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Water heater replacement: pros and cons of natural draft water heaters

I recently did a video blog post showing the process involved in replacing a water heater, wherein I helped my dad replace his old 50-gallon natural draft unit with a new one. I had a few people ask me why in the world my dad chose to go with the exact same natural draft water heater when he could have installed a powervent, direct vent, or tankless water heater.  That's a great question, and I think the answer deserves a blog post of its own. I'm going to do a three-part series, discussing three types of gas water heaters:

  • Natural draft: a traditional water heater with a draft hood. Relies on gravity to get the exhaust gas out of the home.
  • Powervent: has a fan on top that pushes the exhaust gas out of the home, typically through a PVC pipe out the side of the house.
  • Tankless: there's no tank. The water gets instantly heated as it passes through the water heater. All but the very oldest models of tankless water heaters will be "powervented" out the side of the house, but the term powervent is reserved for water heaters that have a tank.

Another term that you might hear is "direct vent". This refers to a water heater that is constructed and installed to obtain all of its combustion air directly from the outdoors, and discharges all of its flue gas directly to the outdoors. This is not a definitive term for a water heater because it could describe many different types.

Are natural draft water heaters bad?

I don't think they're bad, but most people in the building science community seem to dislike atmospherically vented appliances. Just check out Allison Bailes' post on the topic: 3 Problems with Atmospheric Combustion Inside the Building Envelope. Not only do atmospherically vented appliances use conditioned household air for combustion, but they also have an increased potential to backdraft. In the case of traditional water heaters, they simply rely on gravity to get the exhaust gas out of the home. Exhaust gas is lighter than the surrounding air, so it rises. Put a vent on top of the water heater, and we trust the exhaust gas to rise up the vent and leave the home without bothering us.

So what happens when you have a tight house and a bunch of other indoor fans running, such as a bath fan, a clothes dryer, and a kitchen hood fan? Every cubic foot of air that leaves the house needs to be replaced. When the fans are pulling a bunch of air out, a bunch of air needs to come back in. If the house isn't leaky enough or there isn't sufficient combustion air brought into the home, a building will be happy to suck air in through the water heater vent. After all, the vent is simply a hole to the outdoors. We trust that gravity will keep the air going out, but fans will win that battle every time. On an especially windy day, the wind can also overpower a gravity vent. When this happens, we call it backdrafting.

How dangerous is a backdrafting water heater, really?

Backdrafting is dangerous because exhaust gas contains carbon monoxide. While a properly operating water heater will produce extremely low levels of carbon monoxide, that's not always the case with a backdrafting water heater. When a water heater backdrafts, the combustion process changes, and the water heater may start generating high levels of carbon monoxide. For a simple demonstration, I did a test on my own water heater, venting under normal conditions. It produced about 2 parts per million of carbon monoxide, or 4 parts per million if you don't factor in the oxygen. That higher number is considered the "undiluted", "air-free" or "oxygen-free" reading.

Low CO at water heater

For the second part of my test, I blocked the vent at my water heater with some foil tape and fired it up. The CO level instantly skyrocketed. I took a photo of my meter with the CO level in the thousands, but the level quickly got into the tens of thousands before I shut my water heater off. To give that number some perspective, water heaters are supposed to be red-tagged and shut down when the oxygen-free level is over 400 parts per million. Once you're into the thousands, it's downright scary. That's why I didn't take the time to take another photo.

High CO at water heater

Side note: do you see the melted plastic at my water heater's draft hood in the photo above? This happened because the flue cap at the top of my vent fell apart, causing my water heater to backdraft on a couple of extremely windy days. I posted about this on the Structure Tech Facebook page last year: Reuben's damaged vent cap.

So how likely is it for a water heater to backdraft and produce high levels of CO? Not very. The draft hood is there so that if the water heater does start backdrafting for one reason or another, it will probably just spill low levels of carbon monoxide into the room. Nevertheless, backdrafting is unacceptable and unsafe and should be corrected immediately. According to CPSC statistics, there is an average of five deaths per year associated with carbon monoxide poisoning from water heaters, so this is a 'thing'.

How to increase safety

The best way to minimize any safety issues associated with backdrafting at a water heater is to not have a water heater that could backdraft. That means no reliance on gravity to get the exhaust gas out of the building. The most popular way of doing this is to install a powervent unit, which uses a fan to force the exhaust gas out through its own dedicated vent. I'll discuss other options in another blog post, but for now, let's take a look at the positive aspects of a natural draft water heater.

Benefits

  • No electricity: Natural draft water heaters don't use any electricity. If the power goes out, you still get hot water.
  • Quiet: Natural draft water heaters are nearly silent. You can usually hear a little "whoosh" when they first ignite, but that's all.
  • Inexpensive: Natural draft water heaters are nearly half the price of powervent water heaters, which have become the standard replacement for natural draft water heaters. Besides the additional cost of the water heater itself, switching over from a natural draft water heater to a powervent means that new venting needs to be installed. New venting equates to a far more involved project, which of course equates to a far higher price tag; typically around 75% - 100% more money. Again, I'll discuss powervent water heaters in next week's blog post.
  • Reliable: Natural draft water heaters don't have any moving parts, other than the gas valve. Less moving parts means less opportunity for stuff to go wrong.

