Hi BronYrAur,
I run into this a lot but a few questions first:
1.) What is the original design Chilled water temperature for you chilled water plant? 45F? Is your system for comfort cooling primarily or is it an industrial process (as suggested above)?
2.) I'm guessing that you have a primary-secondary-tertiary system. That means the chillers have their own pumps (primary), then you have distribution pumps (secondary), then the individual loads (buildings/coils) have even more pumps (tertiary). These systems are notorious for poor Delta T performance. What is the total tonnage of your plant? Also how many distribution (secondary pumps) do you have and what is the GPM and Ft. Hd. of these pumps?
3.) If your chilled water plant is designed for a 20F Delta T, then are all the coils attached to the system designed for a 20F Delta T?
4.) Approximately how many chilled water coils are connected to your chilled water plant?
In answer to your question about the check valve, the addition of the check valve in the common piping will keep you from mixing return water with supply chilled water, but you will end up with the primary and secondary pumps being in series, possibly forcing more than design flow through the chillers. Excessive flow could lead to tube erosion and control issues. Also, the primary pumps are typically constant speed pumps and the secondary pumps are typically variable speed pumps. Trying to figure out how to control constant speed and variable speed pumps in series sounds like a lot of wasted unnecessary energy. The addition of a check valve is a band-aid, not a solution.
After reviewing the referenced article, the author seemed very reluctant to discuss Delta T performance other than to say if you are not getting design Delta T you should take remedial action by cleaning your coils (my guess is your coils are not dirty), retuning your control valves
(he doesn't talk about how to accomplish that), change out your control valves from 3 way to 2 way (now that I agree with that, although you may already have 2 way valves installed), or reduce your supply water temp (so you can immediately heat it back up to 45F with your return water temp). He does not stress the importance of the coil/control valve relationship.
My recommendation would be to address your poor Delta T performance where it occurs, at the coil/control valve. Coil performance charts tell us that the design delta T at part load (where all coils operate 99% of time) should go up. This actually occurs in less than 1% of installed chilled water systems. It can occur in all of them if properly controlled. But that control cannot be accomplished at the chiller plant. It has to occur at the coils because that is where the heat transfer occurs.
System Delta T is the quickest, easiest measure of chilled water plant operation efficiency. Most of the 10F Delta T systems I run into are operating at about 4-5F Delta T. After addressing the coil/control valve operation, this same system will typically operate at 13 to 14F Delta T for a 35% to 45% reduction in total chilled water energy savings while sacrificing nothing in terms of comfort. We have a 16F Delta T systems operating at 24F to 26F. The current record I have seen is a 16F Delta T air handler operating at a 30F Delta T while satisfying the space with 50F (not 55F because it was for an operating room) discharge air on a design day. Your part load Delta T should be 30F to 35F. That would equate to a chilled water Delta T efficiency factor of about 1.5, which is what you get when you take 30F actual Delta T divided by 20F Design Delta T. That would be excellent. You are currently 6 divided by 20, or .3, which is very poor.
Since no two systems are alike, the degree to which they can be improved depends on how over-designed they are and how poorly controlled they are. There are a number of other issues that also contribute to poor system performance. We have seen differential pressure setpoints that are way too high, air handler fan setpoints way too high, actuators that could not control against the pump differential it was seeing, etc., etc., etc.
In summary, if you are typically seeing a 6F Delta T on a 20F design Delta T system, your chilled water system control is extremely poor and can be significantly improved. Just imagine how much money you could save if you could keep additional chillers off. That would keep additional primary chiller pumps off, additional cooling tower pumps off, and additional cooling tower fans off. All of that equipment is running because of poor control valve/coil performance.
There are firms that specialize in optimizing chilled water flow in systems like yours. I work with a number of them everyday. You should consider reaching out to one of them in your area. Just be sure that they guarantee Delta T performance and that you contact some of their satisfied customers to make sure they are getting the performance they were promised. If anyone recommends more pumps and chillers, thank them for their time and call someone else. They don't have the expertise to help you.
Good Luck.
