Chasing Water Leaks Part II

July 28, 2010

water-leak210% of all homes have some sort of water leak, and can be repaired quite easily. However, hidden leaks are hard to find but can go un-noticed for years and cause significant structural damage.

To continue with the “Chasing Water Leaks” theme for March, Part II of this article is directed at the real hard to find category. By now you should have fixed any leaks associated with faucets, toilets, and any other water delivery devices (dishwashers, ice makers, lawn sprinklers, etc.). If not, make sure and read the posts on Chasing Water Leaks Part I and lawn sprinklers  and resolve those issues first before going any further.  This Part II  inspection will help you discover leaks that may be in the ground, in a wall or very small leaks that can go unnoticed in or around the house. Even if you decide not to do any of the work, isolating the leak for the plumber will save you significant $$’s.

Leak Isolation Group II (main lines and  concealed leaks)

  1. Main water line: Typically houses have a service cut-off immediately before the water service enters the house. Turn off the service cut-off and re-inspect the water meter low flow gauges to see if the meter is still running or not. If the meter still runs, walk the path of the water line looking for dark green grass (in the summer) or wet spots. TIP: Use caution in operating this cut-off if it has not been operated for a year or so, do not force it. You can still walk-out the path without using the cut off. Obviously, if you find something here it will need to be fixed before you can complete the inspection. Finding the leak here may conclude your inspection.  Considered rare, finding a leak here can typically be associated with recent digging.   mold
  2. At this point, the leak you are searching for is probably very small.  You will be looking for traces of water, in the form of moisture or mold. You may just find slight discoloration or the surface may be cold to touch compared to the rest of the surface. Inspect baseboards and walls near or around where water pipes enter the house. Make sure and look on both sides of a wall that may have water pipes in them.  Look for moisture on the walls and floors surrounding all the water fixtures. You may also find distortion on the wall or floor surface as water will cause the building materials to expand. If you find solid evidence, you may have to open the wall to get to it to expose the pipes, but before you do, try to isolate the problem further by following the Foundation methods.  (TIP: Experiencing foundation movement could have been the cause of a leaky pipes in a wall.) If you were unable to locate the leak based on the previous inspection you may eventually require a professional but before you call them try these inspection methods for further isolation.

Pier & Beam Foundations: Houses with pier and beam foundations usually have a crawl space with an access hole. Possibly in a closet or outside around the foundation. If you are claustrophobic, don’t like bugs spiders and crawling things, you want to stop here and call a professional. If you choose to continue, take a good flashlight and crawl in.

  1. Start at the end of the house where the water line enters the house and  crawl the path of the pipes. Look for puddles, wet soil and wet pipes. If you suspect pipes-in-crawl-space1a leak in the wall , look up at the floor boards and all locations where the pipes enter the house above you.  Moisture, dampness, mold is the give away. If it has been leaking for an extended period of time, you may find rotten wood. If the pipe is leaking within the wall, you will probably see water trickling down the pipe to the ground.
  2. If you find water or water damage around the large drain pipes under the toilets, shower, tub or sinks, this will have to be addressed, but is not the cause of water loss through the meter.

Slab Foundations: With slab foundations; walk the perimeter of the house.

  1. Look for damp areas or pools of water
  2. Look for damp conditions or green moss on the concrete and brick. This would not be associated with any gutter downspouts or roof run offs.
  3. At this point, if you  haven’t found it, you may have a leak in an interior wall or under the foundation. If you have had recent foundation movement or foundation repairs, this would increase the chances of this type of leak.
  4. Calling in a professional may be your only choice because it may require  specialized test gear designed to measure for small amounts of water. When you are interviewing a plumber over the phone, insure they are equipped for this type  of diagnostics. Otherwise they will come out and do pretty much the same things you did, then call another plumber (as a sub-contractor) to perform the tests  and charge you for both his time and the other plumber.

Key Inspection Points and Action Items:

  1. Use the  water mter to determine if any water leaks exist.
  2. Inspect in, around, and underneath the house.
  3. Once the leak(s) have been isolated, repair them or call a professional.
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Chasing Water Leaks Part I

March 27, 2010

Ten percent of homes have water leaks that waste 90 gallons or more water per day. water-meterParticipate in National Fix-a-Leak Week by fixing a water leak this month.

 

The Silent Thief

A leaky faucet that drips at the rate of  one drip per second can waste more than 3,000 gallons of water per year. If you have a dripping faucet or running toilet, these need to be fixed first and will solve the obvious water leaks. If you need to call a handyman or plumber.. the time is now. If you want to give it the DIY try, visit EHow.com for a straight forward method for fixing common faucet and toilet leaks. However before you start, make sure you have already read my post on Water Supply Cut Off and City Water Cut Off.

 

Even though fixing water leaks is not normally what I would consider as preventative maintenance, fixing a faucet or toilet is something that is hard to miss, if you see it leaking….fix it. However, some water leaks can occur in places you would not normally view. Under the sink, behind the refigerator, and under the house are just some of the places. These type water leaks can go unnoticed for weeks, months or even years. These leaks not only waste water but can cause structural damage to wood floors as well as foundations. If you have no leaks, this inspection is about 5 minutes. If you do, plan on a good part of the day.  Good luck .

