Rain Water Management – Part 3

Minimizing and Managing Potential Basement Water Problems

Rain Water Management – Part 3

By Frank J. Delle Donne, Licensed Home Inspector

May 29, 2018

Introduction

In September, 2014 I was inspired to write Part 1 because of what I had observed in my inspections and a call that I received from a client. In December, 2014 I wrote Part 2 because on October 18, 2014 and November 8, 2014 I performed two inspections that I was reminded of prior to writing Part 2.

This past, Memorial Day weekend, if you were in central New Jersey you know how hard it rained on Sunday, May 27. The link below confirms that in the town where I live, over 4 inches of rain fell.

https://forecast.weather.gov/product.php?site=NWS&issuedby=PHI&product=PNS&format=ci&version=1&glossary=1

Based on the amount of water in a couple of buckets I had in my yard, I think the 4+ official inches in this link is low. Regardless, let’s use the official number and do the math.  Why am I now writing this?  Because over the past couple of days I received a text and a call from home inspection clients saying that they had water in the basement after this weekend’s rains. The lessons and recommendations in the previous parts of this series of articles remains the same. Keep rain water away from your house; Maintain your gutters and downspouts. Have downspout extensions as far from the house as possible. Make sure the soil and pavements slope away from the house. I also recommend maintaining any sump pumps and have battery back up for the sump pumps too.

How much water is in 4.72 inches of rain?  For this example we’ll assume a 40 foot by 60 foot house. That’s 2400 square feet of surface area. After the math is done, just coming off the roof is over 7000 gallons of water! If we add in a five foot apron around the house, that’s another 2943 gallons making the total amount of water from this one day’s rain was over 10,000 gallons deposited close to the house.

The consequences of epic rainfalls like this can’t be determined during the course of a 2 – 3 hour home inspection.

Keep your gutters clean and maintain your gutters and downspouts.

Make sure the soil and pavement are sloped away from the house.

Maintain your sump pump systems.

 

 

 

Minimizing Basement Water Problems

Minimizing and Managing Potential Basement Water Problems

Rain Water Management – Part 2

By Frank J. Delle Donne, Licensed Home Inspector

December 15, 2014

For most people, purchasing a house is the largest purchase they have thus far made. Help ensure that you, “Buy with confidence. Sell with pride” ® by using Regal Home Inspections, LLC.

Introduction

Back in September I was inspired to write Part 1 because of what I had observed in my inspections and a call that I received from a client. I am now inspired to write Part 2 for almost the same reasons.

On October 18th and November 8th I performed two inspections that I was reminded of last week. Both sales closed last week coincidentally, December 9th and December 11th to be exact. One was a town house and one was a single family home. The townhome was built in 1996 and the single family home was built in 1935.

From a home inspection and maintenance recommendations point of view both houses had damaged or substandard rain water management (piping) systems. Specifically there were issues with one or more of the following; Gutters, downspouts or the downspout extensions. Properly installed and maintained gutters, downspouts and downspout extensions are fundamental to keeping basements dry. Of course a chronically wet basement can decrease the value of a house, damage property and belongings as it becomes flooded and potentially be a health hazard if the chronic moisture feeds the growth of mold.

So with the title of this article, the introduction thus far and the following detail one can probably guess where this is headed. If you recall, the New Jersey area had a nor’easter storm on 12/9/14. According to the National Weather Service Philadelphia/Mount Holly Bureau, Southern NJ received approximately 2.5 inches of rain as of 7pm on Tuesday, December 9, 2014. What I’d like to do is translate that amount of rainfall into water volume and then demonstrate how potentially destructive that water can be if the gutters, downspouts and downspout extensions are not designed, built and MAINTATINED properly.