When making a safety decision, you weigh the risks against the added costs. For me, the added risk of installing a natural draft water heater isn't enough to justify the alternative, which is the additional cost of a powervent water heater. For anyone who isn't willing to accept that risk, you'll need to use something other than a natural draft water heater.

Author: Reuben SaltzmanStructure Tech Home Inspections

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FLIR E6: the best infrared camera for home inspectors

I've been using the same infrared camera, the FLIR E6, for the past three years. Today, it's still my infrared camera of choice as a home inspector. I'm basing my decision on a combination of price and performance, which equates to value. I've mentioned this camera several times in past blog posts (Seek Thermal reviewFLIR ONE reviewInfrared cameras and home inspections) but I've never taken the time to explain why this one has become the camera of choice for me and so many other home inspectors. Here goes.

Size, shape, and feel

The E6 has a handle and a trigger, making for easy one-handed operation that feels natural.  While it's not small enough to slip into a shirt pocket, that's no concern of mine. When I inspect houses, I wear a tool belt. I don't expect my tools to fit into shirt pockets. If an infrared camera were shaped like a traditional camera with some nice curves to wrap my fingers around, I'd go for that style, but there is currently nothing like that available today.

IR Camera Grip

Field of view

The E6 has a 45º x 34º field of view, which is great for being able to scan large areas at one time.  The images below show comparisons between the E6 and FLIR i7.

FOV Comparison

Built-in camera, simultaneous images

The E6 comes with a built-in optical camera that gives it the ability to take optical images at the same time that IR images are taken, with the angle and perspectives always being identical. I absolutely love this feature. Before this camera, I'd always hold my regular camera right up next to my IR camera while taking pictures because I wanted the angles to be exactly the same. With the E6, I don't need to mess with that anymore.

MSX imaging

This feature blends all of the high-contrast lines from images taken with the actual camera into the IR image, making everything seem to really 'pop'. While this doesn't make the infrared camera any more accurate, it does make it much easier to understand what you're looking at, which has enormous value. I don't think I'd ever go back to a camera that doesn't have this feature. The image below shows a comparison of the same image with and without MSX turned on. I don't think I need to say which is which.

E6 MSX on and off

Resolution

The resolution of an infrared camera is definitely not the end-all be-all, as I discovered while testing the Seek Thermal infrared camera. The Seek camera has a higher resolution than the E6, but the images produced by that camera were inferior to those created by the FLIR E6.

Seek-vs-E6-Basement

The RESNET standard for infrared cameras says that the minimum allowable resolution is 120x120. That standard doesn't apply to home inspections, but just in case I ever wanted to venture into the energy audit side of business, I decided to use 120x120 as a minimum standard for all of my infrared cameras, and the E6 meets it.

Durability

This camera is designed to survive falls from over six feet (they say 2m) and keep working. I've dropped mine a number of times with no ill effects. I've had the same E6 camera for just over three years now and it still works. This is definitely one tough camera. After about two years my battery quit holding a charge, so I called FLIR and they sent me a new one for no charge. I couldn't ask for much more.

Price

The E6 retails for $2,495.

Other cameras

There are other more expensive cameras available, many of which have higher resolution, wifi connectivity, and the ability to record videos, but I haven't had a need for any of those things. The one other camera in this same line of cameras with a higher resolution is the E8, boasting a resolution of 320x240. I tried an E8 alongside my E6 for about a week, and concluded that there wasn't enough of a difference between the two cameras to justify a higher price tag of $3,995. The images below show side-by-side images taken with an E6 and an E8. To help make my point, I won't say which is which.

FLIR E6 vs. E8 Deer in the woods

FLIR E6 vs. E8 Deer in woods - two of them

FLIR E6 vs. E8 House Exterior - base of masonry veneer wall

FLIR E6 vs. E8 House exterior 1

FLIR E6 vs. E8 house exterior 2

FLIR E6 vs. E8 House exterior 4

FLIR E6 vs. E8 house exterior 5

FLIR E6 vs. E8 Reuben's basement

FLIR E6 vs. E8 weight set

FLIR E6 vs. E8 Reuben in mirror

You may notice that the temperatures aren't the same between the two cameras in the images above, and that's because the sensor is off on my older E6. The good news is that this doesn't have much effect because I don't use my camera to take measurements. I use it to find thermal anomalies that might indicate a problem.

For someone in the market for an infrared camera, especially a home inspector, I believe the E6 is usually the best choice.

Author: Reuben SaltzmanStructure Tech Home Inspections

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