 

The Inspection

This inspection method is really about finding those hidden leaks.  Insure that nothing will be turned on (dishwasher, toilet, sprinklers, etc.), or activated during this test. Before performing the inspection you must gain access to the meter. This may require a meter key that can be purchased in the plumbing section of any home improvement center. Once you have the meter box open, the meter should be visible. There are at least a dozen different water meters having different dials and gauges. Look for the “Low Flow” gauge in the meter (in the meter pictured here, the low flow indicator is the little red blob to the left of the large sweep hand, between the 7 and 8 on the dial). If you are unsure which gauge it is, turn on a faucet, leave it on and look at the meter. One of the gauges in the meter will be moving faster than any other part of the dial; this is the low flow gauge. Turn off the fixture, return to the water meter and watch the low flow indicator for approximately 3-5 minutes. If the meter progressively moves forward, you have some form of leak, if not no further investigations are required. If you do have a leak,  you can call a professional or try to further isolate the problem. Either way, it may take some time  as some the leak may not be visible.  $TIP$: Isolating the leak before calling the plumber will save you some money as the plumber will charge you by the hour whether he is looking or fixing a leak. 

water-meter-key1Before we start the leak isolation test, turn the water off here (to make sure you can). It may seem like a simple task and why should you do it just to say you 100_0178can? Because when you really need to, time is of the essence, and you don’t have time to search for the right tool. This cut-off (on the street side of the meter head may be hard to get to, so find the right wrench that will work for you).  A crescent type wrench works best for me. The cut-off is probably a ball valve and you will only need to turn it 90 degrees from its current position. 

 

Leak Isolation Group I (fixtures, faucets and toilets):

If you find a lot of  water or condensation on the fixtures, save the test for a dry or warmer day as this condition will make it difficult to find your problem.

 As mentioned in the beginning of the article, you should have already fixed any obvious dripping faucets. This isolation method is for the hard to find leaks. If the low flow meter stops after any one of the isolation steps, you have found the source of the leak. toilet_water_shutoff_valve

  1. One at a time, turn off each fixture at the wall and return to the meter to watch the low flow gauge. This should include all faucets, toilets, ice makers, water filters, dish washer and water heater (inspect last).   If the meter stops, there is a leak between the cut off and the fixture.
  2. If you find water dripping or puddles, take some unused toilet paper and wipe down the hose, pip, cut-off, fixture and both ends of the connection; everything under the sink.  TRICK: Why use TP you ask? TP is very absorbent, very pliable and you can see any water trace in the paper. Water travels down hill so look at the joints above the first sign of water.
  3. With the water turned on, start your inspection from the highest joint/connection. Look at the TP after wiping down each joint/connection/pipe section/cut-off. If you find any water deposits on the TP, you may have found the leak. Leaks are usually found at joints, couplings and connections. Assuming it can be tightened, do so by hand if possible or with a wrench, or call a plumber. TIP: Most plumbing connection are made with soft plastic, copper or brass, only tighten the joint to the point of not leaking, over tightening can cause it to leak worse.  Many plastic joints ca be tightened by hand. After tightening the joint, dry it completely and perform the TP test again. Perform the test at least twice. If the leak persists, replacing the rubber washer or seal at this joint may be required.
  4. Toilets: Toilets require the TP test as well. Since most residential toilets have a tank, you will have to verify that water is not leaking from the tank to the bowl. Remove the lid from the tank and add some food coloring or colored tank bowl cleaner to the tank water (do not flush). Give it about 5 minutes, then see if any of the color has leaked in the bowl. You may have a leaky flapper valve. 
  5. Check the water meter again. Hopefully you fixed it, but you could still have more leaks.
  6. Perform this series of tests as required for each water fixture in the house. This will include all faucets, toilets  refrigerator mounted ice maker. dishwashers and any other water consuming or delivering device.

Look for articles on Sprinklers Leaks and Plumbing-Chasing Leaks Part II for additional leak detection methods.


Watering Your Foundation – A Permanent Solution

October 13, 2017

Several months back I wrote a post about Watering Your Foundation, after that I wrote  Watering Your Foundation – Getting Ready for Summer and in that post I promised a final follow-up on creating a permanent solution to creating a low maintenance solution that removes most of the problems associated with earlier solutions. Granted, this one is a bit more work and on a DIY scale of 1-10 10 being the hardest, I would give this a 7-8 (depending on what you may or may not already have. Since you have already read the last two, no need to go through the why and what for, but to just pick it up from the last post. Since the summer is (mostly) over, this might be a good project to complete with the weather is still pleasant.

The biggest advantages to this solution vs. the last one is, convenience, and integration into a lawn sprinkler system.

Things you will need to for this to work with the least amount of inconvenience and disruption. This solution is based on having all three of the listed conditions. However, any of these items can be added, but it can dramatically impact the cost to provide it.

  1. Preexisting  lawn sprinkler system in good working order and a timer/controller
  2. The timer/controller will need to have at least one extra or vacant station assignment. If you have more station numbers than active stations you probably have an extra one.
  3. You will need to determine if you have a spare controller wire (in the controller) and you will have to locate that same wire outside.

The next step is to create a new zone or station on your lawn sprinkler system.  I will cover the basic process but if you have never really cut into your system, this might be the time to get some knowledgeable help or hire a sprinkler contractor to build you a new zone.

