from the raw lumps of salt rock, and then a hole is drilled to accommodate the bulb. Duly drilled block then passed over to Machinist who carves the desire shape on the machine. Once finished, the lamp is then fixed with a wooden or onyx base then plastic shrink wrapped and manufacturing process is completed.
We do make custom shapes and designs according to given diagrams, not every design is possible to Craft on the Rock Salt, but we can try to make one of your choice. Any kind of logo or name or diagram in shape of flower or any special characters can be carved on salt
Size: small, large and usb
Colors: Red, Reddish Orange, pink and white salt
Base Polished Wood, marble and Onyx and plastic in usb
Cable: 110,220 volt with on off switch or usb port cable
Packing: shrink wrapping on each lamp, air bubble packing, 4 ply inner, 7 ply master cartoons
At the Cup Noodles Museum, you can learn the secret of cup noodle and even have the opportunity to make one-of-a-kind ramen yourself.
Japanese food company Nissin operates this unique museum for Ramen.
The museum shows the 40 year product history as well as the founder, Mr. Ando Momofuku's creativity, by exhibiting 3,000 kinds of cup noodle packages.
They also recreate Mr. Ando Momofuku's humble research facility.
At "My Cup Noodle Factory," you can make your own cup noodle out of 5,460 soup base / topping combinations.
There is also "Cup Noodles Park", a playground for kids where they can experience the manufacturing process of Cup Noodle.
There is a "Chicken Ramen Factory" where you can make Chicken Ramen by hand, starting with kneading, spreading, and steaming the wheat flour and then drying it with the hot oil drying method. After experiencing the process that led to the invention of the world's first instant ramen, you can take your freshly made ramen with you and enjoy its delicious taste at home.
And of course you can enjoy global varieties of noodles in the contemporarily designed museum restaurant!
(En) Founded in 1906, the Coking Plant of Anderlues was specialized in the production of coke for industrial use.
Coke was obtained by distillation of coal in furnaces and, thanks to its superior fuel coal properties, it was used afterwards to feed the blast furnaces in the steel manufacturing process.
Closed and abandoned since 2002, the site has since undergone many losses and damages, not including an important pollution. While some buildings have now been demolished, there are however still some important parts of the former coking plant.
Among them, the former coal tower, next to the imposing "battery" of 38 furnaces, where the coke was produced. Besides them, we still can see the administrative buildings, the power station with its cooling tower, and buildings for the by-products, which were obtained by recovering the tar and coal gas. There are also a gasometer north side, the coal tip east side and a settling basin south side.
-----------
(Fr) Fondées en 1906, les Cokeries d'Anderlues étaient spécialisées dans la fabrication de coke à usage industriel.
Le coke était obtenu par distillation de la houille dans des fours et, grâce à ses propriétés combustibles supérieures au charbon, il servait par après à alimenter les hauts-fourneaux dans le processus de fabrication de l'acier.
Fermé et laissé à l'abandon depuis 2002, le site a depuis lors subi de nombreuses pertes et dégradations, sans compter la pollution qui y règne. Si certains bâtiments (comme l'ancien lavoir à charbon) ont aujourd'hui été démolis, on retrouve encore toutefois certaines parties importantes de cette ancienne cokerie.
Parmi celles-ci, l'ancienne tour à charbon suivie de près par l'imposante "batterie" de 38 fours, où était produit le coke. A côté d'eux, on découvre également les bâtiments administratifs, la centrale électrique avec sa tour de refroidissement, ainsi que les bâtiments des sous-produits, lesquels étaient obtenus par récupération du goudron et du gaz de houille. Et en périphérie, on retrouve un gazomètre côté nord, le terril à l'est et un bassin de décantation côté sud.
Husband is delighted that I have finally taken this photo so that the treat can be eaten :-)
Extra pic in first comment.
J.H. Whittaker & Sons, Ltd (Whittaker's) is a confectionery manufacturer specialising in chocolate and based in Porirua, New Zealand. Whittaker's is the second-biggest chocolate brand in New Zealand, behind Cadbury. The company controls its entire manufacturing process, calling itself a "bean-to-bar" manufacturer, to ensure top-quality products. James Henry Whittaker started the business in Christchurch in 1896 and it was later moved to Wellington.
