Tag Archives: Improving pump MTBR

A Look At Pump Life Cycle Costs – Part 1: Maintenance

Typical Life-Cycle Cost For A Pump System Infographic

Typical Life-Cycle Cost For A Pump System

Most of us have seen a graph similar to the one above. Over the life of an engineered pump, the energy consumption and maintenance will account for the majority of the life cycle cost. So, if you can make your pumps more efficient and more reliable, you will save a lot of money.
Over the years, we have collected several groups of data to suggest how much money you can save from using composite materials in your pumps like Vespel® CR-6100Boulden B-Series, or Metcar® composites. The savings come from two areas–improved reliability and efficiency.

Improved Pump Reliability = Maintenance Savings

Improving pump MTBR has been a primary focus of Rotating Equipment Engineers for decades. Longer life means fewer repairs, lower chance of downtime, and lower risk of environmental or safety incidents. There is no doubt that more reliable pumps save money. The question related to composite materials is how much of an MTBR improvement should be expected from the upgrade?
To answer that question, we have several data sets:
  • Between the years 2004–2006, a refinery upgraded 61 “bad actor” pumps to Vespel® CR-6100. In the 3 years prior to the upgrades, this group of pumps would result in 20-30 repairs. In the 3 years after the upgrades, this group of pumps averaged fewer than 10 repairs per year.
  • Another plant looked at 11 vertical pumps for 5 years before and 5 years after upgrading the shaft bearings and found repairs had been reduced by 64%.
  • Several other data sets have shown dramatic improvements in the overall plant MTBR when the site included Vespel® CR-6100 into their pump reliability improvement program.

Average Pump Repair Cost

We can use the study of 61 pumps to estimate the annual savings. The average repair cost of an API pump is about $12,000. Prior to upgrading to Vespel® CR-6100, this site had between 20 and 30 repairs per year–$240,000 to $360,000 annually to repair this group of pumps. After the upgrades, with fewer than 10 repairs per year annual repair costs were less than $100,000. That is a savings of around $200,000 every year. The upgrades to composite materials easily paid for themselves several times over.

Conclusion: Upgrade Pump Parts To Composite Materials

In short, using quality composite materials like Vespel® CR-6100 with reduced clearance in your pumps will lead to a big increase in pump life and significant maintenance savings. Next month, we’ll discuss energy savings.
Until then, whatever the temperature, chemical, or operating conditions for your pump, it is likely that Boulden has a non-seizing, non-galling composite material to help you improve your pump reliability. Boulden has a large inventory of material in stock and we can supply raw material or finished parts with very short lead times. We can provide all of the technical support required for you to make the upgrade a success.
Contact us today and use your next repair as an opportunity to upgrade your pump.