In the News: CSEMag.com Product of the Year

Drain Tempering Valve Product of the Year - CSEMag.com - ThermOmegaTech, Inc.ThermOmegaTech, Inc has been honored by having two of our valves nominated for Consulting-Specifying Engineer Magazine’s annual Product of the Year award. Both the CircuitSolver™ and the DTV are in the running to be the best Plumbing and Water Management product.

Please take a moment and visit CSEMag.com’s voting page here and select CircuitSolver or DTV as your vote for Product of the Year. You may vote as often as you like.

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The Importance of Return Temperatures

We came across this article on return temperatures. It addresses some key issues in regards to domestic hot water balancing. Our new CircuitSolver™ can be a great way to fix, and even eliminate problems with hot water delivery.

The Importance of Return Temperatures

Delivery & Return Temperatures are the two most critical numbers; these are the temperatures available to the residents at the beginning and at the end of the hot water loop. Too hot is unsafe, too low is unacceptable for cleaning or comfort.

Low Return Temperature is commonly ignored because diagnosis can be tedious and it doesn’t seem like a dangerous problem. Wrong.

Do not ignore a Low Return Temperature Warning! A drop in temperature from delivery to return means that:

  1. Households are quietly suffering with low water temperature,
  2. Residents might be scalded by dangerous fluctuations in water temperature, and,
  3. You are wasting fuel through heat loss.

Return Temperature is like a canary in a coal mine: if there is anything wrong with the hot water system it is often the first alarm to go off. If your return temperature chart isn’t in the pink, your boilers are probably in fine order. But, if you’re seeing a lot of pink, it’s time to fix things before your residents start seeing red

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Special thanks to EDC Technologies, Inc. for letting us re-post this.

Regulate Water Temperature

Avoid permanent injury, freeze damage and corrosion.

In brief:

  • Federal regulations require you to flush supply lines to emergency showers and eyewash stations weekly.
  • The water passing through these devices must be at a temperature between 60°F and 100°F.
  • The showers/eyewashes must be placed strategically, depending on the plant’s physical layout.

Regulations and standards are intended to help keep employees and processes safe. Water temperature can mean the difference between whether an employee incurs permanent injury in an accident, whether outdoor processing facilities avoid expensive freeze damage, and whether a plant can keep operating without extensive maintenance. These matters are critical to operating a safe, compliant, and efficient plant. Continue reading

Remembering Fred Pirkle, 1945-2012

Frederick (Fred) L. PirkleFrederick (Fred) L. Pirkle, owner of ThermOmegaTech, Inc., in Warminster, PA passed away March 9th at his home.

Fred was born on February 17, 1946 in San Antonio, TX to Charles Earl Pirkle and Zutella Bones Pirkle. He lived in San Antonio throughout his childhood and graduated from Harlandale High School in 1964.

In 1970 Fred received a B.S. from the Department of Industrial Technology at Sam Houston State University in Huntsville, TX and in 1972 he received a Masters degree from the same university.

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Following Social Responsibility

Social Responsibility Fred Pirkle

Social Responsibility

“Shotgun Fred’s Guru Crew” The Walk to Defeat ALS!!

Fred Pirkle, aka “Shotgun Fred”, founded ThermOmegaTech® in 1982.

Since then he has patented more than 20 products, including the first temperature control device for charcoal grills/cookers – hence “The BBQ Guru” was born in 2004.

In April 2011, Fred was diagnosed with ALS. As his friends and family are well aware, he is a fighter and continues to fight the disease every day. ALS, or amyotrophic lateral sclerosis, is a progressive neurodegenerative disease that affects nerve cells in the brain and spinal cord.

In Fred’s honor, and in an effort to help support patient service programs and ALS research, ThermOmegaTech® and The BBQ Guru have joined forces with the ALS Association.

We are a corporate sponsor of and have formed a team, “Shotgun Fred’s Guru Crew.” On Saturday, November 5th, we participated in our first Walk to Defeat ALS.

For more information about ALS, Social Responsibility, or this event please go to www.alsphiladelphia.org

Winter is Coming – Use Freeze Protection Valves to Keep Lines Flowing

Winter is Coming - Use Freeze Protection Valves to Keep Lines Flowing - HAT/FP Freeze Protection ValveFreeze protection valves are effective in preventing freeze damage in process lines. Unlike steam or electric tracing, which require power and can cause water to overheat, freeze protection valves operate by simply draining or bleeding water as the temperature approaches freezing.

This prevents the formation of ice that can clog lines, shut off the flow, and cause pressure within the line to build, cracking pipes, valves, and fittings and damaging equipment. Damage due to ice formation can incur costs for replacement parts and labor and reduce productivity due to shutdowns.

