This post is meant to educate both the new CIPP installer and homeowner alike.
Unfortunately, many folks are jumping into the trenchless waters with no formal training, no experience, and limited knowledge. As a result, many of the performed repairs are substandard, causing immediate failure or failing prematurely.
There are many types of no-dig drain repairs each with it's own specific materials and methods of installation. We will give a brief but in-depth overview of those methods so hopefully you'll be able to recognize some red flags if improper work is being carried out. And if you're new to the trenchless world, or interested in learning more, this article is for you as well.
We are going to discuss three types of trenchless repairs (there are more but these are the most common here in Israel): point repair patches, liners, and brush or spray epoxy coating.
Let's start with Cured In Place Pipe (CIPP) patches as these are the most common repairs that most homeowners will encounter. The length of the typical repair is 30-60 centimeters although infrequently can be as long as 5 meters in length. A CIPP patch is installed when a specific issue is located in an otherwise healthy drain. Examples: someone drilled a hole into a pipe, roots penetrated a connection or a connection separated (or was not connected properly to begin with).
Within the genre of CIPP point repairs there are several subsets: a straight repair, a repair of a 90 degree connection (or several), or a T or wye repair. Each of these repairs require different tools and material.
Let's discuss material usage. A repair is made by inserting a flexible sleeve impregnated with a resin that will harden in place. Exactly how the repair is carried out is difficult to explain in words so feel free to watch this video we prepared:
The strongest no-dig repair you can make is combining a special fiberglass sleeve with a silicate resin. If done correctly this repair is engineered to last half a century. This leads us to your first red flag. I'm shocked to see, time and time again, installers inserting only 1 layer of fiberglass. That is not how it's done. The fiberglass matt needs to be layered. With Sanikom's 1,050 gram fiberglass matt (I use them as an example as we use their fiberglass matts) the company recommends a double fold for non-structural repairs (for instance repairing a small hole drilled into a pipe) and a triple fold for structural repairs (for instance, penetrating roots or a detached pipe). There are situations where an engineer may request even more layers but in no circumstance is a 1 layer repair considered an acceptable repair. We want this repair to be waterproof, structurally sound and last for decades.
The second red flag is an improper pairing of material type and resin type. I've seen folks use a non-fiberglass sleeve (we'll get to that in the lining section) impregnated with silicate resin. This is wholly unacceptable. E-mail or phone any of the major manufacturers and you'll probably get them into cardiac arrest. So, on second thought, you probably shouldn't do that or you'll have something heavy weighing on your conscious. Now why, pray tell, would they do this, you ask. There are two reasons. First reason is that some people find it easier to use the sleeves than the matts. The second reason is that for 90 degree repairs you need a more flexible material for a uniform repair. Now let's discuss the issue with this improper shidduch.
The fiberglass matt is considered a structural material that is given form via the silicate resin. The silicate, by itself, is rather weak. The pipe liner, on the other hand, has no structural integrity. It gets it's form and integrity via the epoxy resin. I will repeat: the epoxy resin gives it structural integrity. When you combine silicate with the liner sleeve you get a very week repair. It can detach from the host pipe or the diameter can slightly shrink.
Now don't be fooled. The installer may say he is using epoxy, but is he? We often equate confidence with being right, but when armed with the correct knowledge you won't be fooled. So how do you know what resin he is using? First, you can look what is written on the cans. It should say whether it is epoxy or silicate. Next, silicate is usually measured by volume (the silicate resin with the hardener) while epoxy is weighed (the epoxy resin with hardener).
There are many different style carriers used to insert these sleeves. There are straight packers (the name for the carrier) for straight repairs, bendy packers for 90 degree bends (some are made for repairing one 90 degree bend while others can take on multiple bends) and special T or wye packers that take a greater degree of craftmanship to correctly perform the repair. I won't go into more depth regarding the different packers except for one point. Inflation pressure. It is extremely important to get the correct inflation pressure so the sleeve forms properly to the pipe. Many people don't realize this but silicate and epoxy are not glues. The point of a CIPP repair is not to glue a new sleeve within the host pipe but to create such a close bond that water cannot penetrate between the two surfaces. Without proper inflation a proper seal will not be created and can result in failure of the CIPP repair. A general rule is that minimum inflation pressure must be 0.3 bar beyond the point where the packer touches the pipe walls. For example, as you increase the pressure inside the packer via an air compressor the packer expands. If the packer uniformly expands to the host pipe at 1.7 bar you'll need to add an additional 0.3 bar to really compress the sleeve to the host pipe for a proper repair (for most repairs we go well beyond this minimum pressure).
