Underground lines - not the place to skimp!

  • Active since 1995, Hearth.com is THE place on the internet for free information and advice about wood stoves, pellet stoves and other energy saving equipment.

    We strive to provide opinions, articles, discussions and history related to Hearth Products and in a more general sense, energy issues.

    We promote the EFFICIENT, RESPONSIBLE, CLEAN and SAFE use of all fuels, whether renewable or fossil.

Gooserider

Mod Emeritus
Nov 20, 2006
6,737
Northeastern MA (near Lowell)
This is a sticky inspired by Tenman, who suggested it as a topic to address one of the most critical components in a boiler system, namely the underground line set for those installations where the boiler and / or storage is in a different building from where the heat load is.

Not all installs use underground lines, and it is this moderators opinion that if it is practical, one is better off designing a system to avoid them, however this is often not possible.

However, it is worth noting that if an underground lineset is used, it will probably be one of the most expensive parts of the entire installation, sometimes costing even more than the boiler itself. It certainly is the most difficult and expensive part to have to redo if one doesn't get it "right" the first time around.

It can also be a critical part to determining the performance of an entire system, with bad design choices causing poor system performance, high operating costs, and excessive wood consumption....

If one goes through the threads here in the boiler room, I would say that after the standard causes for performance issues such as bad weather sealing, and less than ideally seasoned wood, bad line set design is one of our more common issues, and one of the harder issues to fix.

This is NOT the place to try and save money by going cheap on the design!!!!

So how does one do it right?

1. Make it big enough - there is an often linked to Taco paper on sizing pumps and other system components, including the lines. http://www.taco-hvac.com/uploads/FileLibrary/SelectingCirculators.pdf Before doing any other planning, figure out the heat loads, and determine the size of the piping needed, per the formulas in this paper. In case of doubt, go bigger.

Lines that are to small will cause problems of not delivering enough heat on cold days, or doing so only by using excessively large and power-hungry pumps (which can have their own problems, particularly on open systems)

OTOH, there are relatively few problems caused by oversized lines.

Note that large sizes of PEX can be hard to find, and even worse to get fittings for, not to mention the high costs of the tooling needed for the very few connections one will need to make - it can sometimes be advantageous to do multiple parallel runs of a smaller size PEX, something that works especially well if using the "Foam in Place" insulation method described below.

2. KEEP IT DRY - one of the common failure modes for lines is to have ground water infiltrate the insulation system. A system that may work perfectly when dry can become nearly worthless if it becomes compromised by moisture, as damp insulation becomes a good thermal conductor, and once wet drying an underground line is nearly impossible. Pay attention to drainage in the trenches, with plenty of gravel and so forth to keep the water away from the lines. Even more important, choose insulation materials that are in themselves waterproof - we see lots of horror stories about lines that are wrapped in bubble wrap and stuffed into a drain pipe, especially after they have been in service for a few years. OTOH, there are several very successful installs with closed cell spray in place foam installed in a properly prepared trench.

3. Keep the runs short - saves money, and the less time underground, the lower the temperature drop that even the best lines will experience....

4. Insulate it adequately - Even a one or two degree no-load temperature drop going through the lineset can add up to a suprisingly large amount of heat loss over the course of a heating season, possibly as much as several added cords of wood worth....

5. Include some "support" lines - I always urge that unless you have already included other provisions for it, that you include a few runs of 3/4"conduit for electrical power and / or computer data lines (remember you can't put low voltage stuff like data lines, and AC power in the same conduit) Those extra runs cost almost nothing to add when the trench is open, but can be a problem to add later...

Gooserider
 
This project was done by Larry (aka Tennman ) from this site. I just added the pictures. Any questions please ask Tennman.


First I want to thank Rob (Taxidermist) for posting these pics up for me...again. Aside from a few minor additions to the process I incorporated, this is the method discussed and presented here by Heaterman and others in the Boiler Room. If you search on Heaterman’s recorded data from a system install in the Fall of ’08 the heat loss for this method is remarkable. So I want to acknowledge those who were the inspiration for what follows.

