Tuesday, August 10, 2010

Better Heat Exchanger Cleaning Through Technology

Maintenance of a platform's Waste Heat Recovery Unit (WHRU) and similar shell and tube heat exchangers can be an extremely dangerous process. It needs to be disconnected, taken off line, and moved to shore for repair. Shell and tube heat exchangers are made of coiled tubes and can become fouled with carbon deposits. The traditional methods for clearing the blockage include bypassing the fouled unit, cutting off bends and cleaning the tubes, then re-welding the U-bends, and complete unit replacement.

The old methods are becoming more outmoded due to advancements in technology. It is inefficient to bypass the unit. Just as it would be less efficient to run your car with 2 cylinders not firing. This inefficiency, of course, also increases operational costs. It is time consuming and costly to cut the U-bends and re-weld them. Sometimes it can be difficult or impossible to get access to reattach them.

Some of these new methods include the ability to clean areas with limited access, and clear deposits from U-bends without ever removing them. This can sometimes be done without even taking the unit offline, and usually takes less time and results in a higher degree of defouling. In fact, many units can be restored to near-factory efficiency. For big refineries, petro-chemical plants, or power plants, this can amount to six figure savings.

The U-bends themselves also retain many deposits, and continue to be a bottleneck to the system. Full replacement carries the cost of completely replacing equipment that, other than the heat exchanger tube fouling, is still in working order. This method also requires the unit be taken offline for the full duration of replacement. obviously this carries a heavy expense and serious loss of production.

Traditional heat exchanger cleaning methods and heat exchanger cleaning equipment have changed very little over the last few decades. Pressure jetting is still the primary means used by many companies, but it is slow, inefficient, and ultimately very costly. Additionally, many companies are skeptical of newer methods, falling back on the "that's the way it's always been done," chain of logic. They are also weary of trying new techniques that are not as "proven" to be effective. Finally, many have long term tube cleaning contracts that do not allow for a change in heat exchanger cleaning technique, unless the contractor were to adopt the new methods.

Newer heat exchanger cleaning equipment and techniques are more technologically advanced, and by extension, require a higher skilled laborer than old style pressure jetting. These new developments include the ability to clean tight radius bends, clean units while keeping them in place, and even while keeping them online. It has also resulted in faster, more efficient cleaning. Many tube bundles can now be cleaned more effectively than with pressure jetting, and jobs that used to take days may now take only a few hours. Difficult to access units are now accessible with these new technologies.

Some of the technology that has been developed includes special nozzles that can be used on tight bends, laser cleaning, and new "smart" metals that respond to changes in density and pressure to prevent damage to the tubes. With these methods, jobs can be finished with less downtime, because cleaning and descaling can be done more quickly. Equipment is also less likely to be damaged in the process. Many of these new processes are safer, create less waste, use no chemicals, and have a significantly reduced environmental impact.

Photo credited to http://www.linde-gas.com.cn/International/Web/LG/CN/likelgcn.nsf/repositorybyalias/ind_other_dry_clean2/$file/ind_other_dry_Cryoclean2.jpg

Sunday, July 18, 2010

Heat exchanger tubes before cleaning using a video inspection pipe camera

Very interesting technology of evaluating the condition of heat exchanger tubing. Check out the video below:



These random tubes was part of an internal inspection to determine the condition prior to mechanical cleaning to remove the hard deposits of the exchanger tubes and later re-inspected after the cleaning to verify removal of the hard deposits. Maverick Inspection Ltd in Sherwood Park, Alberta, Canada has been in the oil and gas industry working for over 16 years.

Refinery Heat Exchanger Tubes Cleaning

Monday, April 26, 2010

Heat Exchanger Tube Bundles Inspection

Heat exchangers are used by many industries, especially in oil refineries and chemical plants. Their purpose is to exchange heat from one place to another, usually from one liquid to another liquid. The continued efficiency of this device demands regular heat exchanger inspection to determine whether or not the integrity of the equipment.