James Henry Whittaker worked in the British confectionery industry at the age of 14 and moved to Christchurch, New Zealand, in 1890. Six years later he started manufacturing chocolate confectionery, selling it direct to customers using horse and van. In 1913, he established a partnership with his two sons, Ronald and James, based in Wellington. The business became a limited liability company in 1937, with third-generation Whittakers still the sole shareholders in the company. In 1992 the company formed J.H. Whittaker Australia Ltd.
Wikipedia
"When it was operating full time, Watkins Mill employed 40 workers -- 25 men, 10 women and five children. Most of the men were highly proficient workers called operatives. The women were weavers and the children were often apprentices who were learning the mill industry. The Mill's original work force included immigrant English, Irish, French, Canadian, German and Swedish employees, as well as individuals from the eastern United States. Because of the skill involved, mill workers were often well-paid.
The process was quite detailed. After a sheep was sheared, the wool was matted together to resemble a thin rug, then rolled into bundles. About two-thirds of the material was then sorted by grade and scoured by a willower, a machine that pulls the wool apart and removes dirt and natural oils. It could then be made into yarn or cloth, or dyed. From there, the scoured, unscoured and dyed wool went to the picker room, where the sorts were divided and placed into uniform layers, then fed into the picker, which prepared the wool for carding by pulling it apart into small, fluffy bits.
Carding machines untangled individual fibers and reduced sheets of wool to a continuous strand. The material was then ready to be spun into yarn. After this, it could be sold or continue within the manufacturing process to be woven into cloth, often with complex patterns.
Powering the Mill's looms and machines was a 60-horsepower slide-valve steam engine that Waltus Watkins purchased from a company in St. Louis, Mo. The engine had been salvaged from a river steamboat and its wood-fired boiler provided the 100 pounds of pressure needed to operate the Mill's equipment at the correct speed.
Although the milling process and its associated equipment and employees were expensive to coordinate, the business was profitable. Because of transport costs during the 1850s and '60s, goods produced on the East Coast were not always readily available throughout America. As a result, by 1870 there were about 880 woolen mills located in the Midwest alone."
From the planting of the seed to the end of the manufacturing process, Portuguese cork makes for authentic, high quality and eco-efficient cork products that are created with true craftsmanship and care.
Here are images from my recent visit to the Cambo (www.cambo.com) factory in the Netherlands while I was visiting Amsterdam. Rene Rook of Cambo was nice enough to guide me through the entire production process as well as show me some vintage cameras from the companies history and show me their current product line (which was just recently updated at Photokina 2012)
for a full review of the products and a discussion of the images you see here (especially the vintage products) you can read the full article on my website www.brianhirschfeldphotography.com
they tell me Soju is "good for your health."
info. from wikipedia.
Soju is a distilled beverage native to Korea. Most brands of modern soju are made in South Korea. Though traditionally made from rice, most major brands supplement or even replace the rice with other starches such as potato, wheat, barley, sweet potato, or tapioca (called dangmil in Korean). Soju is clear in color and typically varies in alcohol content from about 20% to about 45% alcohol by volume (ABV), with 20% ABV being most common. Its taste is comparable to vodka, though often slightly sweeter due to the added sugar in the manufacturing process.
Ermak USA's LASERMAK CO2 laser cutting machine has been specially machined with maximum precision to provide the quickest, most precise cut every time. Every one of the Lasermak's custom components has been specially crafted by expert engineers, built on the finest CNC machining centers, and tested with latest high-tech measuring technology in every phase of manufacturing process. It comes standard equipped with:
- Low initial / operating costs
- FANUC resonator w/ 24,000-hour no-maintenance turbo blower lifetime
- High-speed, high-precision linear drive motors
- Dual pallet automatic loading system for rapid sheet loading / unloading
- Sturdy, long-lasting frame
Plus, like every Ermak machine, the Lasermak is highly customizable to ensure that you get the perfect machine for you and your business.
