Rotary Joints For Hot Oil, Steam & Thermic Fluid Applications

Looking for Rotary Joints For Hot Oil, Steam & Thermic Fluid Applications? Roto Flow Technologies India Private Limited is one of the best Rotary Unions suppliers based in Gujarat, India.

Hydraulic Pipe Repairs Atlanta

Hydraulic pump essentially and overall consists of equipment pumps, Components of Hydraulic Pump Articles rotary vane pumps, screw pumps and peristaltic pumps. It depends upon the machinery that what form of hydraulic pump it has in it! Most of the machineries have screw pumps, a few have tools pumps. This piece of writing can be telling the readers regarding the info and statistics approximately the components of hydraulic pump. Starting with the gear pumps! The gear pumps mesh up and crush up the two gears inflicting the fluid motion. Those two gears are been meshed up in any such manner that the fluid gets robotically commenced shifting. Tooth equipment pump has to this point been taken into consideration as the only gear pump. It is made from meshing gears; these gears are rotate in the sort of way that the fluid gets pulled off immediately. Gear pumps are made up of metallic and they're enclosed in a sealed container. It also depends upon the kind of machinery that you are making use of; specific machinery would possibly alternate the composition of the gear pumps. Moving in the direction of the rotary vane pumps! They are extra green and powerful as evaluate to the gear pumps.

Hydraulic pipe are the main inputs for any infrastructure implementation and development. These components are used in bulk in the creation system enterprise and other manufacturing sectors. There has been huge enlargement in sectors together with cement, metallic, mining and inside the oil and gasoline sectors. These components are very essential for the success of the infrastructure enterprise and that is why there was a full-size growth.

High air humidity, system wears and sorts of repairs Articles in addition to thermal shocks motive changes in winding resistance of electric machines and spools of trigger units. Ice plugs occur in Hydraulic pipe repairs, in addition to within the water supply machine at low temperatures in winter; they will cause breakdowns of weld joints and valves of pipelines. The hydraulic fluid in ground pumps and coal pumps freeze under the have an impact on of low temperature, paperwork a leak-tight crust which can be warmed best with the aid of hot water or steam. The deposit era interior pumps cause additional wear of impellers and seals because of the waft charge boom and solids bring-over. Natural put on relates to continuous touch of pump unit components with the contaminated water or hydraulic fluid go with the flow. Major put on is in O-jewellery which separate the pump tiers, as well as in discharge devices. Impellers and seals are subjected to the finest wear in floor and coal pumps. To this quit, the timely inspection and alternative of worn parts permit preserving the basic parameters of pumps and coal pumps inside the running location of traits and heading off an emergency failure. Such failure, as an example, thrust bearings may additionally cause sharp growth of the axial force and motor failure.

The hydraulic truck crane is designed for coping with substances and, An Introduction to the Hydraulic Truck Crane Articles in contrast to other freestanding cranes, it is established without delay on the bed of a common motor truck. In popular, you could count on them to be smaller in length while compared to the biggest derrick cranes as they may be supposed for smaller jobs in which velocity and manoeuvrability are of primary importance. Because they do no longer must be installation they can be used pretty an awful lot as soon as they come on the scene, which makes them an appropriate answer for rescue jobs or small production paintings.

A hydraulic truck crane contains numerous parts which are essential for it to paintings. These machines are put together on meeting strains in which the different metal components are welded and bolted into vicinity. Depending on the kind of crane that is being built, there are special techniques that are used. For instance, crane vehicles are use a standardized truck or crawler in their creation. After they may be built, the cranes are then tested out to make sure they may be practical and afterwards they may be then shipped to distribution centres and dealerships where they may be sold.

Even a sixty-five-ton capability hydraulic truck crane can be transported on the highway machine which makes shifting from process to task smooth. To provide those vehicles with extra stability and assist, outriggers are extended outwards and downwards from the chassis. While lifting and transferring a load, those automobiles can most effective flow at a much slower speed, but when they may be in transportation mode they could circulate the identical speed as another work truck. The operator of those machines must take unique care whilst shifting a load to ensure that the car does not tip over.

Paddle Dryer Operating principle

Paddle dryers are very efficient, mechanically stirred, indirect warmth transfer gadgets that increase or clear away warmth from method materials. The essential warmth transfer is achieved by heating or cooling the shaft as well as dryer physique. As well as the Superb indirect warmth transfer, the space demands are low as a result of its compact style. The intermeshing motion from the paddles assures uniform and continuous mixing of the material in ongoing or batch Procedure. The warmth transfer media: steam, oil, hot fluids and water.

Primarily utilized for indirect drying, heating, cooling, pasteurization, crystallization and reaction of pastes, cakes, powders, natural and organic or inorganic particles. Hollow paddle dryer is commonly useful for sludge drying in wastewater treatment.

The hollow shaft is densely arranged with wedge-shaped hollow slurry leaves, and the new medium flows throughout the slurry leaves by means of the hollow shaft. The warmth transfer place is substantial in the device powerful volume, as well as the temperature of the new medium is from -40℃ to 320℃, which can be h2o vapor or liquid such as hot h2o, warmth-conducting oil, and so forth. Indirect conduction heating, no carrying air to take away heat, warmth are utilized to heat the material. The warmth reduction is only the warmth dissipation to the environment in the insulation layer of your body. Wedge sort slurry leaf heat transfer area has self-cleaning operate. The relative movement of the material particles as well as wedge-formed surface area provides a scrubbing influence, which often can scrub off the material hooked up on the wedge-shaped surface and continue to keep a cleanse heat transfer area for the duration of operation. The warmth transfer medium flows throughout the shell jacket and hollow stirring shaft from the rotary joint, plus the hollow stirring shaft has distinct interior construction in accordance with the form of heat medium to make sure the heat transfer result.

