Improper Insulation Installation = Trouble

We recently found a pipe that had been insulated below and above the roofline. The portion of the pipe between the upper and lower roof surface was not insulated at all:

Here’s what the pipe section looked like when it was removed:

This pipe lasted over 30 years before it started to weep. That gouge you see is where the water that leaked through the top of the roof penetration pooled. It’s a Good Engineering Practice to run the insulation COMPLETELY through the interstitial space.

Make sure you check the work of your installers – thankfully the diligence of the maintenance team at this facility caught this before it let loose!

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Why we avoid having forklifts in the Engine Room

An employee moving an oil drum in an engine room hit a liquid line:

Check out the video.

Keep forklifts out of the engine room!

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$400 is a small price to pay

How do you know what the ammonia level is when you are wearing an APR? You don’t really, but for about $400 you can equip your technician with a little piece of mind. These incredibly handy clip-on NH3 meters from BW:

Go to CTI or GasMonitors.com for more info. I’ve got about a half dozen of these in regular use – they stand up well and technicians love them.

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Compromised Insulation

How serious is compromised insulation? One way of answering that is with an infrared camera. Take a look at the picture below:

The saturated temperature on that LTRL line is about 0F and the LTRS line is about -40F. Obviously there are some holes in the vapor barrier, but it doesn’t look like either section is full of condensation yet. Chances are that you can seal the vapor barrier and save the insulation.

The picture was taken with a Fluke Ti25.

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The Shrinking Dollar

I know it can feel like the value of our currency is constantly being reduced, but the picture above shows it ACTUALLY being reduced.

This is what happens when you submerge a dollar bill in liquid ammonia for 30 seconds, let it dry for 30 seconds and repeat. Repeat about 30 times, that is. If you iron the resulting bill they look like perfect little replicas of real currency.

I was told about this by an “old timer” ammonia technician but it really is surprising how well it works. You might not notice much happening for the first few dunks but it definitely does work. Obviously you will want a full set of protective gear for this!

What amazes me about this is the effect of giving one of these to an ammonia technician. It really emphasizes the power of ammonia to them and actually tends to make them more cautious around it. I mean, if it can do this to cotton & linen paper, it’s going to do some real damage to flesh, right!?

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Planning for Future Expansions

It’s always a good idea to plan for additions to your refrigeration system when you install it or improve it. Loads always seem to increase as new production capacity or storage areas are brought on line.

Here’s an example of how to install a valve for future expansion purposes:

Although only a single condenser was installed at this facility they decided they would like to size the pipes properly for a second condenser on the same line. To make that future installation easier they installed a valve for future expansion followed by a length of pipe and a small purge valve.

The CD (Condenser Drain) line is coming from the single condenser (at the top of the drawing) and continues to the High Pressure Receiver (the left side of the drawing.) What we’re looking at here is what was done on the right side of the drawing: this is how they prepared for future expansion.

The “Valve for Future Expansion” will someday be the CD Isolation Valve for a new condenser. For now it’s normally closed. We can’t leave the valve just hanging there though so you need to install a blind flange or a welded cap. In this case they installed a 24” length of pipe with a welded cap and a purge valve. The Purge Valve is usually a gauge valve – its purpose is to provide a drain point in case you get seepage past the normally closed valve. The distance is important – when you decide to add that second condenser we want at least 12” of pipe between the valve and the welding so the heat from the welding doesn’t harm the valve seat. For further protection you could add a heat sink like wet rags wrapped around the pipe during welding.

If this valve arrangement was done on the HSD (High Side Discharge) and EQ (Equalizing) lines as well, you could add your second condenser without having to pump down those lines and avoid a system shutdown.

IIAR Bulletin 107 has some other examples and other advice.

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Benefits of a Trained Professional Ammonia Operator

“Without Standardization, there can be no improvement”

That’s one of my favorite phrases from Lean/Six Sigma. Is the person who is in charge of your ammonia system someone who genuinely cares about how your system is running? Are they the kind of employee who treats the system like they own it – or the kind of person who operates the system in the manner which causes the least effort on their part?

Let me tell you a quick story about a 16,000 pound ammonia system at an ice cream plant in Pennsylvania.

When I first started looking at this system in November of 2006, it was fairly obvious that nobody had bothered to optimize it’s operation – essentially as long as things were cold, it was “working.” The three condensers were rarely running at 100%, but the six ammonia compressors were running constantly and barely meeting the demand much of the time. Nobody had the inclination to look at how the system was operating, establish a baseline, and then modify the operating parameters for peak efficiency.

The design condensing pressure for the plant’s ammonia refrigeration system is 165psig, correlating to a design condensing temperature of 90ºf. Although there are certainly times in the summer during peak refrigeration load when this design condensing pressure is the lowest condensing temperature we can achieve, we can condense ammonia at significantly lower pressures throughout most of the year without negatively affecting the performance of the system. The design pressure is a worst-case scenario and is not an efficient way to run an industrial refrigeration system when lower pressures are possible.

Working with the operator of the system we started dropping the head pressure setpoint manually depending on what the outside temperature was. What we were looking for was this: how low CAN the system head pressure run and still operate correctly?