The Pershing II was a mobile, intermediate-range ballistic missile deployed by the U.S. Army at American bases in West Germany beginning in 1983. It was aimed at targets in the western Soviet Union. Each Pershing II carried a single, variable-yield thermonuclear warhead with an explosive force equivalent to 5-50 kilotons of TNT. Under the terms of the 1987 Intermediate-Range Nuclear Forces Treaty between the United States and the Soviet Union, all Pershing IIs and their support equipment were removed from the inventory and rendered inoperable. This missile is a trainer, but its dimensions and weight are identical to an operational Pershing II. It was built by Martin Marietta and transferred by the Army Missile Command to NASM in 1990.
Transferred from the United States Army Missile Command.
The SS-20, known as the "Pioneer" in Russian, is a two-stage, solid propellant missile with three multiple targetable reentry warheads. The missile is almost 16.5 meters tall.
The exterior of the first stage is yellow fiberglass with numbers and Cyrillic letters printed along the circumference. The letters and numbers are used as guides in the manufacturing process when the solid fuel is covered with fiberglass. Two thirds of the way up the missile are the letters "CCCP" and a yellow five-point star.
The second stage has similar markings. The reentry vehicle consists of three warheads. The predominant color of the missile is green. Along the base of the missile are white fan stabilizers that assist in guidance.
The Votkinsk Machine Building Plant, USSR, constructed the missile for the exhibition at the National Air and Space Museum. Exhibition of this missile complies with the Intermediate Nuclear Forces agreement between the US and USSR that provided for the preservation of fifteen SS-20 and Pershing II missiles to commemorate the first international agreement to ban an entire class of nuclear arms exhibition. It does not contain fuel or any live components. The Ministry of Defense of the USSR donated the missile to the Smithsonian.
Gift of USSR Ministry of Defense
TOMYTEC series. The rear spoiler had to be installed. The issue I have with these is various parts have to added to some of these cars. These parts are small and tedious and difficult to install. I don't understand why these "add-on" parts couldn't be installed during the manufacturing process.
American IronHorse was an American motorcycle manufacturer that was founded in 1995 by Tim Edmundson and Bill Rucker. At one time, AIH was the largest factory producer of custom motorcycles in the USA. Their 224,000-square-foot (20,800 m2) factory was located in Fort Worth, Texas, and housed the complete manufacturing process under a single roof. Although most (305) parts for the bikes were made in-house, such as the seats and wheels, all American IronHorse motorcycles were built with S&S engines and were assembled in-house.
In Spring 2008, American Ironhorse ceased production on all cycles and most company assets were liquidated at auction.
Ermak USA's LASERMAK CO2 laser cutting machine has been specially machined with maximum precision to provide the quickest, most precise cut every time. Every one of the Lasermak's custom components has been specially crafted by expert engineers, built on the finest CNC machining centers, and tested with latest high-tech measuring technology in every phase of manufacturing process. It comes standard equipped with:
- Low initial / operating costs
- FANUC resonator w/ 24,000-hour no-maintenance turbo blower lifetime
- High-speed, high-precision linear drive motors
- Dual pallet automatic loading system for rapid sheet loading / unloading
- Sturdy, long-lasting frame
Plus, like every Ermak machine, the Lasermak is highly customizable to ensure that you get the perfect machine for you and your business.
(En) Founded in 1906, the Coking Plant of Anderlues was specialized in the production of coke for industrial use.
Coke was obtained by distillation of coal in furnaces and, thanks to its superior fuel coal properties, it was used afterwards to feed the blast furnaces in the steel manufacturing process.
Closed and abandoned since 2002, the site has since undergone many losses and damages, not including an important pollution. While some buildings have now been demolished, there are however still some important parts of the former coking plant.
Among them, the former coal tower, next to the imposing "battery" of 38 furnaces, where the coke was produced. Besides them, we still can see the administrative buildings, the power station with its cooling tower, and buildings for the by-products, which were obtained by recovering the tar and coal gas. There are also a gasometer north side, the coal tip east side and a settling basin south side.