Let us move on to brush/spray epoxy coating. This is the new hot item in Israel as it's less nerve-wracking than pipe patching/lining (easier to install) and can be applied in places were pipe patching would be difficult to get to. The issue is that many people are using a method that is intended for a specific purpose and broadening it's use for situations that will result in near certain failure. As one leader in the industry told me several times: "when you can line it, you line it; if you can't, you coat it". Why? Because CIPP patches and liners give you a structural repair while coating does not. Coating is mainly designed to elongate the life of failing cast iron piping and metal pressure piping. Coating is not meant to stop root penetrating. The installer also has to be extremely careful to have a 100% dry pipe and let each layer cure before adding the next layer (in general you want to have 3-4 layers, sometimes more, depending on the application). Any movement in the pipe can compromise the integrity of the finished coating whereas CIPP patches and lined pipes are much more forgiving to stressors on the pipe.
So when deciding to go with brush/spray epoxy coating understand from the installer why he isn't suggesting patching or lining. Ask him what warranty he is giving and what it covers. Ask him how many layers he will be applying. Ensure that the pipe is 100% dry before the coating process begins. And lastly, ensure that a structural repair is not needed (i.e. to fix a dislocated pipe, root penetration, etc.).
(I want to clarify. Every process has it's place. I'm not knocking brush/epoxy coating as a process. I am simply skeptical of its overuse especially when other, better options are unavailable. Secondly, brush/epoxy coating has a far shorter history than patching and lining and thus we have a far less track record of it's durability. When performing a repair I want to know that I am offering our clients the best option and not simply the most convenient option. I have found that many installers don't give options to their clients. To a hammer, everything is a nail. But it may be in your clients interests to open the floor or wall and repair the pipe the "old-school" way if that will guarantee a decades long repair.)
Let's move on to lining. Lining is typically done in situations where long, continual sections of pipe needs to be repaired or patching with a packer is technically challenging. Lining is a great solution for failing cast iron or concrete piping. Liners are installed, generally, with inversion drums rather than pushed or pulled in place like in patching. Lining is a world in it of itself so I think it's better that we end here for the time being and perhaps we'll revisit lining in a different article.
I would like to leave off with one more piece of advice. A final video inspection of the repair is absolutely critical. You want to ensure that the repair came out uniform, with no significant diameter change in any section of the piping, and that the transition to the host pipe is almost seamless. You should not see any space between the sleeve and the host pipe.
As always, if you have any questions or comments feel free to comment below or shoot me an e-mail.
All the best,
One of the most important parts of a proper pump system install is that loop you see behind me.
Usually when there is a sewer backup there are warning signs: strange flush, unusual sounds, and perhaps some sewage slowly coming up the shower.
But the real horrors start when you have plumbing in the basement and sewage starts flowing down there from a sewer backup. It might be a while until you notice.
Three safety measures help us mitigate the damage and let us respond in time to fix the issue:
Additional float in the pit that sounds an alarm, activates a light or sends a text message when the pit begins to overfill;
Check valve after the pump, this helps the pump cycle less and also prevents sewer backups from going downstairs;
That loop in the discharge pipe, the pipe is now higher than the lowest point on the main floor, so when there is a backup the sewage can't flow back through the discharge and travel downstairs.
Is your water heater undersized?
Are you running out of hot water too quickly?
If you dont have the option of upgrading your water heater and you have already increased the temperature in your boiler try installing a flow reducer.
It is extremely simple. Below is a step by step picture tutorial.
Is your bathroom sink draining a big -- or very -- slowly?
In the video below we show you step by step how to attack the clog.
First step is removal and cleaning of the trap.
The next step is running is running a manual or electric snake through the drain to pull out the clog.
After weeks of anticipation the Clog Dog flex shaft finally arrived!
We are so excited to be a part of this revolutionary technology in the drain cleaning field.
Flex shaft technology has been used for a while in the niche of pipe patching and pipe lining but recently has been put to use in drain cleaning.
