TIL this definition.
August 07, 2018
January 17, 2018
Something Old/Something New: Residential Forced-Air Ducted Heating and Cooling
Something Old
Gravity heating systems (air) and hydronic heating (water/steam) dominated single and multi-family dwellings through the depression. Due in large part to rampant tuberculosis and the need to provide occupants fresh air, many late 19th and early 20th-century boiler systems were sized to heat a dwelling in winter with an open window! Forced-air ducted heating systems only came into their own around the middle of the 20th century.
Forced air ducted HVAC's dominance in the United States resulted from many things including cost, convenience, versatility, and climate. In its simplest form, a forced-air ducted system utilizes a mechanical fan to push heated air through a series of channels (ducts). That's it. ...pretty simple, eh?
HVAC contractors ply their trade to put food on the table, a roof over their head, and clothes on their back. And, as with many contractors providing residential construction services, profit margins are slim. So contractors are always looking for ways to keep costs down. Forced air, ducted HVAC systems have remained popular largely because of cost. Relatively speaking, they are cheaper, simpler systems. They don't cost as much to install or repair. Statistically, they last around 20 years. Basic forced air ducted HVAC systems are (again, relatively speaking), a cost-effective, time-proven and generally safe means of heating and cooling a home.
Efficiency
Unless you've been living under a rock for the last half-century, you're aware of ongoing efforts to reduce our consumption of fossil fuels. The majority of residential heating systems use fossil fuels (natural gas, heating oil) as their primary fuel source. What you may not realize is most, if not all ducted forced-air HVAC systems also require electricity to function. More than half of the electricity we use today (65%) is generated by burning fossil fuels, including coal. So, by improving the efficiency of how HVAC systems use both electricity and fossil fuels, we reduce their rate of consumption and make our world a better place. This is a simple and noble concept. ...right?
Well, kinda.
I've been doing a lot of studying about Indoor Environment Comfort (IEC) and HVAC systems. For those that don't know, the acronym stands for Heating, Ventilation, Air-Conditioning. I'm hoping my learning experience will help others. Bare with me as this will be a multi-part blog. There's so much information and history, a single blog post would be TLDR.
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| A Gravity Boiler |
First, some facts and a bit of history.
If you live in the United States, there's a 70% chance your home is being heated by a forced-air, ducted furnace. Today’s heating systems are based on ideas and designs that date back hundreds, if not thousands of years. Forced-air ducted heating has been around since about 1935, It has long been the 'go-to' system for most residential HVAC contractors.
Before that, all sorts of things were used to heat homes. Wood and coal-burning fireplaces, cast iron stoves, coal-fired hot water and steam boilers. The latter, until the early 20th century, had a nagging tendency to explode with great force and consequence. Here's a link to a big one. (Grover Shoe Factory Disaster) These episodes became so commonplace they were relegated to the 3rd-page news.
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| Octopus Gravity Air Furnace |
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| The Basic Forced-Air Ducted Heating System |
The next logical step was cooling or 'air conditioning'. Central air-conditioning became popular in the US during the post-World War II economic boom. Now ubiquitous, the advent of central air-conditioning fundamentally changed where we live. Imagine how much fun Miami, Orlando, New Orleans or Biloxi would be without it. The U.S. population's migration to Southern states like Florida, Texas, Mississippi, Louisiana, etc, is largely attributed to the development and widespread adoption of air-conditioning. Since 2000, 95% of homes built in the United States have central air conditioning.
Convenience and Versatility
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| A Forced Air System with Air-Conditioning |
Add a condensing unit (the outside part) and an evaporator coil (the inside part) and we have central air-conditioning. This is pretty much the way most homes in the United States have been heated and cooled since the postwar economic boom.
CostHVAC contractors ply their trade to put food on the table, a roof over their head, and clothes on their back. And, as with many contractors providing residential construction services, profit margins are slim. So contractors are always looking for ways to keep costs down. Forced air, ducted HVAC systems have remained popular largely because of cost. Relatively speaking, they are cheaper, simpler systems. They don't cost as much to install or repair. Statistically, they last around 20 years. Basic forced air ducted HVAC systems are (again, relatively speaking), a cost-effective, time-proven and generally safe means of heating and cooling a home.
Efficiency
Unless you've been living under a rock for the last half-century, you're aware of ongoing efforts to reduce our consumption of fossil fuels. The majority of residential heating systems use fossil fuels (natural gas, heating oil) as their primary fuel source. What you may not realize is most, if not all ducted forced-air HVAC systems also require electricity to function. More than half of the electricity we use today (65%) is generated by burning fossil fuels, including coal. So, by improving the efficiency of how HVAC systems use both electricity and fossil fuels, we reduce their rate of consumption and make our world a better place. This is a simple and noble concept. ...right?