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(Fr) Fondées en 1906, les Cokeries d'Anderlues étaient spécialisées dans la fabrication de coke à usage industriel.
Le coke était obtenu par distillation de la houille dans des fours et, grâce à ses propriétés combustibles supérieures au charbon, il servait par après à alimenter les hauts-fourneaux dans le processus de fabrication de l'acier.
Fermé et laissé à l'abandon depuis 2002, le site a depuis lors subi de nombreuses pertes et dégradations, sans compter la pollution qui y règne. Si certains bâtiments (comme l'ancien lavoir à charbon) ont aujourd'hui été démolis, on retrouve encore toutefois certaines parties importantes de cette ancienne cokerie.
Parmi celles-ci, l'ancienne tour à charbon suivie de près par l'imposante "batterie" de 38 fours, où était produit le coke. A côté d'eux, on découvre également les bâtiments administratifs, la centrale électrique avec sa tour de refroidissement, ainsi que les bâtiments des sous-produits, lesquels étaient obtenus par récupération du goudron et du gaz de houille. Et en périphérie, on retrouve un gazomètre côté nord, le terril à l'est et un bassin de décantation côté sud.
I made this shot using a Takumar 55mm 1.8 lens.
It is an old screw lens from ca 1965, and of course, it is manual focus only.
I love to focus manually. However, today's cameras make it somewhat of a guessing game.
- Most viewfinders in modern mirror reflex cameras are simply to small to see the focus plane clearly.
- Camera manufacturers are making the viewfinders less acurate, saving costs by cutting precision in the manufacturing process, because the assume that nowadays, nobody's focusing manually anymore with there being fast and accurate autofocus.
I love the large, accurate viewfinders of professional cameras like the Nikon D3, or of old film cameras, even my old Pentax Spotmatic. They are huge!!
A lot of people who never have experienced working with such a viewfinder before, and who are only using autofokus anyway, assume that focussing manually is a thing of the past and has no benefits over autofocus.
But i feel that, with autofocus, you only abstract in your head what the depth of field will look like in your picture later, while with manual focus and a large viewfinder, you get to experience and feel the focus of the image. It's more like focussing with your stomach as opposed to with your head.
Mutation #1 is a sculpture stemming from digital creative and manufacturing processes and realized via 3D printing. It is the eruption of a 3D wireframe into reality. It is also an "Ikea hack", its size enabling perfect insertion into the famous Expedit bookcase. Once inserted, the sculpture customizes the bookcase by giving it a futuristic look.
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Photo : Sarah Zhiri
Created by: Greenpeace USA
Campaign: Toxics
With the boom of the ‘electronic age’ a new environmental threat is growing. The world is consuming more and more electronic products every year which caused a dangerous explosion in electronic waste, riddled with toxic chemicals and heavy metals that cannot be disposed of or recycled safely.
As new products are developed, old ones are dumped in landfills or being shipped to third world countries, causing major toxic hazards. The making of all these products also cause toxic pollution in local areas.
To encourage electronic companies to be responsible with their manufacturing, Greenpeace campaigns to enlist consumers to put pressure on them. The ‘Green my Apple’ campaign targeted the Apple, as well as its fiercely loyal customers, to change its practices for the better.
Apple responded to this pressure by altering many of its manufacturing processes, and switching to friendlier alternatives to the toxic chemicals it was using. A major victory for people power.
Pick up your own Green My Apple shirt from our online store: www.cafepress.com/greenpeace
アップルが大好き、だからグリーンになって!