Picote and Renssi are the two major players in the field -- up until the arrival of Clog Dog.
Clog Dog was developed by people in the field who wanted a flex shaft designed specifically for drain cleaners. One of the major differences is the cross wound flex shaft that allows the shaft to be spun in reverse.
What are some of the benefits of flex shaft technology over conventional drain cleaning methods?
1. Extremely light weight which makes it safer for the operator.
2. Attacks clogs based on speed (RPM) and not torque which also makes it safer for the operator. No concern of rods twisting on fingers.
3. Cleans the entire diameter of the pipe with the expanding chain knockers. It's often difficult to get a thorough cleaning of the grease-filled pipe or completely remove all the roots from the top of a pipe. Expanding cutters are good for that purpose but there isn't always access to get them into the pipe.
We'll have some more videos as we use the flex shaft but check out the arrival of the Clog Dog in the video below:
We were called in to diagnose a serious leak dripping down from our client's ceiling.
They already figured out that the leaking intensified with use of the bathtub.
It did not take much time to figure out that the drain was the culprit.
Exposing the drain was not easy as the contractor had enclosed everything with concrete. We had to carefully remove the concrete without damaging the acrylic tub.
What we found was ridiculous! The pipe was completely dislocated. There was no trap. And the wrong connection was used.
We installed a higher quality drain and overflow. We added extra sealant as well. When it comes to tubs and waterproofing we like to double things up. Obviously we added a trap and installed the piping with 45 degree elbows and proper gradient.
If you're unsure that your contractor is getting the job done right, we recommend calling in a professional plumber to inspect the system BEFORE closing things up!
While conducting a plumbing inspection on a construction site in Baka, Jerusalem, we noticed something odd about two rolls of 25 mm pex piping.
The diameter of the conduit was too small.
The conduit must be two sizes larger than the piping itself, such that a 25 mm pex pipe should be in a 40 mm conduit and a 20 mm pex pipe should be in a 32 mm conduit.
The piping in the picture is 25 mm piping in 32 mm conduit.
Why is this important?
Pex piping is installed in conduit to allow for easy future maintenance. If a pipe or connection springs a leak the floor and walls don't need to be opened for the pipe replacement. If the conduit is sized properly and proper radius is maintained during installation the piping can be easy removed and a new one pulled in place. If the conduit is too small it will be impossible to pull in a new pipe.
How did this happen? The manufactures sell either sleeved or non-sleeved piping. Sometimes companies purchase non-sleeved piping, put the piping in their own sleeve, and then sell these rolls to stores. It is in this latter scenario that disastrous mistakes like this occur.
Can't make this stuff up!
Filter housing was leaking bad so took it apart.
I tell the client, look at the dirty and cracked filter, this is one reason it's not always a smart move to have a filter on the mainline.
But then I'm like, this feels strange.
The person didn't take off the plastic wrapping!!!
You arrive home after an extended vacation and exhaustive trip back, ready to relax. You open the door, step inside and…the house is flooded. Tens of thousands of shekels in damage to your furniture and other contents. Luckily you are fully insured, but nonetheless…
This is not an unlikely scenario. It is one the insurance companies are well accustomed to. For this reason we advise our customers to shut off the water supply to their homes before going on vacation. It is very important, however, to verify that you indeed turned off the water. We had a client “turn off” their water only to receive a phone call while on vacation that a pipe burst, flooding their apartment and causing damage to the neighbors down below as well.
So before you leave on vacation turn off the water outside at the water meter. Relieve the pressure in the system and verify that it really is off by opening a tap in the apartment. This way you will know if you turned off the wrong water supply or if the valve is perhaps faulty and not closing completely.
I was packing my groceries when these toilet bowl fresheners caught my attention. They remind me of the cost of convenience.
Often society looks for the quickest, easiest way to accomplish a goal without considering the repercussions. It is not unusual for me to get a call from a client saying they think the freshener was flushed down the toilet consequently causing a clog. Retrieving them from the waste piping can be a tedious and costly affair.
If after examining the cost-benefit analysis one is still willing to take the risk, great. But at least understand the risk involved. In our home we simply leave a toilet brush and cleaner in close proximity and regularly clean the bowl. It only takes a few seconds.
All the best,