Well, kinda.
The research, development, implementation, design, and installation of more efficient HVAC systems increase their cost. When you're a builder, this can be a hard sell. When you are replacing someone's old HVAC system, this can be a hard sell. In fact, getting anyone to spend more money on something they rarely worry about is a usually hard sell. The typical HVAC contractor will try to sell a lower cost system because it's an easier sell. So, unless you know the right questions to ask or have done your due diligence, you won't know that heating and cooling your home represents roughly 40% of your energy use. And, with modern high-efficiency systems (more upfront cost) you can reduce your energy consumption, save money, reduce your carbon footprint and make this world a little better place. It's up to you as part of the teeming masses, to educate yourself and recognize your responsibility to "leave it better than you found it". (Who said that? Click on this link!)
Something New
Major changes in system design and efficiency have taken place only within the past 25 years. ...some of the more profound improvements have occurred only within the past 10. Many of these improvements are a result of better construction techniques and a tighter building envelope.
A house has a shell. This shell (or building envelope) has always had a problem. They leak air. ...lots of little holes. Most anything built in the past 100 years has lots of these little holes in their shell. Air gets sucked in through these holes. Air gets blown out through these holes. Add the little holes up and you have a great big air-leaking hole. The air blown out this big hole is 'expensive' air. ...made so by mechanically heating or cooling it with your home's HVAC equipment. In part to reduce the loss of expensive air, modern construction methods have created a tighter building envelope. That's great news, yes?
Well, kinda.
A house has a shell. This shell (or building envelope) has always had a problem. They leak air. ...lots of little holes. Most anything built in the past 100 years has lots of these little holes in their shell. Air gets sucked in through these holes. Air gets blown out through these holes. Add the little holes up and you have a great big air-leaking hole. The air blown out this big hole is 'expensive' air. ...made so by mechanically heating or cooling it with your home's HVAC equipment. In part to reduce the loss of expensive air, modern construction methods have created a tighter building envelope. That's great news, yes?
Well, kinda.
Keep reading! Visit our website: www.inspectingchicago.com. Feel free to contact me at ken@inspectingchicago.com with questions, critiques or if you're considering a home inspection.
We're happy to help. - Ken
We're happy to help. - Ken
January 03, 2018
LED Lighting
In the past few decades, humanity has searched for better, safer and renewable energy sources to supplant our dependence on fossil fuels. And, while there have been significant improvements and discoveries with respect to renewable energy sources, we are still sorely dependent on fossil fuels to make sure the light turns on when we flip that switch. Being both a consumer of electricity and a human with choices, I believe it is my responsibility to reduce my ecological footprint.
Today I stumbled upon this paragraph from https://energy.gov/energysaver/led-lighting:
"Widespread use of LED light has the greatest potential impact on energy savings in the United States. By 2027, widespread use of LEDs could save about 348 TWh (compared to no LED use) of electricity: This is the equivalent annual electrical output of 44 large electric power plants (1000 megawatts each), and a total savings of more than $30 billion at today's electricity prices."
Now I tried this. A few of years ago, in an effort to reduce my electric bill and energy use, I purchased a few LED lamps as replacements for my regular incandescent bulbs. The LEDs were ridiculously expensive (around $35 each!). And to say I was unimpressed at their harsh color temperature and marginal illuminance is an understatement. I ended up using compact fluorescent lamps in their stead.
Let's jump forward a few years. Manufacturers have developed LED lamps in a wide variety of color temperatures. New LED lamps are now less expensive (as low as $6) and available in a variety of temperatures ranging from 'cool' white light, which is ideal for task lighting, and 'warm' light commonly used for accent or small area lighting.
Now granted, $6 for an LED lamp still is a far cry from $.89 one would spend on an incandescent bulb. The thing is, LED lamps use far less energy than the equivalent incandescent and can last 20 to 150 times* longer! You read that right. This is where you realize the savings in both energy use and maintenance costs.
Also available are "smart" lamps. The color temperature of a smart LED lamp is tunable. That is, you can adjust the color temperature depending on where the lamp is being used. For example, you can tune a smart lamp to a warm color temperature for accent lighting or tune it to a brighter white color for task lighting or reading. This is typically accomplished via a smartphone app. Multiple manufacturers have developed smart lighting systems, giving you the ability to adjust the color temperature of multiple lamps within your home.
A well-written review of some of the available residential smart lighting systems can be found The Verge. ...a good read if you're considering a smart lighting system.
I believe a relatively painless way of reducing one's energy use and ecological footprint is by replacing incandescent lamps with LEDs.
And for any supergeeks, here is "Light from Crystals", a Youtube video by the world player LED manufacturer Osram Opto Semiconductor ...very cool.
Kenny Whitelaw/Domicile Consulting
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