Below is a graph I made from the system logs after our experiments:

Results on a 16,000# -40F NH3 SystemOn the vertical axis is the average (logged every 5 minutes) head pressure for the month. You can see where we started manually lowering head pressure in 2007 based on the highest expected wet-bulb temperature every day. Unfortunately, this isn’t very effective when done manually because you aren’t there to lower the target head pressure when the wet bulb temperature drops in the evenings. In the fall of 2007 we added an automatic head pressure control.

Look at the results from 2008. That graph reflects a 357,184 kilowatt/hour or $26,800 savings between April and October. The cost of automating that floating head pressure? A little less than $500! End result:

  • Lower Electrical Costs
  • Less “wear and tear” on the system
  • Demand satisfied with 2-3 compressors instead of six on all but the hottest days of summer.

There were many other issues as well like running 16″ of vacuum for a hardening freezer when it turns out operating at 10″ produced the same cooling effect. Another example at the same facility: the two Vogt p24 ice machines were on the low side suction when they intermediate suction was fully capable of handling the load. The cost to install a new suction line to these machines paid for itself via lower electrical costs in six months.

If you take one thing away from this, make it this: “A trained professional ammonia operator who genuinely cares about how well your system runs can save you twice his or her salary annually”

The opposite is true as well – you might hire someone at minimum wage to operate your system and end up paying twice their salary a year in excess operating costs.

Posted in General Information, Operator Training, Standardization, System Optimization | Tagged , , | 2 Comments

A gem from the National Transportation Safety Board

I read accident reports from all sorts of sources. A few years ago I read through the entire NTSB online library for fun and I still keep up with the new ones. There were many good insights in the reports and I took quite a few notes. This is one of my favorites:

The report also cited industry data showing that pilots who intentionally deviated from standard operating procedures were three times more likely to commit other types of errors, mismanage errors, and find themselves in undesired situations compared with pilots who did not intentionally deviate from procedures.

This quote about pilots applies to any skilled trade, including ammonia refrigeration operators.

Source: National Transportation Safety Board, Attempted Takeoff From Wrong Runway, Comair Flight 5191, Bombardier CL-600-2B19, N431CA, Lexington, Kentucky, August 27, 2006, Aircraft Accident Report NTSB/AAR-07/05 (Washington, DC: NTSB, 2007).

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Another six figure Ammonia Refrigeration Process Safety Management fine

From the OSHA press release:

BRAINTREE, Mass. – The U.S. Department of Labor’s Occupational Safety and Health Administration has cited American Seafoods International LLC for 15 alleged willful and serious violations of safety and health standards at its New Bedford, Mass., processing facility. The seafood company faces a total of $279,000 in proposed fines, chiefly for deficiencies in its process safety management program.

This is the 3rd six figure fine related to ammonia refrigeration in the last 2 months.

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OSHA PSM National Emphasis Program Extended

Last year our good friends at OSHA finally started moving their PSM inspectors away from the oil refineries. A National Emphasis Plan was created to audit PSM. The NEP is targeted at Ammonia and Chlorine users – 32411 NAICS code is exempt so this only applies to NON-refineries.

A few years ago you’ll recall they trained some 200 inspectors to audit the oil refineries and the concern was these same inspectors would be released on the rest of us when they were done. I had an outside PSM audit a few years ago from a consultant who had previously worked only with oil refineries – it was an extremely frustrating experience compared to working with someone experienced in ammonia refrigeration PSM.

Regions 1, 7 and 10 have already been dealing with increased programmed inspections since the programs inception in July 0f 2009. The NEP was to expire on July 26th but last week OSHA has announced that they have extended the National Emphasis Program (NEP) for Process Safety Management (PSM) inspections until September 30, 2010. Furthermore, State Plan adoption has been encouraged.  Unprogrammed inspections associated with this program will be done in all regions. For further information download the pdf.  09-06 (CPL 02), PSM Covered Chemical Facilities National Emphasis Program

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Here is the relevant portion of the CPL concerning when an unprogrammed inspection can occur:

a. Complaint or referral. If a formal complaint or referral is received relating to a PSM-covered process and it:

  • involves an application of the PSM standard – the AD shall evaluate the complaint or referral item(s) in the usual manner (CPL 02-00-148 – Field Operations Manual) and conduct an inspection using this notice.
  • does not involve an application of the PSM standard (for example, there is a complaint about PPE requirements in a PSM covered process) – the inspection or inquiry will normally be limited to the complaint and referral item(s)/subject(s) only. However, if the facility has not already been inspected using this notice, a concurrent inspection using this NEP may be conducted at the AD’s discretion.

b. Accidents and Catastrophes. Responses to accidents and catastrophes in facilities that contain PSM-covered processes shall follow the guidelines contained in CPL 02-00-148 – Field Operations Manual and, where appropriate, in OSHA Instruction CPL 02-00-094, OSHA Response to Significant Events of Potentially Catastrophic Consequences in addition to this Notice’s guidelines.

When an accident or catastrophe occurs in a facility that contains a PSM-covered process, and it:

  • involves an application of the PSM standard – an inspection will be conducted as per CPL 02-00-148 in addition to this notice.
  • does not involve an application of the PSM standard – the inspection will normally be limited to the accident investigation item(s)/subject(s) alone. However, if the facility has not already been inspected using this notice, a concurrent inspection using this NEP may be conducted at the AD’s discretion.
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