Nonetheless, freeze protection valves do not necessarily completely prevent the formation of ice. In some cases, ice may still form as a layer on the inside of a pipe. This acts as a good insulator, reducing further heat loss to the cold outside air. Also, no damage will occur if the ice does not completely block the pipe or equipment flow area.

Damage due to freezing is caused when a pipe or flow passage in equipment is completely blocked. Then, as additional ice forms, the expansion associated with the ice formation compresses the water and causes a dramatic increase in the internal pressure in the line. When the pressure exceeds the pipe’s or housing’s strength, these will break.

Learn more about ThermOmegaTech Freeze Protection Valves

Valves vs. Tracing

When to Use Tracing

Tracing is required when the temperature to be maintained is above the resupply water temperature; that is when additional heat input is required. Use tracing if the complexity of the equipment layout makes it difficult or impossible to bleed or drain the system properly. Also, tracing should be used if the discharge from bleeder or drain valves presents a handling problem. This may be the case in plant areas where all discharges must be controlled or reported or where discharge treatment problems and expenses outweigh the benefits of bleeder/drain valves.

When to Use Valves

Valves are generally more economical to install and operate than tracing. Use valves in remote plant areas where steam or electricity are not available and the cost to provide them is high. Also, use valves when potential overheating from tracing is a problem. In critical applications, where power failures will cut off electric or steam tracing, select self-operating valves as the primary or backup freeze protection system.

Click to read more about how Freeze Protection Valves Keep Lines Flowing.

Circuit Solver Valve

Circuit Solver from ThermOmegaTech, Inc.

Circuit Solver is a self-actuating thermostatic recirculation valve which automatically and continuously maintains the end of each domestic hot water supply line at the specified water temperature. This simple inline valve completely eliminates the need for time consuming and expensive manual balancing procedures and equipment. By allowing only water that actually cools below the setpoint to flow to the return, the Circuit Solver also eliminates the need for oversized recirculation pumps which cause pipeline erosion and waste energy.

The Problem:
1. Water flows to the path of least resistance.
2. Many buildings require multiple branches off the hot water supply line.
3. Hot water use is hyper-dynamic, so the path of least resistance constantly changes.
4. Manual flow control valves cannot properly resolve these issues.

The Solution:
Install a Circuit Solver on each hot water supply branch line immediately downstream of the last run out to a hot tap.

Click here to see how the Circuit Solver Valve works

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Circuit Solver Balancing Valve

 

Frost Valve for Solar Thermal

Frost Valve for Solar ThermalAustralia has the highest average amount of solar radiation of any continent, making it the perfect place for generating power or heating water with energy from the sun. Not surprisingly, the combination of generous rebates and sunny weather has given rise to solar thermal installations across the continent. Generally these installations are quite straightforward, but in the southern part of the continent, temperatures can drop below zero (Celsius), causing freezing problems for some thermal systems.

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OSHA Standard 1910.151(c)

OSHA Standard 1910.151(c) Safety Showers and EyeWash StattionsOSHA Standard 1910.151(c)

Need a refresher on the OSHA standard for safety showers and eyewash stations?

http://www.osha.gov/pls/oshaweb/owadisp.show_document?p_id=9806&p_table=STANDARDS

http://www.osha.gov/pls/oshaweb/owadisp.show_document?p_table=INTERPRETATIONS&p_id=24288

Will OSHA cite a facility for not following the recommendations as stated in ANSI standard Z358.1-1990? Specifically, will an OSHA inspector cite a facility for not supplying tempered water to an emergency eyewash and shower?

http://www.osha.gov/pls/oshaweb/owadisp.show_document?p_table=INTERPRETATIONS&p_id=24119

A Sight for Sore Eyes

Safety Shower and Eyewash

Imagine the following scenario: One of your plant floor employees has just had their eye or skin exposed to a caustic chemical, which needs to be immediately flushed from contact. Per OSHA regulations, you should already have an eye washing station or emergency shower on the plant floor, which the employee should be familiar with. In an instant, they need the proper water, at precisely the correct temperature, to prevent scalding or escalating the issue any further. Can you be sure that your employees are safe in a washing emergency?

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Instrument Performance Problems?

TV/SC-IR Instrument Enclosure Valve

Instrument Performance Problems?

It could be the temperature inside your enclosure.