世界各国
2006年
エレクトロニクス時代到来とともに、環境をめぐる新たな脅威が広がっています。世界中で急増する電子機器の消費。それが、安全処理やリサイクルのできない有毒な化学物質や重金属を含んだ大量の電子ゴミを生んでいます。
新製品開発で古いものは埋立地に捨てられ、第三世界各国に船で移送されます。こうして有毒物質の危険が飛び火します。製品は製造段階でも工場付近を有毒物質で汚染します。
グリーンピースは、エレクトロニクス企業が製造過程に責任を持つよう企業に働きかける消費者キャンペーンを行っています。
「グリーン・マイ・アップル」キャンペーンでは、「グリーン」という言葉を動詞(緑化する=環境に良くする)に使って、アップル社と顧客に同社に改善を迫る活動に参加してもらいました。
「グリーン・マイ・アップル」キャンペーンは4万5000人の参加を得、アップル社は多くの製造工程の変更と、使用する化学薬品をより地球にやさしいものに替えることで、私たちの声に応えてくれました。消費者一人ひとりの大きな勝利です。
1) Czechoslovakian Brno ZB26 - caliber 7.92mm - In use from 1928 to 1945.
The Czechoslovakian ZB vz 26 Light Machine Gun manufactured in Brno.
2) Bren Mk.I - caliber .303in - In use from 1937 to 1941.
The Bren Light Machine Gun was developed from the ZB26, a Czechoslovakian Light Machine Gun designed at Brno, by the Royal Small Arms Factory at Enfield. The name was an amalgamation of Brno and Enfield. The major changes were in the magazine and barrel. The rifle was re-barrelled to .303in caliber and the magazine was curved in order to feed the rimmed .303in British cartridge from the rimless Mauser 7.92mm design cartridges previously used by the Czechoslovakians. The magazine was designed to take 30 rounds, but most Soldiers only used 28 to reduce gun stoppages and magazine wear.
▪︎Magazine: 30 rounds / 500 rounds per minute / Weight: 22.8lb / Length: 42.9in.
3) Bren Mk.II - caliber .303in - In use from 1941 to 1944.
The major changes between the Mk.I and Mk.II Bren are, notably, the removing of the complicated drum sight and the fitting of a folding rear leaf sight. There is a much simplified machined body which, although still being milled from a solid billet of steel, required significantly fewer milling operations than the previous Mk.I, which gave it a much cleaner appearance. The bipod was simplified in design, as well as not having extending legs. Most Mk.II bipods resemble a simpe 'A' frame and were more 'Soldier' proof. The woodwork on the Mk.II was simplified by being less ornate and more ergonomic, which sped up the manufacturing process. The barrel was also simplified by means of a non-stepped removable flash hider. The buffered butt plate of the Mk.I was omitted and replaced with a sheet metal butt plate.
4) L4A1 Bren - caliber 7.62mm - In use from 1958 onwards.
Conversion of earlier Bren guns from .303in to NATO 7.62mm.
Sourced from Norfolk Tank Museum.
Here are images from my recent visit to the Cambo (www.cambo.com) factory in the Netherlands while I was visiting Amsterdam. Rene Rook of Cambo was nice enough to guide me through the entire production process as well as show me some vintage cameras from the companies history and show me their current product line (which was just recently updated at Photokina 2012)
for a full review of the products and a discussion of the images you see here (especially the vintage products) you can read the full article on my website www.brianhirschfeldphotography.com
Ermak USA's LASERMAK CO2 laser cutting machine has been specially machined with maximum precision to provide the quickest, most precise cut every time. Every one of the Lasermak's custom components has been specially crafted by expert engineers, built on the finest CNC machining centers, and tested with latest high-tech measuring technology in every phase of manufacturing process. It comes standard equipped with:
- Low initial / operating costs
- FANUC resonator w/ 24,000-hour no-maintenance turbo blower lifetime
- High-speed, high-precision linear drive motors
- Dual pallet automatic loading system for rapid sheet loading / unloading
- Sturdy, long-lasting frame
Plus, like every Ermak machine, the Lasermak is highly customizable to ensure that you get the perfect machine for you and your business.