Where are Heat Exchangers Found?

Most homes also have a heat exchanger of some kind. The most common household heat exchanger can be found in a refrigerator. In hot countries air conditioners are common; another kind of heat exchanger. Cars contain them too - the radiator removes the excess heat from the radiator fluid by making use of the natural airflow caused by the car's forward progress.

A similar principle applies in large industry where heat needs to be transferred from one place to another. The most common type of heat exchanger found in oil refineries and other large plants is the "shell and tube heat exchanger".

This design employs a large shell, usually a very large diameter tube that can withstand high pressures. It contains a bundle of tubes inside. The heat exchanged is from two different fluids. One fluid flows through the shell of the exchanger while the other flows through the tube bundle. The two fluids do not make direct contact with each other, but the difference in their respective heat values is changed through the indirect contact that is made.

A shell and tube heat exchanger is a complex design. The internal tubes are often of differing types and design in order to achieve different results. Some tubes may be plain while others may be finned horizontally or longitudinally. The tubes may also be composed of different materials and different thermal conductivity. They may be made from stainless steel, carbon steel, brass, copper or cupronickel, for example.

Because of their complex nature it is necessary to have a regular the equipment regularly inspected. This can determine the wall thickness of the tubes, which are subject to pitting and corrosion as well as erosion over time. The condition of the entire tube bundle can be charted and evaluated through a highly detailed inspection using a device called an Internal Rotary Inspection System.

The Internal Rotary Inspection System works through ultrasonic testing and it is non-destructive in nature. The Internal Rotary Inspection System probe has to be inserted into a tube which is then filled with water.

The Internal Rotary Inspection System probe has a small mirror that rotates and focuses an ultrasonic beam onto the wall of the tube. The mirror rotation is driven by a small turbine, which in turn is driven by water pressure as it is pumped into the tube. The Internal Rotary Inspection System probe is slowly pulled out of the tube at a rate of about one inch or 25 millimetres per second, recording the condition of the internal wall of the tube as it progresses.

The results gained from a heat exchanger inspection using an Internal Rotary Inspection System probe is generally extremely accurate. Its accuracy can be as good as to within .005 inches, or .13 millimetres. Of course, in order to gain this level of accuracy it is necessary for the heat exchanger tubes to be thoroughly cleaned down to bare metal prior to the inspection.

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Photo credited to http://picture617.bloguez.com/picture617/page190/

C. J. Rose writes on the subject of tube bundle and heat exchanger cleaning and onshore/offshore environmental safety for Sureclean, global industrial waste management experts. Topics include HP & UHP water jetting, tank/vessel cleaning, vacuum transfer/pumping, industrial painting, asbestos management/removal, HVAC/duct management, NORM management. For videos see http://www.sureclean.com/video.


Sunday, February 7, 2010

Do You Really Need Fireplace Heat Exchanger Cleaning Equipment?

Before deciding whether heat exchanger cleaning equipment is something you need, it's best to take a step back and make sure you know exactly what a fireplace heat exchanger is. Simply put, it's a device used to make sure no cool air from outside of your home is brought inside when the fireplace returns air it's using from inside your home. So what happens when your heat exchanger breaks or gets built up with gunk and dirt? The fireplace becomes quite ineffective and starts actually cooling your house rather than heating it, the opposite of your intent.

This is where the cleaning equipment comes in to play! The tools are used to clean the exchanger making it possible for your fireplace to function properly at all times, keeping your house as warm as you'd like it to be. Unfortunately, finding the right cleaning gear can be kind of intimidating when it comes time to determine whether it's what you need, or whether there's another problem with the fireplace. Before investing in heat exchanger cleaning equipment make sure you're experiencing the right signs for the need, instead of signs of some other kind of trouble.