This post documents our second approach to what I believe can become the most critical component of the boiler system if you have a long run like ours. If done poorly it can be the greatest loss of efficiency in the whole system, trust me I know.

What follows is the objectives and method for our second method of insulating our 1 ¼” hePEX. My first underground approach was hastily done because November ‘09 was near at hand and I wanted to move on to the IMPORTANT stuff, install the boiler, and try to save money (bad set of priorities). If I say this once I’ll say it a thousand times, the potential energy loss from this component of the system poorly done will dwarf all the gee whiz stuff we do with controllers, the latest boiler technology, etc. AND this is compounded by a relatively long run. Our home is a historic dwelling so I was committed to having the boiler barn appear at home with our other outbuildings in vicinity of the house which resulted in a 170 foot underground run.

Goals:
1) Use CLOSED cell polyurethane foam to prevent water contact with the Pex.
2) Provide at minimum 3” all around each line with 2”-3” insulated spacing between the lines.
3) Protect the foam as best possible from being contaminated as a result of the foam blowing gun. Even if the foam is closed cell, voids with dirt clods and trash will hurt the insulation properties.
4) Completely enclose the lines, void free to prevent water contact with the Pex and water migration down the lines into our root cellar.

Method:
1) I used a trencher for the first attempt which made about a 6” wide trench. To prevent damage to the expensive 1 1/4” Pex we used a mini-backhoe to dig up/recover the Pex and make the trench you see here. This resulted in a trench about 12” wide which I really didn’t want (extra foam, more cost) but actually worked well allowing us to work in the trench as you can see.
2) After extracting the homebrew insulated approach, we leveled the bottom of trench and laid the plastic. 4 mil worked well, thinner would have blown around too much and thicker would have been too stiff. This is very cheap protection to prevent contamination from trash getting in the foam.
3) Hooked up the Pex lines at BOTH ends. My Pex fittings were already on so if we had foamed the lines with them shifted even several inches I’d been screwed and would have needed to add another joint. Once foamed obviously the Pex will no longer move.
4) Neither the foam contractor or I had ever done this before so after the foam equipment was out and ready we had a team meeting to discuss what we were going to do and how. This team meeting is very important to get everyone on the same page from the beginning.
5) We decided on a 3-man team: 1- the foam gun guy, 2- the guy managing the Pex spacing close to the foaming process, and 3- the guy keeping the Pex suspended so the foam guy can spray onto the plastic under the Pex lines and then lower the Pex at the right time into the expanding foam underneath.
6) We started by filling the access conduit where the Pex lines go thru the slab into the boiler barn. We started at the barn and worked towards the house. Guess I figured that if we were going to screw up while learning I wanted that to be out at the barn.
7) The Pex lifter (me) held up the Pex so the foamer sprayed foam on the plastic under the Pex. As the foam expanded to about 3” underneath I lowered the Pex line while the spacing guy held them apart then the foamer just sprayed on top making sure there were no voids as the foam expanded around the Pex.
8) Repeated this process in roughly 2’ sections working continuously and literally within 10’-20’ we were cooking as a team. It took us about 30 minutes to do 170’. We were walking on the foam immediately when done. The heavy mini-backhoe drove over the stuff repeatedly leveling and replacing the dirt back within an hour of spraying.

As a result of all this our Wirsbo-Uponor oxygen barrier hePEX is encased in a solid block of foam about 10” wide x 7”-8” deep. It was easy and cost competitive with the commercial pre-insulated stuff. Lord willin’ I never see this part of my system the rest of my life. Come December ‘10 I’ll be able to give the delta T’s from four sensors (two at the boiler and two at the HX).

Costs:

Uponor Wirsbo 1 ¼” hePEX = about $2.80/ft (not including shipping)

My cost to foam = $4.70/ft (this will vary based on contractor)

Total $/ft = $7.50 (does not include dirtwork, etc.)



Had I done this initially we would have saved between $1,500-$2,000 because of the re-do expenses and would have been able to focus on other “first season” issues. Hope this is helpful to those that come after me.
 