Hollow paddle dryer structure Framework diagram of hollow blade paddle dryer Structure diagram of hollow blade paddle dryer Capabilities Higher thermal performance The heat transfer medium isn't going to occur into contact with the products Gas is just not made use of to transport the products. Minimum exhaust gasoline stream Suitable for steam, drinking water or oil as heating medium Exact temperature Command Homogeneous item good quality, comprehensive product mixing and movement Steady course of action in only one pass Substantial warmth transfer area to method volume ratio – lessened footprint Generally no pretreatment with recirculation necessary Effortless to function, necessitating minor awareness Safer than immediate drying when dealing with combustible resources Uncomplicated and sturdy style and design for simple servicing Lower product or service don and tear Minimized civil design and installation expenses Appropriate for all types of particles and free-flowing supplies Applications Drying Paddle dryers are indirectly heated using steam or circulating thermal fluid (thermal oil). This presents superior Electricity effectiveness and lower exhaust gasoline volumes. Warmth transfer media of as many as 750 °F can be utilized. Supplies a trustworthy and efficient process for drying slurries, cakes and centrifugal concentrates. The vacuum style and design allows for the removal of h2o or natural solvents at reduced temperatures.

Heating Heating is utilized to soften, cook, pasteurize, bake or react system resources. The heating medium might be steam, circulating sizzling fluid or warm h2o. The dual zone style and design allows for two unique temperature zones.

Cooling Heat is faraway from the procedure content with chilly water or heat transfer fluid (glycol, all the way down to -40 °File). Cooling can be done inside a managed, humidity-free of charge ecosystem. The dual-zone style and design permits two distinct temperature zones.

Calcination Calcination is usually performed at temperatures as many as 700 °F. Evaporation of drinking water ahead of higher temperature calcination will raise the potential from the substantial temperature machines and also the thermal effectiveness of the method.

Response Utilize the paddle dryer to catalyze and control reactions, Benefiting from our capacity to correctly temperature and home time. It can be employed for each exothermic and heat-absorbing reactions. The large degree of mixing as Section of the response system permits complete mixing of multiple components.

Crystallization Use the paddle processor for selective polymer crystallization or crystallization at controlled rates and temperatures.

Supplies processed contain Chemical: salts, catalysts, brominated organics, cellulose, starch Petrochemical: solids de-volatilization fractions Polymers and plastics: polypropylene, polycarbonate, polyphenylene sulfide, PET, PTA Foodstuff: flour, beverage powder, candy components, meat items, biomass, hemp, and so forth. Minerals and metals: metal powders, metal carbonates, sulfates and hydroxides

To know more details visit here: PADDLE DRYER MANUFACTURER

09-11-23

OK, got both units triaged.

Yaknow those times when ya go in for an oil change and end up needin' a rebuild? Almost that. Not quite, but close.

Several "we got that goin' for us, which is nice" things, but enough stuff requiring soldering to replace shit while I'm under the hood, as it were. Below is yer handy dandy photoessay of...

Situation Dynaco '23

First thing to realize is that both of these could date from as early as '59, to as late as '71 or '72. Some possible repairs along the way, not by me. But overall? Both the preamp and power amp look quite good for their age.

Here's the innerds of the PAS preamp:

Nothing overtly terribly wrong at first glance. I definitely need to spend some hours and elbow grease on a few issues, namely cleaning all the controls. The rotary input selector is really almost immovable. I need to clean and lube it before one of those wafers cracks. One of the treble controls is frozen in full on, which is where it stays much of the time. Volume, balance, and stereo-blend need cleaning. That's not bad for a 60-70-year-old piece of gear.

Now, looking closer at what is the first obvious candidate, the power electrolytics and selenium rectifier stack, we see one of the caps is deformed and spewed some gunk.

Now this was a kit-build unit. The factory-build units used rivets instead of tiny screws and nuts to mount the PC boards and other major components. Like the hardware, like the input jack array on the back:

Two missing screws/nuts. Luckily I have spares. That could've been part of the final straw, as well. But so far? Not much else to complain about.

The quad cap is surprisingly clean. Both of the PC boards in the PAS are in great shape, no real heat damage. Might hit a few of the solder joints with a hot iron to reflow, but that's it for the PAS.

So for the PAS we're lookin' at a general clean/lube, and replace the electrolytics and put in a diode kit to eliminate the selenium stack, and we oughta be back in business.

Now, the ST-70 is in much the same shape, but it has some obviously more serious needs.

What happened with it was I was listening one afternoon and heard a slight "fizzling" sound, like the bubbling of a soft drink freshly poured. Looked over at the amp to see the left front tube glow, kinda sparkle and then when it stopped, so did the fizzling, but not before the 5AR4 and remaining EL34 on the left side glowing red, ending up with heat damage.

I shut everything down and re-routed the PAS through my venerable old Altec-Lansing computer speaker system, Beige Era. At least I could still transcribe vinyl to SSD, with my Dual 1219/Shure M91ED fed into the phono section on the PAS. with the tape out on the PAS going to the mic/sound-in port on the Mac Nehalem tower. But when the PAS failed, all bets were off, thus, I'm pushed into action to grab a soldering iron again.

So here's the Beast, that front EL34 cracked, as well. You can see the ring of heat damage on the other EL34 of the left channel. That 5AR4 rectifier was almost silverless by the time of the incident, so I'm guessing that was the first point of failure.

First time I've seen a rectifier completely DE-SILVERED from old age!

Again, remarkably clean overall underneath. You can see in the closer views below that one of the elctrolytics spewed its guts onto the side wall.

The driver board is in fairly decent shape. The heat damage to the left 7199 area is actually almost nothing compared to how dark some of them I've seen are. The excessive heat wasn't too terribly damaging, which is a good thing. The choke has never suffered a wax meltdown, which I've seen a lot, which also points to heat damage being minimal.

And yeah, I'll tell my obtuse originalist self to stfu and put a diode kit in here, too.

So for the ST-70 to live again, first it'll need a fresh matched quad of output tubes. The quad that are in there now was a matched set of Raytheons from Japan ('60s). The rectifier tube becomes meaningless when we put the diode kit in place of the selenium stack. The electrolytics are the original Dynaco parts! I'll replace them for sure, esp since it appears that one has spewed in the past.

And in the "Since yer under there anyway..." category, yeah, might as well freshen the bias pots along with the associated diode kit stuff.

So that's the situation as it stands. What'll it take? Parts money and tube money. But too much else needs payin' for first.

Last time I had to look up Dynaco parts was a good long while ago. Hopefully some of the old sites still operate. I'll look at them with an after-dinner cuppa coffee in a couple hours.

"Later that evening..."

Well, it looks like dynakitparts.com is still in the biz, so that's the go-to place for the parts. The PAS could get going with this:

plus a goodly amount of deoxit and a few hours of wearing the bifocals.