Create a New Sprinkler Zone

  1. Find a sprinkler zone  that has its control valve close to the house.
  2. Dig up the dirt around the control valve enough to expose the control valve and the associated water pipe that feeds the valve. Figure out which side of the valve has pressure on it (all the time).
  3. Determine that the spare wire you located in the timer/controller shows up here too! Us a volt ohm meter as a continuity tester to confirm.
  4. The pipe feeding the valve is under pressure, so you will need to turn the water off at the source before you do it.
  5. To determine which is the pressure side, there should be an arrow, or water flow indicator on the valve body.
  6. .Cut the pipe, Tee in a joint  to install a new valve.
  7. Install a drip zone flow control valve equipped with a filter assembly. This valve will keep the flow in spec as well as keep the emitter from getting stopped up.
  8. Extend a wire from the existing valve to the new valve including a common (usually white) and a new wire that you are picking up from the controller timer.
  9. Make sure the new valve is closed and turn the water back on and check for leaks.
  10. If you want to test it at this point, go right ahead, but realize if you did this correctly, it’s gonna get real muddy real quick.

Parts Needed for the Drip Emitter Foundation Watering System

  1. 1/2 poly hose to use for areas that do not need the emmiters
  2. 1/2 Emitter tube, used to circle the house
  3. Various connector/fittings. You will need some fitting to go around tight corners since the pipe does not make sharp corners as well as connecting to the valve.
  4. Landscape anchor staples; use to pin the tubing down in place while you are installing it.

Install the  System

  1. Dig a ditch from the new valve to about 12-16 inches from the foundation to conceal the feeder pipe so it will not be exposed to damage in the yard.
  2. Depth of new emitter hose is kind of “it depends”, so in other words, it can be on the surface or 3-12 inches below the surface. Either way, realize that when gardening or digging around the flower beds, if you hit the emitter pipe, you can easily cut it. So regardless of the depth, after gardening, run the section to identify any leaks.
  3.  Since you are probably 10 or more feet from the house, you may want to use 1/2 poly hose from the valve to the house foundation (unless the valve is already at the foundation, then you can just start with emitter hose). You can buy shorter lengths of this from the big box store, but depending on your house arrangement, you may want to use this pipe in places you do not need to water
  4. Connect the emitter tube and route through the landscape staying about 12″ from the edge of the foundation. This tubing is sort of stiff, so use a connector to make a sharp bend. Use the landscape staples to keep it in its place.
  5. There are no rules to stop you from installing a Tee and going both ways around the house, and if you have to branch out, that is fine too. 100 feet is the limitation of the emitter tube from the valve, but you can tee it in to two 100 ft lengths.
  6. Make the electrical connection at the sprinkler controller and program in the new zone. You can have a summer and winter time schedule, but its good to water this zone all year long, again to keep the soil close to a constant moisture level.

 

 


Chasing Lawn Sprinkler Leaks II

July 31, 2013

lawn20edge20pop20up2011My wife complained the water bill had gone to the moon (again) last month. Even HomeownerBOB has sprinkler leaks!! In this post I hope to show another way to identifiy water leaks in automatic lawn sprinklers. After doing the basics, it was obvious, it would take a little more effort.

At this point, I still had no idea where the leak was other than I was confident it was past the valve as the meter was not moving otherwise.

Most sections should use near the same amount of water except where it might be a very small section or (in my case) I have 3 sections using emitter tube for drip irrigation, but even in this case there should be some relative similarities.

  1. Access the water meter for the property, clean the meter face or get to where you can watch the meter move.
  2. Make sure all other water devices are turned off or wont come on during this test
  3. If you have a controller that has a test sequence, set it to 1 minute. If not, have some one manually operate it at one minute per section.
  4. Have a friend turn it on while you are positioned to watch the meter
  5. Once it starts, watch the meter (this is not real scientific, but you are looking for a difference in the trend.
  6. You should beable to recognize when the watering changes from one zone to the next as the water meter will stop (very briefly) then start again.
  7. In most cases the meter will briefly run very fast, then (noticeably) slow down.
  8. Compare the speed and gallons used by each section. (your comparison should be like for like, in other words, pop-up sections to pop-up sections and so on.
  9. If you find a section that does not trend the same way (i.e. does not slow down after the initial turn up), it is likely that this is your problem zone. In my case, I had two that looked funny.
  10. Stop the test and run just the sections that appeared perculiar. Walk the entire section, head by head to find larger quantities of water.

100_0203In my case, the problem was in the emitter section. It is not unusual to spring a leak in these sections either due to driving a shovel (my wife) through one, or one of the ends coming open. It ended up being neither, but was caused by an inline filter I installed (below ground under this cover) to keep the emitters clean. This has happened to me before on a different section as I used these fancy filters that self clean them selves, unfortuntly they tend to stick open, and they have to be replaced. I replaced them with a non-self cleaning type. I have one more that could go bad, so its only a mater of time.

Make sure and click on the Lawn Sprinkler tab to see all my articles on lawn sprinklers.


Finding Leaks in Sprinkler Zones and Common Problems

June 13, 2009

bad sprinklerRecognizing a water leaks within a sprinkler zone can be  difficult as they may not reveal their location until  under pressure.

How do  you recognize a minor leak  in the sprinkler zone if it’s not obvious?

  1. The first noticeable trait would be the zone does not appear to cover the ground as well as it used to. You may also recognize plant material or turf that appears dry or starving for water.
  2. Moist mucky dirt, soggy spongy area(s) in the yard. Someplace that never seems to be dry.
  3. New or additional brown patches  in the turf indicating low water coverage.