Attachments

  • 4.jpg
    4.jpg
    89.8 KB · Views: 11,275
  • 5.jpg
    5.jpg
    92.3 KB · Views: 11,016
  • Picture 161.jpg
    Picture 161.jpg
    104.7 KB · Views: 10,620
  • 3.jpg
    3.jpg
    101.2 KB · Views: 11,074
  • Picture 160-1.jpg
    Picture 160-1.jpg
    72.3 KB · Views: 10,486
  • Into House.jpg
    Into House.jpg
    67.7 KB · Views: 10,749
IVE DECIDED TO REPLACE THE LINE SETS FROM THE BOILER BUILDING TO THE HOUSE. THE EXISTING LINES ARE 1 1/4" BLACK IRON PIPE SANDWICHED IN 2" BLUE BOARD. IVE KNOWN FOR A LONG TIME THAT I HAD TOO MUCH LOSS AND SINCE I RETIRED THE AQUA THERM AND REPLACED IT WITH AN ECONOBURN & STORAGE, ITS TIME. I HAVE READ SOME COMMENTS HERE -- ALL GOOD. THERE IS NO FOAMING CONTRACTORS NEAR BY. I WOULD LIKE TO RE USE THE BLK IRON IF NOT PITTED. IT MAY BE POSSIBLE TO DIG UNDER THE LINES WITH OUT UN HOOKING. I HAVE ALSO THOUGHT ABOUT CUTTING THE LINES AND INSERTING THEM IN A CASING, BUYING CANNED FOAM, BUT WONDER IF THIS WOULD BE ENOUGH INSULATION. THANKS
 
  • Like
Reactions: PMooney
Wood Thing, You can find a sprayfoam contractor on www.sprayfoam.com . I put my pipes in a 6 inch drain pipe then filled pipe with foam, then foamed the whole pipe outside with a couple inches around pipe. You have to use 2 or 3 pound foam, as that is the only foam that will not take on water. Most can foam does not meet this spec. You can get some DIY foam that works. You have to line trench with foam to keep dirty out. I loose no degrees off my water temp in 100 ft of pipe. Spray foam keeps the warmth at home. Foamit Up
 
  • Like
Reactions: monkfarm
taxidermist what was the cost per ft. Im glad to see that you wrapped your lines with plastic. I have dug up a number of lines that were sprayed with a foam that were "water proof" Gooserider said it all.So many out there are in for a rude awaking.
 
Sorry guys. I haven't been checking this sticky. Taxi posted my process above but it's up to be to provide the details. First off I need to talk to Goose or someone to figger out how to edit the above post to correct an error. The cost/ft of the pex needs to double for two lines. I was just in a hurry to type it up and didn' think. I want to reemphasize that there are TWO types of foam CLOSED CELL and OPEN CELL. Both have a purpose in life. There are applications where you want to foam to breathe and "leak". For example, sprayed on the inside of a metal roof you want OPEN CELL so if you get a leak you'll know and fix it. We want CLOSED CELL for our application which is water impervious. The spraying contractor must be told what you want.
 
I was thinking to do the same thing with my future Waste Oil Boiler. It would run under a large driveway and truck turnaround, so it'll be placed in 8 or 10" corrugated sewer pipe. I wonder if plastic would still be needed?
 
I presume you intend to insert non-insulated pex into the corregated pipe then blow foam around the corregated pipe. Better than nothing but less than ideal. The pex will radiate into the cavity and the return line will inevitiably absorb energy from the supply line. Making the sewer pipe cavity nice and cozy will cost you energy you want to dump into your home. This is assuming I understand what you intend to do. I'd still do the plastic since it doesn't cost but maybe $20 and makes whole process cleaner. But if the trucks will be driving on the foam, why the use of the corregated pipe? Unless the foam was quite deep I might worry about crushing the foam long term. If it was a high traffic area with heavy trucks, I'd be concerned of eventually of damage to the foam, not the pex. Others here like Heaterman may have experience with long term durability of the foam in a high vehicle traffic environment. I'd PM Heaterman and ask how deep you need to be for the traffic loads to pass into the trench and not into the foam. Basically anything you warm between the boiler and the HX is a waste of hard earned wood BTUs.
 