So with tax/shipping it'd be around $41 for the PAS.

The ST-70 would need the same treatment, which is oddly cheaper:

But, it will also need a matched quad of EL34/6CA7. The most like the square-shouldered "mullard clone" design I've got is gulp-inducing:

Meanwhile, the cheaper set would be JJ, which are generally good tubes:

That's still $120 plus shipping/tax, prolly close to $140 for the ST-70 to run again, plus $40 for the PAS would be $160 to get 'em both goin' with basic tubes, $250 for exact Mullard clone tubes. All of which is a pipe dream at this point.

I figured I'd need to do this sooner or later, but damn...I guess should shoot for just what the PAS needs, since it's the most reasonable. Getting the ST-70 going will have to wait.

Well fuck. I guess it was inevitable.  My Dynaco PAS3X went tits up.  Heard a pop and it went dark.  Great.  I haven’t opened it up yet to see what it was that popped.  Probably a capacitor.  Or one of the tubes might’ve given it up.

So it sits there, along with the ST70 that needs an output tube and probably more.  A buddy was supposed to send me one, but it’s been nearly two years he was gonna send one. 

See?  This is why being broke sucks.  There is no “discretionary income” for poors.  None.  Unless you can fix it with spit and duct tape, you are just fucked.

Until I can fix at least the PAS3X, my vinyl transcribing is effectively on hold.  My turntable fed into the PAS3X and its tape output went into the Mac Tower.  Beautiful sound on the transfers of what I’ve gotten made so far. 

Very few will even know wtf I’m talking about. 

Just an old man kvetching.

Go back to sleep.

How Easy to Maintain Block Paving Driveway

Block paving is a great choice for a driveway. Taking care of the driveway will help it last longer. This article will cover how to clean with a pressure washer, apply a sealer every 2 years, and keep weeds out. It will also help you find ways to keep your driveway looking great.

Maintenance of block paving driveway

If you have installed a block paving driveway, then you will need to take care of it if you want it to last for a long time. Despite its durability, block paving is not immune to weeds, dirt, and moisture.

It is important to regularly clean it with soapy water to avoid any potential problems. You will also need to remove weeds that may have grown in between the blocks, especially if you live in an area with a lot of plants.

Block paving driveways are susceptible to tyre marks. These will fade with time, but you can speed up the process by regularly scrubbing the affected area with hot water. Alternatively, you can use a pressure washer, but remember to keep the nozzle at least a foot away from the surface to avoid damaging the sealer or jointing compound. A specialized cleaner such as Azpects Grease & Oil Away is also a good choice to remove stubborn stains.

Cleaning with a pressure washer

Before you clean a block paving driveway with a pressure washer, it's important to understand the risks of using it. While a pressure washer can remove a lot of dirt, it can also etch the surface. This is why you should only use it as a last resort. Moreover, you should never use it on the joints of block paving. Before you start cleaning a driveway with a pressure washer, make sure you clean the house as well.

Before you begin pressure washing, you need to remove weeds from the area. You can do this by hand or with a weed removal tool.

Remember not to use high-pressure water on weeds as it can damage the underlying sand. If you are using a pressure washer, use the rotary head attachment. This will help keep the water away from the surrounding area.

Applying sealer every 2 years

Sealing your block paving driveway can help to protect it from damage and keep it looking great for years. After you have installed the paving, follow the instructions to apply sealer on the surface. After the first coat, apply a second one a few hours later.

It's best to wait a day after cleaning to apply the sealer. This allows the paving to completely soak the sealant, which will make it last longer. You should also make sure that the paving is clean of leaves, dust, and kiln-dried sand. These things can get trapped under the sealer.

To apply sealer, make sure that you choose a product that is breathable and water-based. Water-based sealants are highly durable and will last for years. Using a good quality sealer will protect your block paving and prevent dirt and mould from growing on it.

Removing weeds

To remove weeds from your block paving driveway, you can either use a hose or a weeding tool. Typically, the weeding tool is a billhook or a sturdy knife. Use one hand to poke the tool into the cracks and sway back and forth to remove the weeds' roots.

When removing weeds from your block paving driveway, you must remove them from the surface first. Use a special weed-killing product if they're growing between the pavers. Make sure the weed killer penetrates into the gravel so that it reaches the soil below. Other options include salt solution or vinegar.

Cleaning with weed killer

Cleaning block paving driveways can be a difficult task, but there are a few methods you can try. Using a hose to spray weed killer is probably the easiest way to start, and you can also use a weeding tool - a billhook or sturdy knife works well.

To get rid of weeds, stick the tool into the cracks with one hand and move back and forth with the other to loosen the roots.

There are different types of weed killers for block paving, and you should choose a product that is suitable for this surface type.

Select a product that soaks into the roots and kills the weeds. Some weed killers are also available in chemical-free formulas, which are safer for children to use. However, you should be aware that these products do not always prevent regrowth.

Welding effect of vacuum brazing furnace

Vacuum brazing means that the workpiece is heated in a vacuum chamber. It is mainly used for the welding of high-quality products and easily oxidized materials. The vacuum brazing furnace consists of a pressure vessel with a cylindrical side wall and a door whose size and position are designed to close one end of the cylindrical side wall. The workpiece handling system is installed on the pressure vessel door to support metal workpiece for heat treatment or brazing. The workpiece processing system includes a device for turning the workpiece during processing. The vacuum system can be connected to the workpiece so that the pressure inside the workpiece is lower than the atmospheric pressure during brazing. Brazing in vacuum furnace is a new brazing method without flux in vacuum. Because brazing is in vacuum environment, it can effectively eliminate the harmful influence of air on the workpiece, so it can be successfully brazed without flux. It is mainly used for brazing those hard to braze metals and alloys, such as aluminum alloy, titanium alloy, superalloy, refractory alloy and ceramics. The brazed joint is bright and compact with good mechanical properties and corrosion resistance. Vacuum brazing equipment is generally not used for needle welding of carbon steel and low alloy steel. Vacuum aluminum brazing furnace is mainly composed of vacuum brazing furnace and vacuum system. There are two types of vacuum brazing furnace: Hot fireplace and cold fireplace. The two types of furnaces can be heated by natural gas or electric heating, and can be designed as side loading furnace, bottom loading furnace or top loading furnace (Kang type). The vacuum system can be used in general. The vacuum system mainly includes vacuum unit, vacuum pipeline, vacuum valve, etc. The vacuum unit is usually composed of rotary vane mechanical pump and oil diffusion pump. Only using mechanical pump can get vacuum degree lower than 1.35 × 10-1pa. In order to obtain high vacuum, the oil diffusion pump must be used at the same time. At this time, the vacuum degree of 1.35 × 10-4Pa can be achieved. The gas pressure in the system is measured with a vacuum gauge. 7 Types Of Annealing Process SPS Spark Plasma Sintering System The Influence Of Vacuum Brazing Heating Rate On Brazing Quality