The Inspections and Findings

During the inspections for both of these houses, and of course in the written report, the topic of rain water management was discussed and documented because there was damage or substandard conditions to the gutters, downspouts or the downspout extensions. For one house, there wasn’t any downspout extension and therefore all the rain water coming off the roof was being deposited right up against the basement wall. For the other house it was a little more interesting. First, the 1935 house apparently was built without any gutters. I specifically asked the seller and he stated that when he bought the house it didn’t have gutters and the open soffit design of the roof/eave area would support the idea that gutters were not part of the original house design. On the 1935 house there was also a flat section of roof and that area drained to one downspout connection that was about 10 inches long (Photo 3) and in need of repair and redesign. In the report for the 1935 house it was even pointed out how the cascading water from the 10 inch, insufficient downspout was, “eroding” the ground directly below (Photo 2). Both clients were closing last week. The clients buying the 1935 house were having their pre-closing final walk through during the rain event on December 9th. The other was having their pre-closing walk through on Thursday, December 11th. Both clients called (on the 9th and 11th respectively) because they noticed wet basements in their final walk through. We reviewed the inspection’s findings and the report’s recommendations, photos, conditions found during the inspections and the recommendations to repair or add gutters, downspouts or downspout extensions as each situation required.  Noting too that poor gutter, downspout and downspout extension maintenance could lead to water in the basement.

I’d like to show you each finding individually and in the next section of this article, put the findings into different terms so that the potential water volume accumulation of a damaged or substandard rain water management system on a home can be better understood.

One situation (Photo 1) was simply in need of a downspout extension (and maybe some soil grading). As noted in Part 1 of this article series, it would be great to extend the rain water drainage (downspout extension) to a minimum of 6 feet away from the foundation wall. The further the better.

DSCF9303
Photo 1 – Downspout extension and proper soil grading required.

The other situation not only requires gutters but looking at the flat roof section of the house only, a proper downspout and downspout extension are required.  The PVC pipe that fell off is significantly heavier than regular downspout material and over time gravity will cause the heavy PVC pipe to fall off. The lower part of the PVC pipe that was used as a downspout is seen in the photo below.  The drain connection is in the next photo, Photo 3.

DSCF7822
Photo 2 – Eroded soil and inappropriate downspout and no extension.
DSCF7815
Photo 3 – Only pipe draining from flat roof section.

 

Setting up the Formulas

How much water might actually be dumped next to the foundation in each situation knowing that some of it will work its way back into the basement?

1935 House – The flat roof section of this house is approximately 12’ by 20’. Additionally the pitched roof section of the house, with no gutters or rain water management at all is approximately 30’ by 40’. The pitched roof section is a gable design so one half is sloped to the front and the other half is sloped to the back. Overall, this 1935 house covers approximately 1400 square feet of property.

1996 house – This is a center unit townhome and this particular house is approximately 18’ wide by approximately 30’ deep. This house covers 540 square feet of property. There were two downspouts in the front so in my calculations I will apply the theory that half the water flows to the front and half of that goes to the left downspout and half to the right downspout that is seen in Photo 1. So each one of the 2 downspouts in the front of this house manages the rain water from approximately 135 square feet of area. 270 square feet in total for the front half of the house.

Let’s do the Math Using the 12/9/14 Rainfall Statistics

1935 house. The flat roof is approximately 240 square feet. I actually convert everything to square and cubic inches to do the math but the bottom line is that in a 2.5 inch rain event, that would equate to 50 cubic feet of water landing on the flat roof. That is equivalent to 374 gallons of water that was collected on the flat roof and then deposited in one day at the corner of the basement in the 1935 house where the damaged downspout is located.

DSCF7822
Approximately 374 gallons of water were dumped in this spot on 12/9/14.

On December 9th, with the 2.5 inch rain event, the 1935 house’s pitched or sloped roof shed a total of 1870 gallons of water. Half was shed to the front next to the foundation wall and half was dumped in the back next to the foundation wall. That’s over 2200 gallons of water that was dumped immediately next to the foundation wall of that 80 year old house because of damaged and/or substandard rain water management. Is it any wonder why some water made its way into the basement? The solution here (as stated in the report) is to A) Fix the downspout and add a properly sized extension and B) Add gutters, downspouts and extensions to the rest of the house. Proper soil grading is also a good option.