I thought my idea was good, the corrugated to hold the ground up, it's a driveway, not a road. The one supplier I looked at was just an inch or so of foam, and I would use 3-4", so wouldn't that be better??? My foam would be INSIDE the 8" or 10" corrugated, and I would hold the pipes up with wood blocks with holes for the PEX to keep it centered. The pix are 4" blue corrugated, $15 a foot!!!
 

Attachments

  • Nov 2010  Birchwood Logs  Underground Piping 001 (Small).jpg
    Nov 2010 Birchwood Logs Underground Piping 001 (Small).jpg
    69.7 KB · Views: 7,933
  • Nov 2010  Birchwood Logs  Underground Piping 002 (Small).jpg
    Nov 2010 Birchwood Logs Underground Piping 002 (Small).jpg
    47.1 KB · Views: 6,662
Ahhhh..... Foam INSIDE the 8"-10", yes that will be excellent provided you are successful at achieving one key and difficult operation. My First Failed Attempt (futhermore referred to here as the FFA) used 6" dia x 8' ft long corregated pipe sections and I covered my 1 1/4" pex with the standard split foam insulation sleeves. Unbelieveably tedious to install sleeves on both pex lines, duct tape together, slide a section of corregated pipe, snap together, repeat many times for ~170' THEN come back and drill lots of holes in the corregated pipe and inject closed cell polyurethane Tiger Foam. All together probably cost me $7-$8/ft (BIG savings huh.....totally wasted). For all the world to see here, this is why it failed. Because the two lines with sleeves fit so tightly inside the 6" when I injected the foam it could not expand completely around the sleeve and pex bundle. I had filled most of the cavity with the sleeves AND I saw the foam coming out all the millions of pin holes in the sewer pipe (should have been my first warning). My helpers were already tired of the whole job and the foam was not encapsuating everything as envisioned so I soon saw injecting the foam as a waste of time. Turns out those sleeves acted just like sponges when water seeped thru the corregated pipe. The tiny good news was that some of the water surely drained thru the pin holes in the bottom, but the sleeves stayed water soaked. When I dug up this disaster last spring all of the INSIDE of the corregated pipe was covered with MUD! I type this not just for you but the thousands who will read this sticky after us. IT IS VERY DIFFICULT FOR US DIY's to INJECT AND GUARANTEE COMPLETE 360 deg ENCAPSULATION OF THE PEX LINES WHILE MAINTAINING PEX SEPARATION. For this reason and based on my experience, if you really want to use the corregated pipe, I would do the foam injection out of the trench up on sawhorses so I could inject into TWO holes AT LEAST 180 deg apart. The large dia will give the foam more time to expand and having a hole on the other side you will see if it is expanding. But I'd inject on both sides just to be sure. I can't emphasize this enough, IF YOU GET WATER CONTACT ON THE PEX.... YOU'RE SCREWED!

Now if I were you and I had just gone thru the what I had, I'd forget the corregated pipe, dig the trench maybe a foot deeper and foam in trench just like I did. Making the trench deeper allows more surface on the side of the trench for the vehicle loads to "shear" into the ground (distribute the loads into the surrounding ground). Just going a little deeper will protect the foam and assure you get that critical pex encapsulation for far less work. Or if you're still nervous lay something on top of your foam in trench before you refill with dirt. There will be some voids but soon, in time, those voids will fill with dirt. My 2 cents. Getting good encapsulation in that corregated pipe while keeping the tubes separated and centered is far more difficult to achieve than digging deeper or placing a load bearing surface on top of the foam. We can only hope someone will reply here with a trench depth over a high vehicle traffic area that worked. Mine was a little over 2' and the backhoe ran over it repeatedly. I can also report that this season's performance is unbelievable compare to last with our new insulated line. I'll post later with hard data.