Small Asphalt Mix Plant

The productivity of small asphalt mix plant is 40-80 ton per hour, although the productivity is not high, the configuration is in accordance to the standard. The main components of the small model asphalt mixing plant adopt high technology yo ensure the mixing performance and long service life.

1, Dust removal system The dust removal system of small asphalt mix plant uses German technology to combine the first-stage gravity dust collector and the second-stage bag filter into one, which fully saves the floor space. The filter bag made of NOMEX material from DuPont, USA has a dust concentration of less than 25mg/Nm3. The system has an over-temperature protection system.

2, Mixing system The vibrating screen of small asphalt mixing plant using German technology is a double vibrating shaft linear screen. The double vibrating shaft is placed outside the screen body, and the bearing adopts the European technology immersion lubrication mode, which is very convenient for maintenance. The screen is fixed by fast hook spring tension, which makes the replacement of the screen fast and convenient. The thermal insulation hot silo is equipped with a thermal insulation system. The stone adopts a secondary weighing method to realize the initial weighing of the stone and a fine weighing. The automatic splash error correction control method can effectively reduce the splash error. For large tonnage, double aggregate scales are used for simultaneous measurement, which not only ensures accuracy but also improves efficiency. The agitator of asphalt mixing plant adopts European technology, driven by a double hardened gear reducer motor, and gears are synchronized. The weighing sensor for the scale is an imported sensor with high weighing accuracy, which can meet the requirements of any grade of highway. The rotary unloading door is operated by double cylinders, the discharge time is short, and the sealing effect is good. The liner and blades are made of high-strength wear-resistant cast iron.

3, Finished material storage system The finished material storage system of small asphalt mix plant has bottom type and side type for users to choose. The bottom-mounted storage system consists of a storage bin, a waste bin, and a transport trolley or guiding mechanism. It has a compact structure, a small footprint, and saves energy. The side-mounted storage system is composed of lifting rails, lifting carts, waste bins and finished material storage bins. The inverter, photoelectric encoder and proximity switch are used for joint control, and the winch drive motor is controlled by forced air cooling and variable frequency control. The wall of the storage silo is insulated with 100mm rock wool, and the pneumatically controlled discharge door adopts an electric heating heat-conducting oil device to ensure easy opening and closing.

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Zaozhuang Make Machinery Co., Ltd. power press breakdown and maintenance 1. The crankshaft bearing is hot, the Bush is not scraped well and the lubrication is poor. Scrape and grind the copper bush again and check the lubrication. 2. There are copper scraps in the oil flowing from the bearing, and the lubricating oil is not clean. Check the lubrication condition and disassemble the bearing for cleaning 3. The guide rail is burned, the clearance is too small, the lubrication is poor, and the contact is poor. Grind and scrape the guide rail again, adjust the clearance and pay attention to lubrication 4. During operation, the clutch does not engage or the rotary key cannot be disengaged after the clutch is combined. If the spring loses the elastic key, the joint clearance of the spring and grinding key is replaced too tightly 5. When the clutch is disengaged, the slider cannot stop at the top dead center position. The tension of the brake belt is not enough, the brake belt is excessively worn, there is oil skid on the brake wheel, adjust the brake spring tension, replace the brake, and clean the brake belt and wheel rim with kerosene 6. The ejecting plate does not work and the position of the striking head is not correct. Adjust the position of the head and turn the flywheel by hand to try to retreat 7. Connecting rod screw rotation or impact, locking device loose, rotating locking device 8. The ball head of the connecting rod screw is impacted in the ball pad of the sliding block, the contact between the ball head and the ball pad gland is poor, the gland screw is loose, scrape and grind the ball head and ball pad, and tighten the gland screw 9. Press the button (turn on) to stop working. The power supply is open and the thermal breaker is cut off. Check the circuit system and eliminate the fault The power press produced by Zaozhuang Make Machinery Co., Ltd. has stable structure, high work efficiency, high safety coefficient and saves labor cost. Now we have JH21-63, JC21S-25, JC21-40, JB23-16 and so on. https://www.instagram.com/p/CHKLTPCj_0s/?igshid=15km3jlhug8ct

Fusematic Bonding Systems Are Taking Friction Welding Into A New Era Of Portability, Controls, Safety & Capability, Providing The Latest Advancements In Engineered Fastening Solutions Technology