If you have read any of my sprinkler articles you know that most sprinkler problems are with heads and valves. Both provide obvious indicators of water loss. Here is a recap of the most common problems: 

  1. Weeping heads: A slight amount of water is passing through the valve when it should be closed. The sprinkler heads remain wet well after the sprinklers have run. Typically, disassembling the valve and cleaning will correct it.
  2. Dirty heads: Dirt, pebbles and grunge can lodge itself in the sprinkler nozzle as well as the body and shaft of the sprinkler head. These problems will modifiy the pattern, providing excessive water in the wrong places. Start by replacing or disassembling the head and cleaning it.  TIP: Like for like heads and nozzles will reduce complications in future repairs. When a sprinkler zone is turned off,  typically the lowest head in the zone becomes the relief valve causing water left in the lines to drain out. This is very normal. However, in doing so, a suction is created that can pull in surface water, and dirt from around the other heads. This dirt can migrate throughout the zone clogging the other heads. TIP: If the location of the low head is in a bad place, an in-line drain can be installed in the pipe, but you will have to dig up the pipe to do it.
  3. Broken head: Obvious water spray outside the defined pattern. This can be corrected by replacing the head or the broken parts.  TIP: Keep extra sprinkler heads to replace bad ones. Rebuild the old ones if you can. Remember to reuse or replace the nozzle like for like. Many times you can replace the entire head without disturbing the surrounding dirt. This reduces the opportunity of allowing new dirt into the system and keep you from having to to dig the head up. 
  4. Lawn butchers: Weed Eaters and edgers are the death of lawn sprinklers. They can easily destroy several heads over a season of mowing.
  5. Allowing dirt in the system: No different than the water system in your house, allowing dirt in the pipes creates opportunities to clog valves and heads, creating more work for you. When working on sprinkler heads and valves avoid this by taking the appropriate steps  to stop surface water back into the system. When you run a zone and identify a head that needs attention, removing the head may create a suction that will pull water and dirt into the pipes. Admittedly more work, by digging up the dirt from around the head and getting the hole deeper than the head connection can reduce the opportunitiy of allowing dirty water into the sprinkler system. TIP: If there is no standing water at the head, attempt to change it without digging it up as described in number #3, this will save you some time.

If you have corrected the problems associated with the above list and you still have problems, its time to look deeper into the system. Most likely, if you have gone this far you are recognizing that a specific zone does not present the same pressure, or cover its area as well as the others.  This trait is an indication of a pipe, joint or fitting leak, and the leak is large enough to reduce the zone pressure but not enough to create a pool or hole in the lawn. 

water poolTry this method to further isolate the leak:

  1. Assuming you have pop-up type heads, adjust the screw on the top of the nozzle  (on every head in the active zone)  to shut off the water on that head(s) TOTALLY. This increased pressure may be enough to cause the small leak to burst. Continue to walk the sprinkler zone looking for mushy ground and water pools.  Also, go look at your water meter for measured water usage.  Look for the meter to be moving at a medium to  rapid pace (make sure everything in the house is turned off). TIP: Since lawn sprinkler heads are not rated to hold full pressure like a faucet, some small degree of water oozing is acceptable.
  2. If you have other styles of heads or #1 didn’t find it, this step #2 will be dirty wet work.  Conceptually, it’s the same as #1 but requires you to expose each and every head on the zone and install a threaded cap to replace each sprinkler. In this method, you have  to remove all the heads from the equation and the zone should hold pressure just like any pressurized plumbing line. Check the water meter; if you still see a water loss, leave the zone on for 2 or 3 hours, or even the whole day. Again, look for water pools or mushy ground and check your meter.

You may also find benefit in reading the other articles I have written on the subject: Lawn Sprinkler Efficiency Part II, Lawn Sprinkler Efficiency Part I ,  Searching for Lawn Sprinkler Valves, Chasing Lawn Sprinkler Leaks


Lawn Sprinkler Maintenance Can Increase Water Efficiency

April 20, 2009

sprinklers-01In-ground lawn sprinklers are about 50% efficient. Evaporation, poor maintenance and bad design  are the largest impact to that figure.

The spring season has many of us looking to use automatic lawn sprinklers to do our watering.   Hopefully you have read my post on Chasing Lawn Sprinkler Leaks.  This is a good start, but it just barely touches the subject of efficiency. Besides fixing leaks, there are numerous items that can be performed to make your system more efficient without sacrificing performance. Today, the dollar cost of water is still very reasonable, however water conservantion is really about using less and the long-term benefit.  Even though this article will address issues specifically related to systems designed with pop-up type heads, many of the suggestions will work with other types as well.

General Design Considerations:  Understanding how an irrigation system is engineered will help you understand how to make one work more efficiently. If you have a “blueprint” of your system you have a head start, if not, we will perform some hands-on analysis to obtain performance information. 