For the 1996 house it’s not as dramatic but it helps demonstrate the need for properly functioning gutters, downspouts and downspout extensions. When we convert 135 square feet of roof surface area into gallons for a 2.5 inch rainfall event this equals slightly over 210 gallons of water deposited at the spot in this photo. And yes, if you pour that much water so close to the basement wall, some water will make its way back into the basement.

DSCF9303
Approximately 210+ gallons of water was deposited on the dirt in this photo from 2.5 inches of rain on 12/9/14.

Soil grading is also important. If the soil is flat immediately next to the house, as it appears in the photo here, in a 2.5 inch rain event, each square foot of soil will have 1.7 gallons of rain fall in that 1 square foot area. Let’s apply these facts to the 1935 house. The 1935 house has approximately 164 linear feet of foundation at the perimeter. Roughly, if you consider a 3 foot wide apron of soil around the perimeter, that’s a 492 square foot apron of soil. Of course, any rain fall will land on this apron of soil. In the 2.5 inch rainfall event and my calculation that each square foot of soil will have 1.7 gallons land on it during this event, we’re looking at another 836 gallons of water that lands within 3 feet of the foundation wall! And other than proper soil grading, to pitch the dirt so the water runs away from the foundation, there’s not too much we can do about this.

If we add it all together, this 1935 house had over 3000 gallons of water dumped within 3 feet of the foundation wall in one rain event on 12/9/14. YES, some of that water will make its way back into the basement.

Conclusion (Same as those in Part 1 of this series)

To reduce the potential for water to enter your basement, please remember these suggestions:

  1. Make sure your gutters and downspouts are properly maintained and are clear of debris.
  2. Make sure your downspout extensions are sloped properly and at least SIX feet long.
  3. Make sure the overall grading of the land around the entire house is graded so that any surface water is likely to flow away from the house, not toward the house.

Doing these things will help promote a drier basement.

I would appreciate your comments about this article. Please email your comments to frank07722@gmail.com

About the author. I am a NJ Licensed Home Inspector. I am the owner and Inspector at Regal Home Inspections, LLC. In addition to being a New Jersey Licensed Home Inspector I am also a NJ-DEP certified Radon Measurement Technician and Regal Home Inspections, LLC has also collected samples for lead paint, allergens and mold. We are affiliated with the best labs that perform the sample evaluation and testing. We can also help facilitate the testing of septic system and numerous aspects of oil tank evaluations. This includes oil tank integrity testing, tank locate services and soil samples. We work to ensure that the house you’re buying is sound or that you know of any issues.

 

Minimizing and Managing Potential Basement Water Problems

Minimizing and Managing Potential Basement Water Problems.

Managing the Sources – Part 1

By Frank J. Delle Donne, Licensed Home Inspector

September 9, 2014

For most people, purchasing a house is the largest purchase they have thus far made. Help ensure that you, “Buy with confidence. Sell with pride” ® by using Regal Home Inspections, LLC.

Introduction

As I began writing this article my phone rang and a gentleman from a prior inspection asked about repairing some downspouts that weren’t functioning properly. As a result the rain water coming off the roof was being dumped too close to the foundation of the house and this gentleman needed it to be repaired as recommended in the inspection report. As I learned in my home inspection training, approximately 90% of water that ends up in the basement comes from the surface of the ground. Not from a high water table or underground springs. Therefore if you can manage and maintain the gutters, downspouts and down spout extensions you can significantly reduce the potential for water from getting into your basement.

Sub Soil Water Management

New homes with basements are constructed with a set of perforated pipes around the perimeter of the foundation close to the footing. The footing is the portion of the foundation wall upon which the wall, and the rest of the house, stands. It is made of concrete and is wider than the foundation wall and is well below the frost line. The footing provides the house with its base making contact with the soil below.