These signs include suddenly feeling much colder in the room than usual, especially when the difference seems to have taken place literally overnight. Also make sure that everything else seems to be working right on the unit. Finally, you may want to consult a professional so they can tell you whether you need such cleaning equipment or not. There's a chance the professional can simply take care of the problem for you right then and there, or even rent you the proper heat exchanger cleaning equipment.

If the tools are something you end up having to purchase, don't do so without comparison shopping first. Make sure you find the best deal possible for the highest quality. You'll also want to verify what the return policies are (in case the equipment is something you don't really end up needing or it doesn't work) and whether or not parts on the equipment can be easily replaced.

Sanno Zaye covers more about heat exchanger cleaning equipment at Heat Exchanger Equipment.

Refinery Heat Exchanger Tubes Cleaning

This video presents how a typical high pressure tubes cleaning process seems like. Check it out.

Better Heat Exchanger Cleaning Through Technology

Maintenance of a platform's Waste Heat Recovery Unit (WHRU) and similar shell and tube heat exchangers can be an extremely dangerous process. It needs to be disconnected, taken off line, and moved to shore for repair. Shell and tube heat exchangers are made of coiled tubes and can become fouled with carbon deposits. The traditional methods for clearing the blockage include bypassing the fouled unit, cutting off bends and cleaning the tubes, then re-welding the U-bends, and complete unit replacement.

The old methods are becoming more outmoded due to advancements in technology. It is inefficient to bypass the unit. Just as it would be less efficient to run your car with 2 cylinders not firing. This inefficiency, of course, also increases operational costs. It is time consuming and costly to cut the U-bends and re-weld them. Sometimes it can be difficult or impossible to get access to reattach them.

Some of these new methods include the ability to clean areas with limited access, and clear deposits from U-bends without ever removing them. This can sometimes be done without even taking the unit offline, and usually takes less time and results in a higher degree of defouling. In fact, many units can be restored to near-factory efficiency. For big refineries, petro-chemical plants, or power plants, this can amount to six figure savings.

The U-bends themselves also retain many deposits, and continue to be a bottleneck to the system. Full replacement carries the cost of completely replacing equipment that, other than the heat exchanger tube fouling, is still in working order. This method also requires the unit be taken offline for the full duration of replacement. obviously this carries a heavy expense and serious loss of production.

Traditional heat exchanger cleaning methods and heat exchanger cleaning equipment have changed very little over the last few decades. Pressure jetting is still the primary means used by many companies, but it is slow, inefficient, and ultimately very costly. Additionally, many companies are skeptical of newer methods, falling back on the "that's the way it's always been done," chain of logic. They are also weary of trying new techniques that are not as "proven" to be effective. Finally, many have long term tube cleaning contracts that do not allow for a change in heat exchanger cleaning technique, unless the contractor were to adopt the new methods.

Newer heat exchanger cleaning equipment and techniques are more technologically advanced, and by extension, require a higher skilled laborer than old style pressure jetting. These new developments include the ability to clean tight radius bends, clean units while keeping them in place, and even while keeping them online. It has also resulted in faster, more efficient cleaning. Many tube bundles can now be cleaned more effectively than with pressure jetting, and jobs that used to take days may now take only a few hours. Difficult to access units are now accessible with these new technologies.

Some of the technology that has been developed includes special nozzles that can be used on tight bends, laser cleaning, and new "smart" metals that respond to changes in density and pressure to prevent damage to the tubes. With these methods, jobs can be finished with less downtime, because cleaning and descaling can be done more quickly. Equipment is also less likely to be damaged in the process. Many of these new processes are safer, create less waste, use no chemicals, and have a significantly reduced environmental impact.

Alex Parry writes about heat exchanger safety at his heat exchanger cleaning equipment site

Cleaning Shell and Tube Crude Oil Heat Exchangers

Tube Tech International proved that previous industry standards for cleaning such equipment with U bends were inadequate and, for the first time on this unit, Tube Tech gave not only the straight legs, but also the U sections a complete internal clean.