  • Elements of Design: All systems are designed based on water usage  and gallons of water (GPM) per minutes used by each head. Typically the small pop-up heads use more water per head per square foot watered. Because they apply more water per square foot than other types, they work well for small and medium-sized residential properties. They can also be easily tuned to fit odd spaces with a host of nozzle choices. 
  • Zones or Sections: All sprinkler systems are broken down into zones or sections. The Irrigator calculates the zone size by using available water pressure, pipe size and maximum GPM per zone. Besides these items, zone adjustments may also include special watering needs such as side yards, gardens, flower beds or odd-shaped areas. Since additional zones require more material, labor and money many Irrigators will keep the costs down by limiting the number of zones installed, this is good for him and maybe not so good for you. As you analyze your system and you see one head out all by itself in the middle of another zone, the Irrigator needed a head in that location but did not have enough water budget left in the prevailing zone. This is all very common but can be problematic if you are attempting to manage your water usage at a higher degree than normal homeowners.
  • Sprinkler Heads & Nozzles: There are a half a dozen types of sprinkler heads, but the pop-up style is still the most popular because they can meet varying needs. Pop-ups can be purchased in different levels of spray coverage and are promoted as providing better coverage because they are typically spaced closer together. Typical systems use heads designed with 10′, 12′ and 15′ radius spray patterns as well as strip sprays and bubblers.  Larger properties can use Impulse or Rotary style heads to conserve water as they can be placed very far apart. Because they distribute water in more of a stream vs. spray found with a pop-up style, they do not waste quite as much water per square foot.  Impulse and Rotary heads work well with wide open lots, but don’t work well when there are obstructions such as building structures, trees, and property lines.
  • Mixing Head Types: No matter the sprinkler head style, it is perfectly normal to find a mix of spray pattern nozzles within each zone, and a mixtures of head types in a system,  but NOT a mixture of head type (Pop-up, Rotary, Orbital) in the same zone. Mixing head type can make it difficult to properly manage coverage and watering levels.
  • Optimal Design: The best designed systems account for the water required based on the environment. In other words, shrubs and flowers should be watered at a different rate than turf. Shaded turf may be watered less than turf placed in full sun. Grass type is also influential. Unfortunately, not all sprinkler systems are designed with these considerations as it can be more costly to engineer a system with greater efficiency. TIP: If you don’t currently have a sprinkler system, and are looking to purchase one, beware of the very low bids as some Irrigation Contractors will take short cuts on the items mentioned in an effort to win the business.

EFFICIENCY STRATEGY

Stage I: Gain the most efficiency out of your existing system without impacting the design.  All of Stage I is covered in detail in the “Sprinkler Leak” post. But here are the high points.

  1. Check for leaks in the pressure side of the system. Use your water meter to isolate the leaks in the sprinkler zones.
  2. Check for leaks in each zone. Most leaks are at the heads; repair and replace the heads and risers as necessary. Make sure you use the same style head and similar nozzle sizes as the one you are replacing.  TIP: All the major manufacturers make pop-up heads, its okay to mix brands but if you stick with the same brand, you can always move and change nozzles between existing heads when needed because nozzles are not universal between manufacturers.
  3. Ensure all sprinkler heads are clean and providing the proper water pattern.
  4. Adjust the watering duration and times to match the season.
  5. If your watering durations continue to allow excessive water run off, try changing the watering times to a series of short cycles. For instance, change a single 15 minute cycle  to 3 back-to-back 4 or 5 minute cycles. This can allow the water to saturate before the second and third cycle occurs. Typically, I don’t like the short cycle watering strategy, but if you perform it back-to-back, its okay.
  6. Consider using your system in manual mode only. Watering when only necessary will reduce your water usage substantially. 

lawn-sprinklers3Stage II: Plan to get wet.  This stage requires a bit more effort and the gains achieved may be small, but the intent is to make gradual changes that will increase efficiency without negatively effecting performance.  This stage is intended to optimize the system by fine tuning the existing sprinkler heads. 

  1. Look for excessive water  accumulation. Not all landscapes require the same amount of water. Unfortunately, when irrigation systems are designed, this fact may not be included in the design. Read the system performance by looking for items such as excessive water, green moss or over saturated ground and plants.
  2. Fine tune  individual sprinkler nozzles. Each sprinkler nozzle has a fine tuning screw on the top of the nozzle allowing you to change the water output. However, when you reduce the flow, you reduce the pattern spray coverage. In some cases, you may completely turn the water off at the nozzle. This is sort of a trial and error exercise, so you may need to make the adjustment and keep an eye on the area for proper coverage. Newer style nozzles may include a water saver disk found under the nozzle to equalize pressure and reduce water usage. Adding or removing this disk will also change the amount of water delivered.
  3. Parkway Watering: I mention this because this strip of grass found with many older homes is a large source of water waste with automatic lawn sprinklers. Run the zone that waters this area to determine how much waste is occurring. Adjust it as much as you can. If you still have excessive water run off you may consider adjusting the fine tune screw to the off position and either hand water it or let it go brown and just let the rain keep it green By completing Stage I & II, you should be reducing you water waste. You may be able to reduce your watering duration by the fact that you are wasting less water. Before you move to the next step, let the system run for several weeks/months. Monitor the performance and make further adjustments as necessary to the nozzles and watering duration.

After completing Stage I and II let the system run for a couple of months. Monitor the performance and the water usage, make adjustments as necessary.  However, if you want to go further, I still have Stage III and IV recommendations. Look for my post next week on  “Lawn Sprinkler Efficiency Upgrades Part II“.  

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Chasing Lawn Sprinkler Leaks

March 21, 2009
 Fixing easily corrected household water leaks can save homeowners more than 10 percent on their water bills. sprinkler21

       

 Unfortunately many of us require lawn sprinklers to have any kind of landscaping short of cactus, gravel and rocks. Having a lawn sprinkler system is kind of like garage door openers, once you have one its hard not to. Dragging hoses around the yard is a real pain and it becomes a challenge to keep things alive. Taking care of your sprinkler system will save you money,  reduce the opportunity to waste water and keep your plant material alive. With water restrictions  on the upswing,  more and more cities are assessing fines for violating the restrictions.  Check with your local municipality for restrictions regarding time of day, rain and freeze detection.  Adding a rain sensor to your system is a wise decision.   