Ok... I typed this for posterity Corvairwild. I was excited because I first read your handle as Corsairwild. But got it, you're a car, not airplane guy. Best Wishes to you and all who come after. So here's my warning, "Those who ignore the lessons of history are doomed to repeat them."
 
Hi TENNMAN... I read your post to my wife, and so much fer the corrugated idea...

I just had a 1" water line installed in a 5' deep trench last month, so it's fresh in my mind, and I WAS thinking that sometimes what seems like a brilliant idea, until you try actually do it!

The area between the whse and house is a turnaround for the driveway, so the traffic will be minimal, and I'm not anxious to spend the extra on corrugated sewer pipe. Unlike the rolls of 4 or 6", the larger size is far thicker, and two layered, or double walled. I bought some damaged sewer pipe last year, but forget the price.

Maybe I should use the factory installed insulated underground pipe I pictured above, but find either as thicker insulated version, and line the trench with low quality 2x wood, and foam it, all wrapped in thick plastic...

My concern was the exorbitant price of the above piping, and the seemingly small amount of insulation. I just can't believe that 1" or so of white foam is really an effective amount of insulation. We're talking 180f water in 50f earth.

There must be some heat loss specs fer the piping???
 

Attachments

  • CIMG4555 (Small).jpg
    CIMG4555 (Small).jpg
    43.7 KB · Views: 5,017
  • CIMG4543 (Small).jpg
    CIMG4543 (Small).jpg
    23.6 KB · Views: 4,902
  • 2 25 10  Mom 75th Vid 025.jpg
    2 25 10 Mom 75th Vid 025.jpg
    43.1 KB · Views: 4,893
  • 2 25 10  Mom 75th Vid 023 (Small).jpg
    2 25 10 Mom 75th Vid 023 (Small).jpg
    33.4 KB · Views: 4,787
If I was to purchase a pre-insulated pex product it would be one of the polyurethane injected/molded products. I can confidently say there is no way to get better energy transfer at a lower cost than the foaming in the trench process. There just is no way to practically manufacture a two-line insulated pex product that is about 14" of solid closed cell polyurethane in cross section like can be done in the trench. We used a minibackhoe with a bucket that dug a trench about 12"-14" wide. So our pex has 3" spacing AND about 4" all around which was the result of filling the trench width with foam. If you are just talking personal vehicles, not heavy commercial trucks driving on the buried lines, then I wouldn't be concerned about driving over it routinely if it was 2'-3' down. Whatever you do... DO NOT worry about saving $500 on this part of the system. The underground done poorly will translate into you spending hundreds of more hours in the woods cutting, moving, splitting, and stacking because of lost efficiency. I'm reluctant to present our temperature loss data yet. It's so good I don't believe it yet. Great pics by the way.
 
The bottom line on all this either foam it in trench with sprayed closed cell insulation or use the Thermopex product. If you think you can make something yourself a little cheaper be prepared to dig it up and redo it the next year. A little bit of failure makes the whole thing useless. Like the headline says "NOT THE PLACE TO SKIMP"!!
 
Ok, OK!!! I won't skimp. I just didn't like the only product I looked at locally. Their blue stuff above, and $15 a foot. they're nukin futz!!!

I was thinking to use a better product, and THEN foam the trench, which around here should be 5' deep, due to the extreme cold. I would def use anti-freeze in the lines, but still feel I should go below the frost line, 4 feet.

BTW, the pix, (from TL, CW) are a solid wood horse I bought my wife as a wedding present 18 years ago for $125, with our then stray kitten on the back.

My wife, our Lab/Beagle we just put to sleep this summer, 14 years old, and our found Pekingese Freekazoid Mugs, on Lake Champlain, near Burlington Vt

Mugs and me at a Marina on Shelburne Bay Vt a few minutes before they asked us to SCAT! Here's the vid I made of that moment... (Couldn't find that moment, but here's the recreation path immed adjacent to the marina...

http://www.youtube.com/watch?v=1YQqG346gss

http://www.youtube.com/watch?v=OhRe0TQCl7Q

And Mugs and his (late) best buddy, Lady Bug...
 