https://authoritypresswire.com/?p=33077 Welding is not an activity to be taken lightly, especially in potentially combustible environments like maritime, shipping, oil and gas, manufacturing, and aerospace industries. Learn more about this new way to bond metals more safely and faster than traditional welding that uses a flame or arc to accomplish.The American Welding Society (AWS) recommends extensive precautions and preparation to prevent fires during welding activities, which can be time consuming and expensive.Fusematic Bonding System friction welding technology protects industry operators from fires caused by heat, flame, or sparks.Sparks from welding and cutting metals can easily result in devastating fires for refineries, industrial plants, and shipyards to name a few. “The FBS is profoundly changing the way our customers approach their welding operations. Using this tool, repairs can be made without shutting down, draining, and cleaning oil and chemical storage tanks, pipelines or dry-docking water vessels, allowing operations to run uninterrupted,” says John Griffin, President of Fusematic Corporation. “An unskilled technician with minimal training can use the FBS to weld an engineered fastener in 15 minutes or less. Welding fastener attachment points is now four times faster, with guaranteed joint integrity and no risk of sparks or flames that become ignition sources.”Industry experts like Ernest D. Levert, Sr., a Lockheed Martin Fellow and former President of the American Welding Society, says about the technology: “The Fusematic Bonding System is by far safer, faster, and more economical than other welding processes for specific materials joining applications. Fusematic Bonding Solutions joins materials on the Surface, Underwater, and in Outer Space. Wherever high-strength, consistent bonding is required, Fusematic should be on-site as a vital part of any operation."Fusematic’s mission to provide engineered solutions that will mitigate operational risks, pollution events, while saving lives and preventing injuries while saving the end-users Millions of Dollars in hard and soft costs in the process with its game-changing and disruptive technology. Fusematic’s revolutionary patent-pending solid-state rotary friction welding technology and derived machine tools that can be used onshore, topside, underwater, and in hazardous and explosive work environments with no surface prep or hot work permit requirements. Saves time, money, and lives with a portable and safe engineered fastening solution for bonding metals and composites together. The FBS is powered by compressed air, eliminating the need for hydraulic, oxygen and acetylene or electrical components, and can be used in areas where flames and sparks are prohibited, such as in oil and gas facilities, pipelines, storage tanks and terminals, and areas where hazardous gases are present. The resulting weld joint integrity can be dialed in to be as strong as the parent metal and/or workpiece metals after being bonded. The system is man-portable, so technicians can easily transport the welding machine tool and peripheral components into compact areas or even underwater. The process, known as solid-state rotary friction welding uses compressed air to forge two metals together to attach engineered industrial fasteners made of similar or dissimilar materials to above water or underwater surfaces, facilitating construction, retrofits, and repairs in most all heavy industries. Portable Friction Bonding System Advantages:• Substantial Labor Savings• Significant Cost Savings• High Production Rates requiring less skilled labor• Achieves consistent, incredibly high-strength bonding in a fraction of the time• No Filler Metals, Fluxes, or Gases Needed• Reliable Welded Joint Integrity• Precise and Repeatable Process• Intrinsically Safe and can be used in hazardous or flammable environments • Joins Dissimilar Metal Combinations• Welded Joint Integrity is Very Reliable�� Environmentally Friendly, No Fumes or Waste• Repairs can be made without shutting down• Safer, faster, and more economical than other welding processes• No risk of sparks or flames that become ignition sourcesIndustries That Need Fusematic And The Fusematic Value Added Propositions:Their markets can be summed up in one basket…Heavy Industries. Heavy Industries includes the 24 hour/7 days per week/365 days a year continuous operations in manufacturing, maintenance, and repair activities in the energy, maritime, inland marine, military…onshore and offshore, topsides and underwater markets and even in outer space. They are bringing together and incorporating the latest elements in Industry 4.0, Intelligent Welding, AI, IIot, machine learning, robotics, big data, autonomous and remote operations. Their disruptive technology impacts the $142 billion welding machine and welding supplies market combined with the engineered and industrial fasteners markets. Corrosion Management is a significant area where Fusematic Bonding System can make a significant impact on heavy industry.It is estimated that the corrosion market generates $2.5 Trillion in costs spend worldwide with costs upwards of 3-5% of US GDP to mitigate. Any oil and gas refinery, petrochemical plant, offshore energy production platform, power plant, pulp, and paper plant, pharmaceutical plant, ship repair, conversion, and modernization yard, or liquids and gas storage facility’s assets will suffer wear and tear over time due to corrosion and erosion, therefore, compromising the integrity of the assets which has significant direct and indirect costs to mitigate. Organizations that have Corrosion Management Programs are recognizing the need to operate at the absolute lowest cost with the absolute highest reliability and safety standards. A sound technical corrosion control solution incorporating Fusematic Bonding Systems will result in a positive ROI. Use of Fusematic delivers immediate cost-effective repair, retrofit, and maintenance solutions to strengthen the integrity of the asset without the asset owner having to cease operations and without the risk of causing an explosion if the activity occurs in a hazardous/explosive operating environment. Contact Fusematic Corporation at https://www.fusematiccorp.com/contact for a technology demonstration to see how this innovative portable friction welding system can change the way we weld engineered fasteners forever.

Rotary joints union best water steam hot oil  air or hydraulics  alcohol milk chemicals 1/4 inches to ten inches

hinterhouse, La Conception, Québec retreat

hinterhouse hotel La Conception, Québec Rural Retreat, Canada Countryside Architecture Photos

hinterhouse, La Conception, Quebec

8 Sep 2020

hinterhouse hotel in La Conception

Design: Ménard Dworkind Architecture & Design – MRDK

Location: Mont-Tremblant valley, Québec, Canada

hinterhouse in La Conception

English text (scroll down for French):

Hinterhouse is nestled into a densely forested hillside with sweeping views of the Mont-Tremblant valley. The 16-foot wide house, designed to be prefabricated, can be driven on local roads and delivered to site. The hintercompany hotel concept aims to provide an escape from the hustle and bustle of city life, providing its guests with an opportunity to strengthen their connection with nature. Striving to give back, the hintercompany plants 10 trees for every booking.

This compact house fits two bedrooms, one bathroom and an open-plan living space into 930 square feet. The living space, flanked by floor-to-ceiling windows on both sides, is organized around a central wood stove that rotates 360°, providing relaxing views of the fire from every angle.

A maple farmhouse table, crafted with bridle joints, doubles as a kitchen island ¬– one of the space-saving techniques in the house. A custom vessel-sink raises a cutting board to a comfortable height and is compartmentalized to include a herb garden full of basil, mint, and sage. The bedrooms fit queen beds snuggly wall-to-wall. Sliding panels hide a TV at the end of each bed letting you cuddle up to a movie or focus on the expansive views out the window.

A ceiling cove wraps around the house to provide space for recessed blinds and indirect lighting. In the bathroom, the concrete slab stretches into the curbless shower and a large window provides views of the forest while showering. A focus on transparency in every room pulls the distant landscape into the house.

The skin and bones of the house were built almost entirely out of sustainably-forested native wood. The house’s exterior is wrapped in 2-1/2” custom-milled white cedar boards, a low-maintenance choice that will ensure hinterhouse ages graciously while blending with the surrounding forest. The interior is clad with red pine planks oiled white.

The central service block is covered with ebony-stained Douglas fir plywood. Sliding shutters help control the light and privacy at hinterhouse. The shutters were designed to mimic the siding; the gaps in the shutters align with the channels in the cedar cladding. The house can transform and close up completely for protection from the elements, or slide open to allow the light and views in.