Are your enclosed instruments under the weather? It might be time to check the temperature inside the enclosure. Enclosures protect instrumentation against adverse weather conditions or physical damage, and ensure that instruments operate in the proper temperature ranges. However, enclosures may not always provide sufficient protection against temperature extremes that can affect instrument performance. High temperatures can cause some fluids to vaporize, while low temperatures can cause some lines to freeze or some products to thicken – even damaging sensitive equipment. For many instruments, the correct temperature of the instrument and sample will affect measurement accuracy. The best way to solve this problem is to equip enclosures with systems designed to maintain interior temperature within the range specified for optimal instrument performance.

Keeping warm

The most common systems used to keep enclosures warm involve steam or electricity – essentially using an outside heat source to keep equipment in the enclosure at a predetermined temperature. Electrical heating can take several forms. Typically, a radiant heater or heating cable is installed inside the enclosure. A thermostat is used to control temperature or the cable may be self-limiting. However, electrical heating has limits. In large installations, the electricity required can be ex- pensive. If combustible substances are present, the possibility of electrical sparks poses risk. And, if the cable breaks, everything beyond the break could freeze.

Read More about Instrument Performance Problems.

Is Your Safety Shower Ready for the Cold?

Temperature Control for Safety ShowersKeeping your safety shower working at optimum performance is important, no matter what time of year. However, cold winter temperatures can make this especially difficult. Water can freeze in supply lines, clogging the system and shutting off flow. And because water expands as it freezes, internal pressure in the line can increase enough to break steel pipes and their associated valves and fittings. The result can be costly replacement parts, in- creased labor costs, and a shower that’s out of commission while it’s being repaired.

Cold weather can bring other problems, too. Water that’s too cold can discourage workers from using the showers for the full 15 minutes as recommended by ANSI and OSHA standards, thereby contributing to worker injury. Although federal regulations such as OSHA’s 29 CFR 1910 do not mandate every detail of safety shower systems, they do specifically require safe work- place conditions. Unless you provide comfortable water for safety showers, these regulations can be easily interpreted to result in safety violations.

There are a number of steps you can take to prevent cold weather from interfering with safety shower performance. Many are relatively simple to implement and can be readily put in place before cold weather begins.

Read More About Is Your Safety Shower Ready for the Cold…

The Dynamics of Freezing

Facts About Water Freezing

Water, when it freezes, changes from liquid to solid. As the temperature drops, the molecules become less energetic, moving more slowly, until they reach a point at which the molecular structure changes, followed by the transformation into ice, or solid water. Unlike most substances which shrink in volume as they freeze, water expands since ice’s molecular structure takes up more space than water. Conversely, when you heat water, the molecules become more excited until they reach the point where the water vaporizes and becomes steam.

There is a misconception that if water can be kept moving, it won’t freeze. Wrong! Water freezes at 32°F (0°C). Period.

Since the expansion of water as it freezes is a fact of life, what things should we know about this process in order to create effective means of dealing with it in industry? Water that has frozen in piping systems does more than simply clog the system and shut off the flow. Because ice takes up more room than liquid, when freezing occurs in a confined space like a steel pipe, the ice will build up extreme internal pressure which is often enough to break the pipe and its associated valves and fittings.

Damage from a burst pipe or valve can escalate beyond just replacing the broken parts, into labor costs for the repair and time/money lost from “down-time” in the affected area. Before effective measures can be taken to prevent such disasters, we need to learn about and understand what is happening.

The Physical Principles of Freezing

What are the underlying principles that determine whether the water in a given device (pipe, valve, etc.) will freeze? We already know that water freezes at 32°F. To arrive at this temperature, heat must be removed (transferred) from the water (Remember – heat always travels from high temperature areas to lower temperature areas). Heat transfer, or the removal of heat from one place to another (i.e. from the 45°F water inside a pipe to the 25°F air outside a pipe) is one of the basic laws of nature. Heat is a form of energy. Others include chemical, electrical, mechanical and nuclear, and each is convertible from one form to another. In the USA, heat is usually measured in BTUs, or British Thermal Units. One BTU is the amount of energy which, when added to one pound of water, will raise the temperature of that water by one Fahrenheit degree (as from 65°F to 66°F).

Click here to read the full article “Basics Of Freezing

Paralyzed Bucks Inventor Puts His Money Where His Heart Is

Warminster, PA (January 22, 2012) It’s hard to imagine a crueler fate for Fred Pirkle, an inventor whose 65-year-old hands have been in creative motion since he was a boy growing up in Texas.

“The first time I stood next to a lathe,” the Bucks County manufacturing executive recalled, “I was shivering all over. I was excited as I could be.”

The first time he got to run a lathe? “I was almost paralyzed with excitement,” Pirkle said.

Today, the excitement is still there, though a fast-moving form of amyotrophic lateral sclerosis, more familiarly known as Lou Gehrig’s disease, has shut down virtually all Pirkle’s voluntary muscle movement.

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