Rain Sensor

Rain Sensor

   

Because sprinkler heads are not under pressure until the system is live,  it can be difficult to isolate the leaks. “Pop-ups”  are the most common spray heads found in  residential systems. Typically I find  pop-ups require more maintenance than the larger impulse or stream sprayers primarily due to the fact that pop-up sprayer use less water per head and the water orifices are smaller and they clog easily.  With pop-ups, it takes more heads per square foot to provide adequate coverage. The greater the distance between heads, the further the water has to spray.  To do this, the arc in the spray pattern has to be projected higher in the air.  As a result,  you lose up to 50% of the water in the air.  Up until the last year or so, we have seen little in the way of water miser type heads. These new type heads are designed to replace the pop-up with a miniature stream sprayer providing a coarse spray in lieu of a mist. This can help reduce water loss and your system may be retrofitted to use these type heads. However, it is important to match the right head for the system. When your system was designed,  it was all based on a certain water pressure, pipe size and GPM (gallon per minute) volume, so any changes need to take this into account otherwise you may end up over/under-watering. Not that a DIYer cant figure this out,  a good licenced irrigator can help you solve the problem. Also, take a look at this comparison study of nozzle types.   

Top 5 Reasons Why Water Sprinklers are Wasteful   

  • Poor design: System design that allows sprinklers to spray water across sidewalks or concrete cause water to be lost to evaporation and run off. 
  • Wrong watering times:  Running your water sprinklers in the middle of the day allows the water to evaporate before it has time to absorb in to the ground. 
  • Wrong water duration: Some believe short duration watering is a way to conserve water however, short shallow watering can cause turf and plants to experience stress because the shallow water can cause shallow roots.
  • Dirty nozzles: Even though sprinkler heads (should) have filters underneath the nozzles, they can still pass some particles in to the nozzle. Many times bad-sprinklerthese particles can be wedged in the spray nozzle causing it to mis-spray and not distribute water equally and efficiently throughout the spray pattern.
  • Lack of maintenance: Sprinkler heads take a lot of abuse from lawn mowers, string trimmers and edgers. Whether it be abuse,  leaky or bad sprinkler heads, all of these conditions can cause a lot of water to run down the sidewalk. 

Standard spray nozzles are approximately 50% efficient as the over-spray is lost in the air.  Loss and waste in a sprinkler system can be difficult to recognize without taking the time to exercise the system and inspect each sprinkler head while running.   

 Keeping your lawn sprinkler system in good working order is one of the easiest ways to get optimum performance from your system. Most all lawn sprinkler systems can be defined in two distinct parts:
  • Feeder or Pressure Lines: The side under pressure includes a cut off valve, double check valve (aka back flow prevention valve) and a valve for each zone and a lot of pipe. 
  • Distribution Lines or Zones: The system could include any number of  zones, this is all dependent on the size of the system. The zone has to be running to inspect it for leaks. Since the sprinklers are spraying water, finding leaks can be a bit more challenging.

Chasing Lawn Sprinkler Leaks   

Feeder or Pressure Line  Leaks:   

  1. Finding leaks in feeder/pressure lines is similar to the same process as found in the Chasing Water Leaks post. Turn off the main cut-off that will isolate the sprinkler system from the remaining water supply. If the flow meter stops proceed with the following steps.
  2. Locate each sprinkler valve in your system. If you are not sure how many valves are in your system, look at your Sprinkler Controller to identify how many sections or zones are in the system. Finding the sprinkler valve may be difficult as valves can be overgrown by grass or ground cover.  If you have the original installation drawing, it should identify the approximate locations of the valves. Before you hire a professional, try the methods described in Searching for Lawn Sprinkler Valves. Either way, once you find them, take note of their location for future use. 
  3. You may notice water residue around some sprinkler heads even when it should be dry, known as weeping, this could be a hint that the sprinkler valve is passing water when it should not be.
  4. Once the valves are located, they should be turned off, one at a time to determine if you have isolated the leak. Each valve has a manual cut off on the center top of the valve. Once you have isolated the leak to a specific zone, the problem will be resolved at the valve. (TIP: Sprinkler valve can be disassembled and cleaned without removing them from the system but the water must be shut off.) Most likely it just needs to be cleaned (that means taking it apart and removing any dirt or debris inside the housing),  but it could have been damaged during the winter months, if so, you may need to replace the valve. Read this tutorial for specific instructions on repairing a solenoid valve.

Distribution Lines or Zones: (Plan to get wet)   

  1. Run each section one at a time. Walk the zone looking for excess water accumulation around the head, the seal could be bad or the head loose causing a lot blown-sprinkler1of blow by. Try tightening the head, (yes, all this while the system is running). If none of this stops the excessive water, replacing the head and riser is the simplest solution. If the leak is around the stem or nozzle riser, you can take these head apart for cleaning. Perform this action with the water turned off. To avoid additional dirt in the system, its best to dig away the dirt from around the head, down to the connection otherwise dirty water will enter the lines. It’s important to remember to do your best job of keeping new dirt from entering the system as this will cause more blockage problems further down the pipe. TIP: Keep a couple of extra sprinkler heads around for spares and spare parts. Changing the head is lots less invasive and a 1 for 1 head swap out than trying to operate on the head in the dirt and water. You can also rebuild the removed head for future change-outs.
  2. If the head is not leaking inspect the pattern of the water spray. Different nozzles are designed with different patterns, so the spray could be limited by design to provide adequate coverage. There are too many nozzle patterns to discuss, but most importantly, look for a  nice clean even pattern. If you see breaks or weakness  in the pattern, the nozzle is probably dirty. Turn the zone off and unscrew the nozzle. There will be a  filter in the riser. Clean the dirt out of it. Also inspect the nozzle itself for very small pebble grit lodged in the sprayer. Use a toothpick or very small screwdriver to remove these particles. The last item may require 2 people. Run the zone without the nozzle installed, this will blow-out any dirt particles that are below the filter. Tell your partner to turn the water off and grab the riser before it stops releasing water. This will keep  dirt from re-entering the system. Re-install the filter and nozzle. Perform this same inspection with each sprinkler zone.   
  3. If necessary, (while the zone is running) adjust any partial pattern sprayers that may be near sidewalks or driveways to keep the water spraying on the grass. If you have parkway sprinklers that  are designed to water across a sidewalk (bad design)  to water grass or plants, you may be stuck with leaving it alone since cutting it back may cause an area to be dry.