A winding staircase carved out of the hillside leads down to a sauna designed as a replica of the main house. To complete the full cycle of hot, cold, relax in the Scandinavian spa experience, the sauna is equipped with an outdoor cold shower and hanging hammocks.

FRANÇAIS

Hinterhouse se niche dans les montagnes densément boisées des Laurentides, offrant une vue panoramique sur la vallée du Mont-Tremblant. La maison de 16 pieds de largeur, conçue pour être préfabriquée, peut être acheminée sur le site par les routes locales. Le concept hôtelier hintercompany a pour mission d’offrir à ses usagers un refuge loin de l’agitation et de la cacophonie de la ville où ils pourront reconnecter avec la nature. Voulant réduire son empreinte écologique, hintercompany plante 10 arbres pour chaque réservation.

Se voulant compacte et discrète, la maison loge deux chambres à coucher, une salle de bain et un plan ouvert, totalisant 930 pieds carrés. L’espace de vie, flanquée de fenêtres pleine-hauteur sur deux de ses façades, est articulée autour d’un poêle à bois central pouvant pivoter sur 360 degrés. L’ilot de cuisine central fabriqué sur mesure sert aussi de table de cuisine – une des astuces d’économie d’espace.

Un évier de béton sur mesure est déposé sur l’ilot et compartimenté, incluant un jardin de fines herbes ainsi qu’une planche à découper surélevée à une hauteur de travail confortable. Les lits queens des chambres à coucher sont pratiquement encastrés entre les murs. Des panneaux coulissants cachent les téléviseurs au bout de chaque lit, donnant l’option de faire une grasse matinée cinéma ou de les dissimuler pour apprécier les sublimes vues aux alentours.

Une alcôve ceinture le périmètre du plafond et cache les rails de rideaux ainsi qu’un système d’éclairage indirect. Dans la salle de bain, la dalle de béton polie se prolonge dans la douche, où une grande fenêtre ofrre une vue sur la forêt. Les nombreuses et grandes ouvertures de la maison éliminent les frontières délimitant l’intérieur et l’extérieur.

L’enveloppe et la structure de la maison ont été conçues à partir de bois indigènes. L’extérieur de la maison est entièrement enveloppé de baguettes de cèdre blanc embouveté de 2-1/2. Offrant une stabilité et une résistance exceptionnelle aux intempéries, le choix du cèdre s’est imposé de façon aussi naturelle que son intégration dans son environnement. Ne nécessitant aucun scellant ni entretien, le cèdre assure que hinterhouse vieillira en beauté.

Les murs et le plafond intérieur sont quant à eux habillés de planches de pin rouge blanchies et traitées à l’huile. Le module de service central est recouvert de contreplaqué de sapin douglas teint en noir. Les volets coulissants à l’extérieur permettent de contrôler l’entrée de la lumière ainsi que le niveaux d’intimité voulue.

Les baguettes constituant les volets s’alignent parfaitement avec les baguettes du revêtement extérieur. La maison peut se transformer : complètement fermée pour être protégée des éléments ou complètement ouverte pour profiter de la lumière et des multiples vues.

L’escalier sinueux fait son chemin au bas de la colline jusqu’au sauna conçu comme une réplique en miniature de la maison. Pour bénéficier des bienfaits de l’expérience thermale scandinave, le sauna est doté d’une douche froide extérieur et d’hamacs.

hinterhouse, La Conception hotel, Québec – Building Information

hinterhouse

ARCHITECT: Ménard Dworkind Architecture & Design

STRUCTURAL ENGINEER: Geniex

LOCATION: La Conception, Quebec, Canada

AREA: 1000 square feet

DATE: July 2020

PHOTOGRAPHER: David Dworkind

MATERIALS: Exterior cedar siding (custom channel profile), Oiled red pine interior siding by Unik Parquet, Rotary cut fir plywood with Varathane ebony wood stain, Daltile 1×1 keystone white mosaic tile, Reynaers windows, Pella entry door with August smart lock, Durvait toilet.

hinterhouse, La Conception hotel, Québec images / information received 080920 from MRDK

Address: La Conception hotel, Québec, Canada

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How to Install Rotary Vacuum Pump

Reasonable installation of rotary vane vacuum pump can not only ensure the normal operation of the pump, but also prolong the service life of the pump. Then how to install rotary vane vacuum pump correctly? Next, vacuum pump experts will introduce the installation method of rotary vane vacuum pump for you.

First, after opening the box, carefully remove the rotary vane vacuum pump body, spare accessories and instructions and keep them for future reserve. Remove the filler and wipe off the dust and dirt on the surface of the pump. Count the number by packing list.

Secondly, the rotary vane vacuum pump is installed in the room with clean environment, good ventilation and sufficient light to meet the requirements of Article 4. Pumps should be installed in a certain ample site according to the use, so as to facilitate operation and maintenance. See the shape and size of the pump. Rotary vane vacuum pump can be placed on a solid flat ground, without special foundation. If it needs to be fixed, additional screw and foundation can be firmly fixed. See the size of foot screw. If the rotary vane vacuum pump is close to the precision instrument, it should be considered to add shock-proof device.

Connect the vacuum hose or flange to the rotary vane vacuum pump. If the flange is connected, there should be rubber groove on the flange. See figure 50 for the form and size of the flange. The diameter of the pipe connecting the pumped container should not be less than the diameter of the pump intake, the pipe should be short, and the joint should be less. Otherwise, the pumping speed should be affected, and the leakage of the pipe and joint should be small. The gas volume of the pumped container should be in accordance with the pumping speed of the pump. The relationship between the pumping speed of the rotary vane vacuum pump is shown in Fig. 4. It is suggested that a vacuum valve be installed between the pump and the pumped container to control the gas flow. For pumps, it is recommended to install a vent valve (or solenoid valve) to vent the pump when it stops, which can prevent oil return and start easily.

Then, the power supply is connected according to the voltage and wiring mode indicated by the motor sign, and it is suggested that the safety device be used to avoid overload, and the direction of motor rotation should be determined in accordance with the direction of arrow on the pump. Remove the exhaust plug and install the exhaust hood, or remove the sleeve on the exhaust nozzle. The rotary vane vacuum pump needs the cooler to connect to the water source.