The perimeter drain is a pipe that sits very close to the footing and is routed around the foundation and is connected to the sump pit in the basement. The purpose of this perimeter pipe is to relieve the hydraulic pressure that may be created from high amounts of ground water. Instead of the ground water applying pressure to the foundation wall and perhaps seeping into the basement, the components (perimeter pipe, sump pit and associated sump pump) gives the water a place to go, be collected (in the pit) and discharged (via the sump pump) BEFORE it enters the interior of the basement.

This is a good way to manage the water once it seeps against the foundation wall and toward the footing/drain pipe/sump pit area but it would be better water management if we could keep the water away from ever getting that close. And to help accomplish that we will look at gutters, downspouts and the important downspout extensions.

Tools of Managing Rain Water

The tools to manage rain water include the collection of the water as it is repelled by the roof shingles and into your gutters. Gutters should be properly secured, of course, and properly sloped so that the water is drawn, by gravity, to the lower parts where the downspouts should be connected. Occasionally I inspect a house where the gutters are not slopped properly and water can remain sitting in the gutters with only evaporation as a way for it to go away.

Gutters should also be properly sized. If it’s an estate home, gutters with wider openings may be necessary to handle the large volumes of water that may come off the roof. If a gutter is undersized or if there is a clog preventing the water to flow to and through the downspout, the gutter will overflow. An overflowing gutter or a damaged gutter/downspout system can both lead to too much water being too close to the house.

The downspouts should be secured with screws to the gutter and each downspout section should also be attached with screws. Simply relying on the friction fit of one downspout section connected with another is not sufficient to keep the connection intact for a long time.

DSCF4425
Splash block too close to the house.

Downspouts often deposit the water onto a “splash block”. A splash block may be made of concrete or of a plastic material. While one purpose of the splash block it to disperse the water a more important function is to direct the water away from the foundation. However, splash blocks are usually 2 feet long and therefore the water run off is landing on the ground only 2 feet from the foundation wall and that’s too close.

DSCF4069
Downspout is to the right. Notice the left is higher. The water will not climb uphill!

So to get the water further away we can use downspout extensions. Downspout extensions may be rigid metal just like the downspouts themselves or they may be flexible, corrugated plastic. No matter the material, good connections and proper slopes and distances are the key. According to The Home Reference Book by Carson & Dunlap, the downspout extensions should effectively deposit the water at least 6 feet from the house. This will help ensure that the water, once it hits the ground, will probably not seep back into the basement. A longer distance is even better. Additionally the grading of the soil around the entire perimeter of the house should slope down at least 6 inches for the first 6 – 10 feet of horizontal distance. This will help ensure that any groundwater will be channeled away from the house.

Conclusion

To reduce the potential for water to enter your basement, please remember these suggestions:

  1. Make sure your gutters and downspouts are properly maintained and are clear of debris.
  2. Make sure your downspout extensions are sloped properly and at least SIX feet long.
  3. Make sure the overall grading of the land around the entire house is slopped so that any surface water is likely to flow away from the house, not toward the house.

Doing these things will help promote a drier basement.

Make sure that when you hire an inspector you hire someone with the experience of Regal Home Inspections, LLC. My mother is 85 years old and when I do an inspection for an older client I approach it as though I was doing the inspection for my mother. Similarly, I have done inspections for young ladies and when I do I approach it as though I was doing the inspection for my 23 year old daughter. I take a personal interest in my occupation and all of my clients. It’s not just a job.

I would appreciate your comments about this article. Please email your comments to frank07722@gmail.com

About the author. I am a NJ Licensed Home Inspector. I am the owner and Inspector at Regal Home Inspections, LLC. In addition to being a New Jersey Licensed Home Inspector I am also a NJ-DEP certified Radon Measurement Technician and Regal Home Inspections, LLC has also collected samples for lead paint, allergens and mold. We are affiliated with the state’s best labs that perform the sample evaluation and testing. We can also help facilitate the testing of septic system and numerous aspects of oil tank evaluations. This includes oil tank integrity testing, tank locate services and soil samples. We work to ensure that the house you’re buying is sound or that you know of any issues.