Key Inspection Points and Action Items:   

  1. Look at your water meter for any slow leak that may be caused by your sprinkler system. Isolate the sprinkler valves to determine where the leak is.
  2. Run each zone, inspect each head for leaks, also look for a good pattern and good coverage. Cleaning the heads may be required.  
  3. Adjust the sprinkler heads as necessary to minimize water over-spray on no-porous surfaces (sidewalks and streets).
  4. Adjust your water cycles to match the season.

Roofing-Looking for Leaks

March 4, 2009

roof0006

Contrary to common belief, roof leaks can be found when it is not raining.

While installing a chimney cap last week, I figured it was time to perform the annual roof inspection. My roof is less than 3 years old so you wouldn’t expect to find much of anything. Unfortunately that is never the case. Your roof takes a lot of abuse and you need to keep an eye on it.

Catching roof leaks before you actually notice them can save lots of dollars as roof leaks easily damage walls and ceiling finishes, besides the structure behind the walls. Even though a manufacturer may rate a shingle for up to 30 years of life, different climate conditions may impact the realistic life expectations to more like 17 years. Additionally breaches created by vents, chimneys  and other protrusions typically are the source of the failures.

Assuming your roof was installed correctly, most of your problems will be associated with just normal wear. Contrary to common belief, it does not have to be leaking to find it. Most roof problems can be identified on a nice day, it doesn’t have to be raining or leaking to find the problem. In fact, it’s easier to find a leak on a nice day and the repair process will go more smoothly. If you have a roof leak and call a roof repairman in a panic, don’t be surprised he won’t show up until after it quits raining. Standing on the roof when it is wet or during a storm is not recommended and should be avoided. Most of my discussion on the subject will relate to asphalt/fiberglass type shingles which is about  95% of the market. However, most issues are generic and can apply to other roof products as well.

Some of these items can be viewed from the ground, but if you plan to do any of the minor repair, you will need to get on the roof anyway. Most people don’t call a roofer until they have a leak. For a minimal charge, a roofer can perform an inspection and  correct most problems in a single visit. Here are the most common roof problems to look for. 

  1. Tree Limbs on the Roof. If you find tree limbs hanging within about 5 feet of your roof, you may consider cutting them back. When the tree adds leaves in the spring or ice over in the winter, they can cause damage. If you find a limb that has been rubbing the shingles you may need to apply some roofing caulk to seal any potential leaks. Shingle replacement or using an asphalt based roof caulk can solve the problem.
  2. Debris on the Roof. Leaves and limbs can accumulate around the chimney, roof valleys and corners.  Leaving this material in-place can breakdown, cause bugs to accumulate and accelerate deterioration of the roof material.
  3. 100_0124Bathroom and Kitchen Drain Pipes. (a.k.a.)  Vent stacks. Look around the top edge where the lead sleeve is molded into the top of the pipe coming from the vent. Looking at this picture, you can see that squirrels have really abused this vent stack. They can easily chew holes in the stack causing rain water to drip down the side of the pipe inside the house. Most roofers will just replace the lead vent stack.  If they are as damaged as this one, that may be your best choice, however, you can add acrylic caulk (grey or clear) around the edges to fill this holes.  Also look for exposed nails that are used to secure the flange of the lead vent stack. Add a dab of the same caulk over these nails.
  4. Water Heater and HVAC Vents. These vents are typically aluminum, tin or stainless steel and will not have the squirrel problem but look for the nail holes and if there is a vent cap, ensure there is a good seal. Use foil tape (HVAC type tape used on ducting) to seal the two if necessary. TIP: Exercise caution around these vents as they can be hot due to exhaust heat from devices they are venting.
  5. Nails: Normally, most nails are intended to be concealed by other shingles. However there are some places where it is just unavoidable for them to be exposed. Where you find them, make sure there is a good dab of caulk covering them.
  6. Chimney’s. The chimney should have some form of cap or top to reduce the opportunity for water to drain down the inside of the chimney leaving water on the floor (like my house). Inspect the cap for a proper seal to the top of the chimney. If you don’t have one at all, contact a roofer or sheet metal shop. TIP: If you just need the cap, and plan to install it yourself, take the measurements and   find a sheet metal shop.  If you contact a roofer, they will typically use a sheet metal shop to construct the cap, charge you 10-20% mark up, plus installation.
  7. Skylights. Skylights can be a big source for water leaks. Having them installed at the same time as the roof seems to reduce the opportunity for leaks. Roofs are installed as a system, adding protrusions (skylights, vent’s, etc), after the fact creates a breach in the system and becomes a potential location for water to find its way into the house.
  8. Wall/Roof Joints: Look for good flashing (metal edge) where these two opposing surfaces meet. This would typically be where the roof edge butts against a second story wall.
  9. Wall/Chimney Locations. Much like #7, these two opposing surfaces provide an opportunity for water to force itself into the house. Look for a good seal here. TIP: Do not remove or pull back the shingles for inspection unless it is the location of a known leak. Roof systems can be fragile especially as they age. It’s not hard to cause additional damage.
  10. Roof Valleys: Another location where opposing surfaces meet, allowing water to converge. Much like #8, if you do not see anything obvious and you have no known leaks.. let it be.