Finally, if it is necessary to remove toxic and corrosive ferrous metal gases, gases with chemical changes to vacuum oil, and gases with dust and atmospheric temperature, relevant devices such as neutralization, cooling and filtering should be installed in the intake pipeline to cooperate with the use, otherwise the performance and service life of rotary vane vacuum pump will be affected. When extracting harmful gases to human body, corresponding pipes should be installed to lead the exhausted gases outdoors away from the work area for treatment.

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high-Vacuum Transformer Oil Filtration And Dehydration Plants In India-AR ENGG.

High Vacuum Transformer Oil Filtration and Dehydration Plants

High-Vacuum Transformer Oil Filtration And Dehydration Plants are suitable for all types of electrical insulating oils. We have standard high-vacuum filtration and dehydration plants to remove moisture (free as well as dissolved), gases, dirt and oxidation products from mineral-based and synthetic, silicon oils and others. Systems are in flow rates from 300 LPH to 12000 LPH. Custom built plants can be provided as per customer’s specific requirement, such as more flow-rates. These plants work on low temperature, high vacuum principle. Plants mainly consist of heating, filtration and vacuum system. Heating system aids to the filtration and moisture removal. Filtration systems remove suspended particles down to 1 micron such as rust, dirt, scales, colloidal carbon etc. Vacuum Systems remove moisture (emulsified as well as dissolved) down to < 5 – 10 ppm depending on the working vacuum of the plant.

Working SystemsOptionalsPlant Can Be SuppliedPoints For Selection Of PlantsHow To Configure The ModelTransformer / Insulating Oil Filtration and Dehydration Plants / Purifiers are available for:Transformer and capacitor manufacturers – skid mounted plants for preparation of new oils prior to apparatus filling and impregnation.Transformer repairers -- complete plants for preparation of new oils and regeneration of used oils for reuse. We can provide the purification system you need as well as vacuum storage tanks and transformer filling and emptying / pumping station.Transformer owners -- portable plants are available in a variety of trailer-types and sizes to allow on-site servicing of transformer oil right in the substation. Trailers are available with a wide variety of options including laboratory space, oil-testing equipment. Plants are designed for drying out of the transformer insulation and oil filling and impregnation under vacuum. Hot oil circulation and hot oil spray methods can also be used.

Plants are available in different types of constructions such as open & enclosed models, stationery, portable & mobile models, with single & double stage degassing / dehydration system.Our single stage plants (Models 1V) are capable of attaining following oil parameter in 3-5 passes and Two Stage Plants (Models 2V) in 1-3 passes depending on the oil condition:SR. NO.UNITSPARAMETERSBEFORE FILTRATIONAFTER FILTRATION

1Break Down Voltage with 2.5mm Electrode Gap.kV25>50- 70

2Moisture Removalppm50-100Up to < 5 - 10

3Neutralization Value (With IRC Option Only)mg of KOH/g0.5< 0.1

4Particle size (Filter Fineness)MicronVisible< 1

5Gas Content% Vol./Vol.<10%< 0.1%

Generally the plants are as per the schematic diagram attached. The plants mainly consist of following major components:Working SystemsOIL TRANSFER & CIRCULATING SYSTEM :It mainly consists of Inlet Pump (Gear type positive displacement), Outlet Pump (Positive displacement Gear type or Glandless Centrifugal) and necessary valves & piping as per the schematic diagram to ensure easy operation and maintenance. Complete system is vacuum tight to have a leak-proof operation. The piping joints are flanged type with O’rings. Chambers are provided with suitable draining arrangement.HEATING SYSTEM :

It is capable of heating the oil from 25°C to 80°C. It contains Insulated heat exchanger with indirect low watt density (Less than 2W/cm2) bobbin type electric heaters. Oil temperature is controlled with thermostat. Suitable oil distribution system is provided to ensure uniform flow of oil over heaters. It will be provided with:

Indirect Type Heating Elements made out of Nichrome wire elements fixed in refractory formers and inserted in finned MS tubes welded to heater chamber plate. Watt Density will be less than 2 Watts / cm2.

Temperature Control: Thermostatic

Temperature Indication: Dial Stem Type Thermometer.

Thermal Insulation: Glass Wool enclosed with CRCA sheets.

FILTRATION SYSTEM :It is suitable for removing suspended particles such as colloidal carbon, oxidation sludge, dirt, rust, up to < 1 micron. It consists of PRE FILTER, INTERMEDIATE FILTER and FINE FILTER elements

PRE FILTER: is a metallic strainer with magnet. It removes magnetic and coarse suspended particles and to protect inlet pump from damage due to abrasion.

FINE FILTER: removes all suspended particles up to < 1 micron. Filter Elements are either non-hygroscopic molded cellulose cartridges or cleanable (with reverse airflow) edge type filter candles. Filter cartridges are easily replaceable. Additional Intermediate filter is provided to increase life of fine filter elements.

DEGASSING & DEHYDRATION CHAMBER :It is designed to remove large portion of dissolved impurities (Including Moisture) from oil. Knitmesh packing trays and oil dispersing system are provided to have sufficient exposure of oil to vacuum during filtration. Oil level is controlled with float switch. It will be provided with:

Shower arrangement and Raschig ring trays for formation of thin oil film to get more exposure of oil to vacuum.

Siphon seal to ensure longer travel of oil during degassing (for 2V plants)

Sight glasses, illuminating lamps and float switch to control oil level.

PRV before degassing chamber & SCV after Outlet Pump will be provided to avoid flooding of degassing chamber in case of power failure.

VACUUM SYSTEM :It will consist of following components:

FOR FIRST STAGE OF DEGASSING:

VACUUM PUMP: Rotary Oil Sealed Pump with following specifications:

Free air displacement -*** LPM.

Make - M/s Indo-Woo sung or similar

Electric Motor – ** H.P. Foot Mounted,

Working Vacuum - < 5 torr, Ultimate vacuum - < 0.005 torr

FOR SECOND STAGE OF DEGASSING (ONLY FOR 2V PLANTS):

ROOTS PUMP: FREE AIR DISPLACEMENT: *** M³/Hr

Make – M/s Everest or similar

Electric Motor – ** H.P. Flange Mounted

VACUUM PUMP: Rotary Oil Sealed Pump with following specifications:

Free air displacement - *** LPM.