Here are images from my recent visit to the Cambo (www.cambo.com) factory in the Netherlands while I was visiting Amsterdam. Rene Rook of Cambo was nice enough to guide me through the entire production process as well as show me some vintage cameras from the companies history and show me their current product line (which was just recently updated at Photokina 2012)
for a full review of the products and a discussion of the images you see here (especially the vintage products) you can read the full article on my website www.brianhirschfeldphotography.com
HPSM-100W solar panel detail information
Class A 100W Solar Panel
Part A: Parameter
1) Solar Panel Pmax: 100W
2) Solar Panel Vmp: 18.5V
3) Solar Panel Imp: 5.4A
4) Solar Panel Voc: 22.5V
5) Solar Panel Isc; 5.6A
6) Solar Panel Weight: 9KG
7) Solar Panel Dimension: 1210mm*540mm*35mm
8) Solar Panel Warranty: 5 yers' warranty
9) Solar Panel Lifespan: More than 25 years
10) Solar Panel Certifications: CE,TUV and ROSH
Part B: Features
l Nominal 12V DC for standard output.
l High efficiency.
l Outstanding low-light performance.
l High transmission tempered glass.
l Rugged design to withstands high wind
pressure and snow load, easy installation.
l Aesthetic appearance.
l Design to meet unique demand of customer.
l 25 year module output warranty.
Part C: Anti-Reflective Solar Glass
Xintailai solar modules use a textures cell surface and temperature glass for solar use only to reduce reflection of sunlight. An anti-reflective coating provides a uniform.
Part D: Long services life
Xintailai modules will last for at least 25 years. 5 years warrantyon materail and workmanship and guarantee their output at 90% after 10 years and 80% after 25 years.
Part F: Excellent Constructions
Xintailai modules have been encapsulated with the greatest care: they resist corrosion caused by raim, water and gas. Their anti shocking performance makes them resist hail and work under atrocious weather conditions where temperature changes quickly.
Part G: Real life examples
Xintailai modules have been applied in many areas, such as building roofs, photovoltaic power plants and telecomminication stations. Our modules are exported globally and we continue to maintain an already outstanding reputation.
Part H: Proven Qality
Xintailai modules have passed several international quality testing and granted with certificates. Our factories follow stringent ISO 9001-2000 standards, by pursuing proven manufacturing processes and using state of the art technology for each of its solar modules. We are delivering the highest quality of solar energy around the world.
Contact:Fiona
TradeManager:cn1001056971
E-mail: sales02@hopesuntech.cn
MSN:hopesunsales02@hotmail.com
Skype:hopesunsales02
Yahoo:hopesunsale02@yahoo.cn
Here are images from my recent visit to the Cambo (www.cambo.com) factory in the Netherlands while I was visiting Amsterdam. Rene Rook of Cambo was nice enough to guide me through the entire production process as well as show me some vintage cameras from the companies history and show me their current product line (which was just recently updated at Photokina 2012)
for a full review of the products and a discussion of the images you see here (especially the vintage products) you can read the full article on my website www.brianhirschfeldphotography.com
Me in my loaner Permobil M3 power wheelchair courtesy of Matt, Permobil’s regional rep. I will be excited to receive a Permobil M3 power wheelchair as soon as it completes the funding and manufacturing processes.
The Password JDM Dry Carbon Fiber Engine Pulley Cover NEW SUBARU BRZ SCION FR-S V1 will clean up the look of your engine bay! Like all of our Dry Carbon parts we manufacture, this engine cover has been precision crafted for a perfect fitment every time. We have used a fade resistant resin during the manufacturing process to ensure this pulley cover will always look & function as good as the day you bought it!
Includes all necessary mounting hardware.
Features include:
- Perfect dry carbon fitment with structural integrity
- high-heat, fade resistant resin fabrication process
- Extreme lightweight to strength ratio
- Made in the USA
- Badass looks for your BRZ or FR-S engine bay!
The Aristocrat and Aristocrat Custom Built models were fitted with what Buescher called the "Acouta-Bell".
Buescher claimed it made its trumpet and cornet bells with a special proprietary manufacturing process that used a secret brass formula.
However the rims of the Aristocrat Custom Built bells were not made in the same way. The roll at the bell's rim is smaller, and there is a narrow, flat band of metal running around the circumference of the bell just behind the rim's rolled edge.
