Let me preface this by saying most professionals in the trades (inclusive of home inspectors, building inspectors, consultants) are not chemists, physicists, or molecular specialists. If you don’t get the concepts herein, or I fail to enumerate their conditions properly, that’s okay. There’s a world of chemistry out there that needs and requires specialists – we don’t need to be them; I just want to expose more of us to very basic premises that can and should help decision making when designing, building, or inspecting structures.

In the physical world, where materials are felt and cut and manipulated, it’s hard to pay attention to what is right there but not readily visible – namely, gases and chemistry. So, this is a walk-through (for me, as well) to create awareness of how a solid, liquid, or gas responds to another solid, liquid, or gas related to material performance.

Perhaps the most accessible and best starting example would be liquid and tape flashings. In modern construction, we have become very reliant on liquid and tape flashing for helping to limit air and moisture (and pest) infiltration into our structures (because, don’t forget, our aim is to control the inside and keep the outside out when it comes to building a structure). Well, not all builders/trades professionals are on this bus yet; but, each year the ranks do appear to be increasing.

When a liquid or flashing tape is used, it relies on a chemical bonding of materials – adsorption; this is one of our key terms. Adsorption is the accrual of atoms, ions, and molecules on another surface in a bonding method. When liquid flashing is applied, the chemical concoction adheres to the surface of the other material. The liquid flashing does not fully penetrate or incorporate into the other material, but bonds at the surfaces. This is adsorption for building materials. The other really important take-away relates to too much of the adsorbate – the liquid flashing – being applied to the absorbent – the other material to which it is adhering: There is a finite layering that can be productive before the liquid flashing stops its intended adhering. Basically, you don’t have to apply (nor would it perform properly) three inches of liquid flashing along the sill/sheathing joint of a wall/foundation assembly.

If we look at flashing tape and adsorption, the same premise applies but a bit differently. You know how you may have heard, “You have to roll the tape,” by flashing tape manufacturers? Well, that’s because the rolling of the tape creates a sorption process whereby the chemicals of the adhesives in the tape “wet” into the tiny pores of the material to which it is adhering. In other words, the mechanical process of physically (think energy usage) wetting the tape by rolling helps to induce the adsorption of the adhesive onto the material at hand – wood, concrete, etc. The tape’s adhesive does not penetrate into the surface, but bonds at the teeny-tiny level to create the “long-term sticking.” This is the same thing that happens when activated charcoal filters your water.

Now, perhaps you do a lot of reading and listening and have heard the on-going rumblings of those nay-sayers that are afeared of failure when relying on liquid or tape flashing. Chemically speaking, this would be desorption; for adsorption and surface bonding, it is the premise that what adheres can also come loose (with an investment of energy). Technically, this is an accurate fear; on-going testing of tapes and liquid flashings continue to help determine long-term chemical bonds and what sort of stressors (think energies) can break those bonds and cause failure in flashing-related protections which could lead to water infiltration and unhealthy issues developing in a structure. This is why the manufacturer’s literature is so vital – the manufacturer literally tells you what you can use their product with and how it must be used and when it will fail. If you don’t follow the recipe, don’t be surprised when your crepe eats like a pancake. As both a home performance consultant, and a licensed home inspector, I cannot begin to extol the merits of reading all that tiny print. That’s my soap box.

The other key term I intended to confuse and befuddle you regarding is absorption. If adsorption is surface adherence, then absorption is full-on “I’m going to gobble you up and put you in my belly.” Think, alligator and a doe at the water’s edge. The doe goes in the alligator, not onto the alligator. A very crude metaphor, yes, but one that helps to express the point – the deer doesn’t adsorb to the alligator’s skin, although that would be interesting. Absorption is the process by which one material is fully incorporated within another, sometimes temporarily and sometimes permanently.

For building science and trades, think of moisture in a wall assembly, or in a floor assembly for those of us accustomed to wet crawlspaces. Unlike caulk, which only adheres (adsorption) to a surface, water can absorb into a material – wood or concrete, for example. Ever seen composite cement fiber board improperly installed and exposed to water? The rate is not fast, but absorption eventually reaches a point of equilibrium/saturation (a max concentration of sorts) that the material was never intended to manage and the related energies and stressors exert so much antagonism on the material that it starts to flake apart in these thin layers. That process starts with absorption and is one of the reasons why wood and cement-based composites are intended to be primed and sealed and separated from ground and roof surfaces (well, we have to introduce capillary action in here to really explain it properly…we haven’t enough word space remaining in this article).

Another ready example would be manufactured adhered stone veneer (a cement product) or brick veneer – both claddings (unless painted/sealed) readily absorb moisture from their exposed surfaces. The veneers will continue to absorb moisture until they reach an equilibrium. Then, either it stays (if it is raining) in the material, or it may begin to exit the material in the direction of less water. If the wind is driving the rain to the brick from the exterior, water may leave the brick on the interior side that faces away from the rain (more to less). And what’s on this side of the brick? The wall assembly. If this assembly lacks proper configurations to manage bulk water, the water may then begin both the adsorption (weather resistive barrier) and absorption (wall sheathing) processes all over again. We all know what water does in wall assemblies, right? Right.