Make - M/s Indo-Woo sung or similar

Electric Motor – ** H.P. Foot Mounted,

Working Vacuum - <0.1 torr, Ultimate vacuum - 0.001torrIt will be provided with Moisture Traps (water cooled) with drain, airing valve, NRV, Vacuum Gauge will be provided as per the schematic diagram.GAUGES AND INSTRUMENTS :The plant will be provided with following gauges and instruments for easy operation and control of it.

Pressure Gauge: 0 – 7 Kgf / cm², Glycerin filled Bourdon Dial type Ø 63 / 100 mm, M/s Shreeji or similar make.

Thermometer: 0-150°C, Dial stem type. Ø 63 / 100 * 150 mm stem Length, M/s Shreeji or similar make.

Thermostat: 30-110°C, Capillary type. Sai-Ego or similar make.

Float Switch: Float operated magnetic reed switch, RS Model, M/s Sukrut make.

Vacuum Gauge: 0 – 760 mm of Hg Bourdon Dial Type Ø 63 / 100 mm, M/s Shreeji or similar make

Digital Vacuum Gauge – Ace Instruments make.(Only for 2V plants)

VALVES AND PIPING :The plant will have necessary valves and piping for easy operation and maintenance of the plant as follows:

Oil Valves:  ** NB Ball type valves with seals suitable for under vacuum operation. Itap Italy, R / N USA or similar make.

Drain Valves: 15 & ** NB Ball type valves with seals suitable for under vacuum operation. Itap Italy, R / N USA or similar make.

Airing Valve: Quick Release types 10 NB, AR Engineering Make. Solenoid valve (for 2V plants).

Flow Control Valve: Needle or Piston type, AR Engineering Make.

Vacuum Valve: ** NB Ball type valves with seals suitable for under vacuum operation. Itap Italy, R / N USA or similar make.

Swing Check Valves – ** NB Ball type valves with seals suitable for under vacuum operation. Itap Italy, R / N USA or similar make.

PRV - ** NB Ball type valves with seals suitable for under vacuum operation. Itap Italy, R / N USA or similar make.

Pipe Connections: Flange type with synthetic rubber O-ring. AR Engineering Make

Inlet and Outlet Hoses: ** NB Synthetic Rubber reinforced or nylon braided with quick coupling.

CONTROL PANEL :The plant will have centralized control panel for easy and safe operation of the plant. It will have necessary Electrical Control Contactors, Pilot lamps, push buttons, back-up fuses, connectors strips, MCB, Isolator switch etc. All material used in the plant will be of Reputed Make such as GE, English Electric, Siemens, MDS, Anchor, Kaycee, Datar, etc. The plant will have following inter locks:

Inlet Pump – Heaters: Heaters will not be ON unless inlet pump is ON.

Float Switch – Inlet Pump: Inlet Pump will be off when oil level rises.

Thermostat – Heaters: Heaters will be off when temperature rises.

Booster pump – Vacuum gauge relay – Booster is ON only when vacuum is < 50 torr ( Only for 2V plants )

Optionals:IONIC REACTION COLUMN :It will be fabricated out of MS sheets, plates. It will contain sufficient quantity of activated alumina (** Kgs) for reduction of acidity level of oil to less than 0.05 mg of KOH / gm oil. It will be provided with, By-pass arrangement when not necessary & Alumina Cage (fabricated with CRCA caps & SS wire mesh) for easy replacement. It is fitted on the plants of flow rate > 2400 LPH as a standard fitting and bypass arrangement.TRANSFORMER EVACUATION SYSTEM :It will be suitable for working vacuum of either 5 – 10 torr or 0.1 – 0.5 torr. It will be provided with Rotary Oil Sealed Pump or Roots Rotary combination along with Moisture Traps (water cooled) with drain, airing valve, NRV, Vacuum Gauge will be provided as per the schematic diagram.Technical Details for Two Stage Degassing Plants (Model - 1V)

WORKING VACUUM: < 2 Torr; ULIMATE VACUUM: 0.005 Torr

FLOW RATELPH300600120018002400300045006000

MOTOR POWERINLETHP0.250.50.5111.525

OUTLETHP0.50.5111355

VACUUM -1HP0.50.5111225

VACUUM-2HP--------

BOOSTERHP--------

HEATER POWERHEATER-1TOTAL kW36181818183624

NOS x kW1 x 32 x 36 x 36 x 36 x 36 x 39 x 46 X 4

HEATER-2TOTAL kW---1827273624

NOS x kW---6 x 39 x 39 x 39 x 46 X 4

HEATER-3TOTAL kW-------36

NOS x kW-------9 X 4

TOTAL (kW)36183645457284

VACUUM PUMP DISPLACEMENTVACUUM-1M3/HR610.8183636606090

VACUUM-2M3/HR--------

BOOSTERM3/HR--------

FILTER ELEMENTS (1 µm)Ø63 X 500L0.512344710

SUITABLE FOR TRANSFORMERS UPTO750kVA1 MVA5 MVA15 MVA25 MVA50 MVA75 MVA100 MVA

Technical Details for Two Stage Degassing Plants (Model - 2V)

WORKING VACUUM: < 0.3 Torr; ULIMATE VACUUM: 0.001 Torr

FLOW RATELPH30004500600080001000012000

MOTOR POWERINLETHP1.5257.51010

OUTLETHP3557.512.512.5

VACUUM -1HP11257.57.5

VACUUM-2HP1257.57.57.5

BOOSTERHP122555

HEATER POWERHEATER-1TOTAL kW273636363636

NOS x kW9 X 39 X 49 X 49 X 49 X 49 X 4

HEATER-2TOTAL kW273636363636

NOS x kW9 X 39 X 49 X 49 X 49 X 49 X 4

HEATER-3TOTAL kW--36363636

NOS x kW--9 X 49 X 49 X 49 X 4

HEATER-4TOTAL kW---242436

NOS x kW---6 X 46 X 49 X 4

TOTAL (kW)5472108132132144

VACUUM PUMP DISPLACEMENTVACUUM-1M3/HR18366090120120

VACUUM-2M3/HR366090120120120

BOOSTERM3/HR150375500100010001000

FILTER ELEMENTS (1 µm)Ø63 X 500L4710121618

SUITABLE FOR TRANSFORMERS UPTO