Attachments

  • 2 14 09  Valentines Day Stowe Mugs Vids 002 (Small).jpg
    2 14 09 Valentines Day Stowe Mugs Vids 002 (Small).jpg
    59.5 KB · Views: 4,610
  • 3 7 10  NLT Saranac Lake Vids 016.jpg
    3 7 10 NLT Saranac Lake Vids 016.jpg
    57.6 KB · Views: 4,656
  • 3 7 10  NLT Saranac Lake Vids 018.jpg
    3 7 10 NLT Saranac Lake Vids 018.jpg
    63.4 KB · Views: 4,474
  • 3 7 10  NLT Saranac Lake Vids 015 (Large).jpg
    3 7 10 NLT Saranac Lake Vids 015 (Large).jpg
    129.3 KB · Views: 4,554
  • 3 7 10  NLT Saranac Lake Vids 020.jpg
    3 7 10 NLT Saranac Lake Vids 020.jpg
    60.7 KB · Views: 4,515
  • 3 7 10  NLT Saranac Lake Vids 009 (Large).jpg
    3 7 10 NLT Saranac Lake Vids 009 (Large).jpg
    137.9 KB · Views: 4,542
Here's an idea:

Dig a 2' wide trench 4' deep or so. Lay down sheet plastic on the bottom of the trench. Put one level of cinder block along both sides of the trench the entire length of it with the open sides facing up/down. Spray foam plain old OB PEX in between the cinder blocks. A 24" wide trench with 8" block on either side will leave you a 8x8" empty space between the block to run the lines and spray the foam. That'll provide you extremely great insulation and the block will provide you support for vehicles driving over it. Backfill and compact the dirt and you're done. Never worry about it again. Maybe drop a couple electrical conduits in the dirt before you back fill too.
 
I tend to agree with the posts suggesting that you just use plain PEX with foam in place, rather than any of the commercial pre-insulated products... Seems to me that using a pre-insulated product plus foam in place won't gain you anything over straight PEX plus foam...

I don't have solid numbers, but I have a very low opinion of the commercial products - I don't feel like they offer a good value at all - they are overpriced, and mostly come in pipe sizes that are usually smaller than the best choices from a flow volume / pump sizing standpoint (which means you get to pay more over time for the electricity to drive the overpowered pumps needed to get the BTU transfer rates needed. This is on top of the less than stellar heat loss ratings that the products offer - IMHO there is a reason that they make it hard to find their heat loss numbers - if they were really good don't you think the manufacturers would be putting them on the front page of their advertising sheets???

Back when I could dream about a boiler, I would have preferred to go with a boiler in the house setup, but if I had to do an outhouse install, I certainly would have gone for a plain PEX / Foam in place line setup, and made whatever trench design I had to in order to accommodate it...

Gooserider
 
Do not skimp on the pipe that goes in the dirt. I can tell you that 20 cords a year to heat a house, barn and domestic water is not very fun at all. I just moved my boiler to another house I bought and I paid $18 / foot for 1 1/4" pipe. I skimped last time and was mislead by using the triple wrapped pipe and water must have gotten inside of it and that makes for a radiant path 150 feet long. I lost 40 degrees each way, not including the load. It doesn't matter what kind of boiler you are using, the pipe is the key. Good luck.
 
[quote author="CORVAIRWILD" date="1290851950"]Misled by the triple wrapped pipe? Tell me more about the triple wrap pipe please...

I wonder why the blue stove I pictured above looks so simple, and is so much $$$, and Catskill Boiler's insul PEX is $8 a foot, almost 1/2 price!

http://cgi.ebay.com/Outdoor-Wood-Bo...452?pt=LH_DefaultDomain_0&hash=item19b6500f14[/quote

Looks like the stuff that will lose 40 degrees into the ground.
 