The rims on Buescher's earlier trumpet and cornet bells, including the Aristocrat, was larger and lacked the narrow reinforcing band.
You can read this Sagar Umbrella blog as it provides a step-by-step guide to the manufacturing process of colored or transparent raincoats.
(En) Founded in 1906, the Coking Plant of Anderlues was specialized in the production of coke for industrial use.
Coke was obtained by distillation of coal in furnaces and, thanks to its superior fuel coal properties, it was used afterwards to feed the blast furnaces in the steel manufacturing process.
Closed and abandoned since 2002, the site has since undergone many losses and damages, not including an important pollution. While some buildings have now been demolished, there are however still some important parts of the former coking plant.
Among them, the former coal tower, next to the imposing "battery" of 38 furnaces, where the coke was produced. Besides them, we still can see the administrative buildings, the power station with its cooling tower, and buildings for the by-products, which were obtained by recovering the tar and coal gas. There are also a gasometer north side, the coal tip east side and a settling basin south side.
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(Fr) Fondées en 1906, les Cokeries d'Anderlues étaient spécialisées dans la fabrication de coke à usage industriel.
Le coke était obtenu par distillation de la houille dans des fours et, grâce à ses propriétés combustibles supérieures au charbon, il servait par après à alimenter les hauts-fourneaux dans le processus de fabrication de l'acier.
Fermé et laissé à l'abandon depuis 2002, le site a depuis lors subi de nombreuses pertes et dégradations, sans compter la pollution qui y règne. Si certains bâtiments (comme l'ancien lavoir à charbon) ont aujourd'hui été démolis, on retrouve encore toutefois certaines parties importantes de cette ancienne cokerie.
Parmi celles-ci, l'ancienne tour à charbon suivie de près par l'imposante "batterie" de 38 fours, où était produit le coke. A côté d'eux, on découvre également les bâtiments administratifs, la centrale électrique avec sa tour de refroidissement, ainsi que les bâtiments des sous-produits, lesquels étaient obtenus par récupération du goudron et du gaz de houille. Et en périphérie, on retrouve un gazomètre côté nord, le terril à l'est et un bassin de décantation côté sud.
(En) Founded in 1906, the Coking Plant of Anderlues was specialized in the production of coke for industrial use.
Coke was obtained by distillation of coal in furnaces and, thanks to its superior fuel coal properties, it was used afterwards to feed the blast furnaces in the steel manufacturing process.
Closed and abandoned since 2002, the site has since undergone many losses and damages, not including an important pollution. While some buildings have now been demolished, there are however still some important parts of the former coking plant.
Among them, the former coal tower, next to the imposing "battery" of 38 furnaces, where the coke was produced. Besides them, we still can see the administrative buildings, the power station with its cooling tower, and buildings for the by-products, which were obtained by recovering the tar and coal gas. There are also a gasometer north side, the coal tip east side and a settling basin south side.
-----------
(Fr) Fondées en 1906, les Cokeries d'Anderlues étaient spécialisées dans la fabrication de coke à usage industriel.
Le coke était obtenu par distillation de la houille dans des fours et, grâce à ses propriétés combustibles supérieures au charbon, il servait par après à alimenter les hauts-fourneaux dans le processus de fabrication de l'acier.
Fermé et laissé à l'abandon depuis 2002, le site a depuis lors subi de nombreuses pertes et dégradations, sans compter la pollution qui y règne. Si certains bâtiments (comme l'ancien lavoir à charbon) ont aujourd'hui été démolis, on retrouve encore toutefois certaines parties importantes de cette ancienne cokerie.
Parmi celles-ci, l'ancienne tour à charbon suivie de près par l'imposante "batterie" de 38 fours, où était produit le coke. A côté d'eux, on découvre également les bâtiments administratifs, la centrale électrique avec sa tour de refroidissement, ainsi que les bâtiments des sous-produits, lesquels étaient obtenus par récupération du goudron et du gaz de houille. Et en périphérie, on retrouve un gazomètre côté nord, le terril à l'est et un bassin de décantation côté sud.