To try and eliminate misunderstandings with my thinking, a couple of points I'd like to make. These are my current opinions/guesses and can/will change as I learn more.
1) Your statements on this website are 95%+ spot on (that my research confirms). The remaining few percent are technically accurate but misleading. Honestly, this is annoying. OK, this is highly subjective and can mostly be just me.
I take offense to that. I try very hard to be accurate and not to be the least bit misleading. But that is exactly what many others are doing, so I understand your mistrust.
2) I respect that you have an ingenious device that can work very well for many people. In my family, the way we learn is by questioning and sometimes challenging the knowledgeable person. In no way is this meant to be personally insulting, please don't take it as such.
I love to be questioned and challenged on this subject. But please ask the questions and let me reply before accusing me of misleading.
1) A CSV will very effectivly stop "water hammer". Won't any pressure tank in-line also do this? Is it that the CSV in combination with a pressure tank works better? How would you quantify this?
Transient pressure waves created from starting and stopping a pump at maximum flow is what causes water hammer. These waves travel from 3,000 to 8,000 feet per second. A pressure tank tries to catch these waves after they happen. This is too little and too late to stop water hammer. It is kind of like trying to catch a bullet with your teeth. Plus the tank is on a tee and at a right angle from the direction of flow. Transient pressure waves don’t like taking a 90 degree turn when they are doing 5,000fps.
A CSV can make a pump start and stop at 1 GPM. The check valve is only open the width of a piece of paper when the pump shuts off. Without the pump surging on startup or the check valve slamming on shut down, there is no water hammer to “catch”.
2) How reliable has the CSV been? Is there a suggested maintenance schedule? Does the CSV have a 10,20,30 year expected lifespan?
There is no maintenance to a CSV. Most of the ones we installed 23 years ago are still working. They are just simple spring operated valves. So I am going to say 30+ years in most cases.
3) A major advantage to a CSV is reducing water pump start/stop cycles. If you have a larger pressure tank, won't this accomplish the same thing.? As an expamle, if a house uses an average of 300 gallons a day and you have a pressure tank with a 30 gallon draw-down, the maximum start/stop cycles will be 10 per day. Does a CSV have any start/stop cycle advantages over a large (10%+ of daily use) tank?
If you only use 300 gallons per day and you have a huge tank (119 gal) that holds 30 gallons of water, then yes your pump would only cycle 10 times per day. But those 10 starts will be at locked rotor amperage. And those 10 stops will be abruptly after the pump has been running for some time at full service factor load.
Both of those things create more heat in the motor than when the pump is started and runs at reduced amperage as it does with a CSV. The CSV basically de-rates the motor load enough that it would be safe pumping hot water. So when de-rated as such and pumping cool water, less run and off time is needed for motor cooling. A pump/motor can also survive many more cycles because of the mechanical soft start/soft stop of a CSV than when starting and stopping at full speed, amperage, and heat production.
1) A residential CSV with small pressure tank is only slightly cheaper than a large pressure tank (119/30 gallon). Both being $400-$600 with the large tank on average about $100 more than the CSV setup.
That is cheap for a good tank. But they are getting cheaper. I wonder why?
I usually hear the CSV is $300 to $500 less than a large tank.
2) Energy efficiency is better with the large pressure tank system. This will vary between 5% and 20%. This one is complex and I don't ever see it making a $100 difference per year on the electrical bills (single household)
We have actually tested this. Because of the reduced amperage and soft starts when using a CSV, the longer run times do not add much to the electric bill. Depending on how water is being used, using a CSV can cost 2 to 5 dollars a month more than when using a large tank. At that rate it takes a long time to pay off the added expense of a large tank at any price.
3) A slow pressure swing because of a large pressure tank between 50-70 or 60-80 seems a non-issue. No experience here, just a guess. Anyone else care to comment?
It seems like a non-issue until you have experienced constant pressure. With a large pressure tank and a 50/70 pressure switch you are getting an average of 60 PSI. That means the pressure dropping to 50 and increasing to 70 over and over is a normal operation. Pressure is always better when the pump is on and the pressure is increasing than when the pump is off and you are just getting what a little air can push out of the tank.
You may never notice and just think these pressure swings are normal for county living. But the first time you experience a shower a for as long as you want at a constant and steady 60 PSI, you will say you no longer even need soap in the shower as the water pressure just blast the dirt off. Then your friends from the city will have to come to your house to experience showers with better than city water pressure.
4) Given the space for a larger pressure tank and slightly higher initial cost with slightly lower electrical costs. A large pressure tank seems to be the overall better way to go. This is given that a correctly sized pump is used, which is true in either case.
OK let’s talk about the “space”. How much per square foot does it cost to build a house and how many square feet does it take to install a large pressure tank? Then how much does it cost to heat 300 gallons of water from well temperature to room temp every day?
I am now looking at the cost effectiveness of a dual pump large pressure tank residential system. A ~6 GPM pump to handle normal useage and a 12gpm pump to handle hi usage. Maybe it would be better to use two 6gpm pumps at the same time verses turning off smaller pump when demand turns on large pump. Hmmmm, interesting.
There are LOTS of ways to skin a cat. Now you are talking about spending hundreds of dollars more, having more to maintain, and heating more living space to save 2 bucks a month while having widely varying pressure in the house.
Get a good pump, use a CSV and a small tank, and spend your time fishing or worrying about something else. My biggest problem is that I have to make new customers everyday, because my old customers are too busy doing other things and haven’t thought about why water comes out of their faucets since installing a CSV.