I didn't get any pictures while doing the process, but I just finished my underground lines this morning. I dug the trench with a mini excavator because I had a bunch of roots to go through. At 6 AM this morning I laid down my 1" PVC electrical conduit and by 7 AM my new buddy arrived with the goods.

I met this guy a couple weeks ago because we share a common interest - Military vehicles. We both have a M35A2 (an old military 6x6 cargo truck commonly called a deuce and a half). We chatted for a while and he noticed the trench I had dug. I told him I was waiting until I had the cash to pay a spray foam contractor come foam my lines in place. Well, he's the sort of guy who has worked just about every kind of job that you can work with your hands over the years. He's done spray foam many times before on boiler lines and he's still got contacts with the supplier. He talked to his supplier and his supplier had some spare tanks of foam lying around. My new buddy got those tanks for free, as well as two brand new sets of tanks for free from him.

We spent a couple hours this morning foaming my lines into place. I used 1-1/4" PEX and 4 mil plastic sheeting to do it just like the original post of this thread. We sprayed lifted it and sprayed as we went then finally wrapped the foam in the extra plastic after it set. The temperature outside was 35 degrees when we started and it's still just as cold but it also got very windy. Spray foam sets up fine as long as the tanks are warm as you spray since the two chemicals mixed make an exothermic reaction. The tanks we used had a color coded thermometer on them to tell us when it got too cold to spray the foam. We had to stop three times during the process. Once because the partially used tanks ran out (and since they were old the foam didn't set up at all). We removed the crappy foam and hooked up the first set of new tanks. We sprayed until those ran out and then switched to the 2nd set of new tanks. We had to stop mid-spraying with those tanks to let them re-warm in the house. Including re-warming the tanks, it took us about 2 hours to lay the plastic in the trench, spray the lines in place, and then wrap the plastic around the top of the foam.

FWIW, the new tanks he got were rated to spray about 200 board feet. They actually covered about 60' of my 1-1/4" lines with 3" of foam including a large mass of foam filling in the hole I punched through my basement wall both inside and out. I've still got a little more than half of the other tanks left over since my run was only 80'. I suppose if you had a run up to about 150', the 600 board foot spray foam kit you can buy from TigerFoam should be sufficient if you want to spray your own lines in place to save a little cash.

I could go get you pictures of my foam if you wanted, but it's all wrapped up in clear plastic. Nothing special, nothing different than the pictures in the first post other than the scenery. Including the price of the plastic sheeting, the PEX (with spare), and the electrical conduit my lines are in the ground for about $6.85 a foot!!!

It always helps to know people!!
 
I included a picture of the stuff I used last time. I actually used the double wrap. I will tell you this, regardless of the "wrap", if there is a pin hole in that black drainage pipe, water will get in and you will be done. You will hate the day you put that crap in the ground. The black pipe I used had holes in it when we put it in the ground and I thought nothing of it. Pipe was on a 4 week back-order and I had to get it in the ground that day. I will never use that stuff again, ever. You get what you pay for. I bought three hundred feet of the double wrap @ $9.00 foot, when I could have paid $12.00 a foot 4 years ago for the decent stuff. Now I paid $18.00 / foot for this new material and frankly I don't care. Ig I can burn 6 or 8 cords, it'll be better than 20. That really takes the pleasure out of using wood. This is the right stuff for my application. If people can foam their own, then more power to ya. The new pipe I laid in the ground will lose 0.5 degrees @ GPM running 100 foot.

http://www.urecon.com/documents/pdfs/brochures/Urecon_PEX-Flex.pdf
 

Attachments

  • pex connect coupling.jpg
    pex connect coupling.jpg
    20.5 KB · Views: 8,286
  • doublewrapped.jpg
    doublewrapped.jpg
    18.7 KB · Views: 3,150
  • Like
Reactions: BansheeTwin350
MHVFD, So what makes 1 underground pipe better than the other? More insulation? Any black corrugated can have a pinhole, or many!

juddspaintballs, what size are these foam can? like spray paint? or propane bottles?
 
The 600 board foot kits are the size of propane tanks. The 200 board foot kits are about the size of a large bottle of bleach.