To further convolute, solar drive is an energetic process whereby the sun’s radiant heat physically forces the water onward/inward, which can have detrimental consequences for a wall’s performance. But, solar drive is not absorption. I am no chemist, but I suspect it is a variant of desorption since energy and heat are involved in altering the chemical relationships and driving one material out from within the other.

Please, don’t take my word on any of this. Check with your local, friendly, neighborhood professional chemist. We all have those, right? Remember, you don’t have to be a chemist and you don’t need to be able to write a dissertation on any of this. What you should be able to do is have an inkling of an idea how this stuff works so you can make informed choices as a professional, so you can properly cite deficiencies or discovered issues, and so you can proficiently communicate to the client/consumer thereby being respectful of their time and money.

Where does water go when it dries? This sounds like a replacement line for Nirvana’s cover-song “Lake of Fire,” originally written by the Meat Puppets (who knew…). But seriously, where does it go?

As home inspectors, building consultants, homeowners, trades professionals, we all have this magical understanding related to things drying. But, what really happens when something dries and how might it be important to our understandings of our modern-day huts? Strap on the old thinking cap because we’re on a reading rainbow journey!

Let’s take drying clothes as an achievable example: We pull the clothes from the washing machine and hang the delicates to dry. How is this happening? We feel the clothes wet when they come out of the washing machine drum, so we tangibly know the water is there. But, then we hang them and poof, the water isn’t there…but also isn’t anywhere else we can see. Evaporation.

Okay, so maybe you’re thinking I’m new to this world. But, no. You can’t just say, “It evaporated.” What does that mean? Can you say? Most can’t. So let’s: Evaporation would be the process where a tiny mouse wizard comes behind us when we leave the room and waves a wand around, chants some very indiscernible words, and creates just enough energy (think megajoules per kilogram) to disperse the bonds of the water molecules near the surface. These molecules are henceforth not a liquid, but a gas and then, like all well-meaning gases, leave to play pickleball, go see an over-priced movie, or get their hair blown out. Eventually, they will get lonely and re-congregate into a nefarious fluffy cloud and phase change back into a liquid. They could also re-appear as condensation…depending on several variables.

As a side bar, as those water molecules nearest the surface change phase and evaporate, water molecules left behind take their place (more on this below) at the surface, and then, they too evaporate and disperse if conditions are proper. And thus, eventually, we get “dry.”

So, maybe ditch the magical mouse and wand, but the energy part is true. The thing is, the required amount of energy to “dry” depends on several factors we shan’t be including herein. Now, the key for us in the built environment is what often gets phrased as “the drying potential.” This is not the same as “college potential,” though both could prove to be unexpectedly expensive. While we may not need to worry about how our plasticized briefs and bras air dry (there’ a reason many of our undergarments come with warnings to avoid excessive heat), we should be concerned with the drying potential for moisture in the materials that make our fancy huts.

You see, in my glorious 1940 home, any water that adsorbs onto or absorbs into the board sheathing will diffuse readily along the grains (wood in particular) and eventually evaporate/dry out with minimal effect because my home has great drying potential due to being poorly air sealed and insulated (please, send me money in lieu of medals for this amazing accomplishment…it can help me pay my utility bills). But, in some homes of various vintages, inclusive of modern builds and commercial applications, there is LESS drying potential due to modern configurations of our wall assemblies and building materials (that is, those areas that get wet don’t necessarily have access to the energy needed for evaporation because energy is being properly sequestered within the home’s interior habitable enclosure). This is not a bad thing, if you care about the status of the environment or your bank account. It IS a bad thing, however, if you want your walls to not be a terrarium of mush that can’t stand up to wind and pests AND you build without paying heed to moisture movement.

You know all those local news stories, social media posts, and leaflets dropped from above that focus on toxic mold in homes (side bar: such mycological toxicity is real and really, really bad where it actually occurs…that’s not every time, however)? Those highly credible news sources should be focused on how those fun guys (get it…) showed up to party in the first place. If we managed our assemblies better with a mind toward drying potential (read, evaporation), then it would be less frequent for these spores to rudely take over. I digress.

Evaporation. Okay. So, evaporation happens when water molecules near the surface gain enough energy (heat energy, temperature) to free their oppressive bonds. Then, diffusion (think about perfume being sprayed in the air) via physics disperses these from high to low concentration and hence they “disappear.” Again, remember that diffusion also is the reason one concentrated wet area spreads to less-concentrated dry areas during the stage of what we’ll call “water wetting” (this is named thusly because there’s another chemical process referred to “wetting” that I don’t want to confuse with our current topic). Without diffusion in the product/material, evaporation would not be possible – but, we’re talking about diffusion in a liquid phase first, then in a gas phase post-evaporation. Meanwhile, back at the farm, if your environment is really wet, or cold, the moisture in our proverbial materials, be they clothes or building supplies, will not evaporate as quickly because there isn’t enough potential energy and there may not be enough dry air for diffusing from wet to dry/more to less.