If you do not know how old your roof is, here are a few additional items to look for that are signs of age and the roof may be near the end of life. If it’s not leaking, just keep a good eye on the items you can address.

  1. Loss of Asphalt Granules. By nature asphalt shingles will lose some of their exterior surface. The granules provide color and protection. You may see a  loss of granules in the valleys and near the edges or areas where there is regular water flow.
  2. Curling of the Shingle Tabs.This is an indication of age due to the roofing material drying out and losing its pliability.
  3. Chipped, Broken and Missing Shingles.  This is wear and tear that has occurred over 20 plus years. As the material becomes brittle, it is easy for it to chip and break.
  4. Raised Nails.  If you find nails surfacing, or popping up through the face of the shingle from underneath, this is a sign your roof  may be approaching its life expectancy.

Overall, avoid spending too much time walking around. Make your inspections and repairs and get off. Excessive activity can  cause problems as well.


Plumbing-City Water Meter

January 14, 2009

watermeter2The city provides a water meter  to determine how much to charge for water usage and also a place to turn the water off. The meter can also be used as a tool to recognize water leaks.  If your water bill dramatically changes and cannot be related to service work, changes in household routines, extra house guests or summer watering, the water meter should be the place to start to determine if there are any hidden water leaks.  Obviously, if you have any recognizable leaky faucets, fixtures or toilets, these leaks should be addressed.  $TIP$: Many municipalities charge related services (sewage, trash pickup) on the same bill, these charges can be relational to total water usage. If you have leaks you may be giving the city extra money due to a water leak. Look for the upcoming post on Chasing Water Leaks  for a leak isolation method.


Seasonal Reminder – Spring 2017

May 4, 2017

 

This seasonal reminder  provides a list of items you need to review before the summer months set in. If you need details on what to look for or what to do, click on the link (if there is one) and it will take you to the post that was written on the subject and provide more detail.

  1. Heating/Cooling-Air Filters: Assuming you have a forced air system, change the filter prior to the heavy air conditioning months.
  2. Roofing-Looking For Leaks:  Spring rains are approaching so inspect your roof for leaks, trim away any tree limbs and clean debris off the roof. Look for raised nails and any breaches in the roof surface.
  3. HVAC Outdoor Unit: Get your garden trimmers out and trim away any vines or growth away from the  outside condenser. You should have 18″ to 2 100_0233feet clearance around the unit. Also take your water hose and wash down the outside coils  that may have accumulated dirt. Check the condensation drain that comes from the air handler in the house. Ensure that it is clear of obstacles or debris by pouring water through it.
  4. Water Leaks: Check all water fixtures and toilets for leaks. Inspect fixture drains for water puddles or loose joints in the traps.
  5. Lawn Sprinklers: Exercise the system. Look for excessive water traveling down the driveway or sidewalks. Inspect the sprinkler heads, look for blow-by and odd spray patterns. Replace or repair the heads. If you need more help on this item, click the “lawn sprinklers” tab to see multiple subjects on locating lost heads, valves as well as tune-up recommendations.
  6. Exterior Inspection:  Walk around the house, look for rotted wood, peeling paint and other exposed surfaces. Use caulk to re-seal cracks and touch up paint to reseal the surfaces. Replace rotten wood as necessary.
  7. Interior Inspection: Winter dry-out will have caused some surface cracks around doorways and windows. Also  re-caulk/grout any cracks that may have surfaced in the bathroom and kitchen, especially around the tub and shower. These two areas experience the most use and require the most maintenance.  Replace or clean water filters, faucet strainers and vent-a-hood filters in the kitchen. Flush kitchen and bathroom sinks with scalding hot water for approximately 3-5 minutes.
  8. Water Heaters: Tank type water heaters should have their pressure release valve tested (opened and closed). This will also validate the drain pipe is clear and open.
  9. Gutters and Downspouts: Clean you gutters of leaves and debris. Flush them with water to ensure they flow freely.
  10. 100_0206Surface Water Drainage: Culverts, waterways, landscape drainage systems should be cleared of debris and overgrowth that may have occurred.
  11. Windows and doors: Look at the edges where the windows and doors connect to the house. Ensure the caulk is in good shape and add caulk as necessary, indoors and outdoors.
  12. Electrical Service: Inspect the Entrance, Mast and Weather-head. Look for any damage that may have occurred over the winter. Look for tree limbs that may be contacting the entrance cable.
  13. Electrical Service-Smoke Detectors: Clean your smoke detectors of cob webs and change the battery.
  14. Test your security system: Work with monitoring service to validate all the door, window, glass break, and motion sensors operate properly.
  15. Test Smoke Detectors:  It’s a good time to clean off the cob webs and change the battery.

If you are needing some additional information on one of the topics that I have not written about, let me know and I will put it higher on the list of articles to write.