There’s also osmosis. This technically isn’t the same as water drying, but it plays a role in the exchange of water from Point A to Point B. We won’t get into osmosis because it technically reverses the always high-to-low principle, but then it doesn’t because it isn’t about the water for osmosis – it’s about the sketchy people water hangs out with (solutes) and the need to dilute those 1980s Seattle-based punks. As an aside, osmosis can be the force behind the death of your brick and other masonry materials; the force is strong with this one. So, the next time you see spalling brick and efflorescence, you can thank me (again, send money).

Why does this truly matter for us as inspectors, builders, and consumers? Well, if you have a failure in a wall, roof, or floor assembly (use the same mental image of a rectangle, just rotate for each position), whether that failure results in catastrophic damage and fungal growth partially depends on the drying potential which happens via diffusion, evaporation, and diffusion. The longer organic-based materials (and non-plasticized composites) stay wet, the greater potential for degradation. And, in many of our regions, most trades professionals remain ignorant (in the truest sense of the word) related to building with a mind’s eye toward the physics of drying and so moisture gets “trapped” in the assembly components (assume Liam Neeson [heat energy/potential] can’t get to his daughters [moisture] to free them from the bad guys [the building materials]). If you read the fine print by many manufacturers who make these building materials, you will see they assume their products will get wet. After all, they are exposed on the exterior, which is outside. They provide instructions, configurations, and videos explicitly showing how to make sure said product(s) can be protected and/or can dry by not trapping water.

So, if you find evidence of something wet, it has at least one source and that source may or may not be readily obvious. Try to find it or hire someone who can. Remember – water, heat, energy, and pressure move from high to low, more to less. If you see something deteriorated from being wet, you can assume it doesn’t have the potential (energy) to dry via evaporation and diffusion because there are nearby variables askew for healthy conditions (or, it was exposed to moisture in a way that it was never designed to be…like composite cement cladding in direct contact with a roof/ground surface). Find them (the askew variables). When you can name “it” and “them,” you can put the puzzle pieces together, inform your client, and help the right people answer, “so what now?”

Life without change is death, unless you happen to be a brick, or a cloud, or an ice cube. Then…well, then change is death. It is, in this regard, that we consider the topic of air pollution within structures. Whether it be residential, commercial, municipal, or otherwise, air quality inside our fishbowls remains well disregarded.

Enter radon and National Radon Action Month (see IEA or NRPP or Kansas State Seminar Video or EPA). When I was in middle school in East Tennessee many years ago (we still used compasses then to know we were east) I remember artwork in the hallways depicting radon as various incarnations of bad things, like a monster under a bed.

Known as the leading cause of lung cancer among non-smokers, estimated as causing 21,000 lung cancer deaths annually, this classified carcinogen is a known bad apple. What’s lesser understood is that this danger ranks above second-hand smoke, which is listed as the third leading cause of lung cancer. Or, how about for non-smokers, the risk of lung cancer at the minimum actionable level for mitigation 4.0 pCi/L (the level at which the U.S.A. decided concentrations merit mitigation to reduce indoor levels) is equivalent – yes, I said equivalent – to the risk of dying in a car crash. If you smoke/smoked, that risk increases to 5 times the risk of dying in a car crash. All from a naturally occurring gas that originates from naturally occurring materials naturally present in our soils/geologies. See tables in this EPA consumer guide.

Now, in my multi-hat role as both a licensed home inspector in Tennessee, as well as a building consultant for consumers and builders, I’ve come to believe radon is an example of why indoor air quality (IAQ) is so important for our health and indoor environment quality (IEQ).

True story – in my immediate market there are builders, real estate professionals, governmental officials, and regular citizens that feel radon isn’t real or a risk. But these same people also know people who have died from vehicular accidents and the stats are similar. One is simply more tangible than the other. You know, with my own ears I once heard a well-respected engineer say there was “no such thing as radon.” The man believed in formulas and numbers he couldn’t see off paper, but felt radon was a conspiracy. There are many like him.

The data and science are clear – to date, there is no known safe level of long-term exposure to our radioactive gas friend, radon. With interior averages assumed to be around 1.3 pCi/L and exterior average concentrations assumed to be around 0.4 pCi/L, we can’t get away from it. Ever. But, there’s a difference between 1.3 pCi/L – where roughly 2 non-smokers out of 1,000 are assumed to get lung cancer from exposure – and 4.0 pCi/L where roughly 7 non-smokers out of 1,000 are assumed to get lung cancer from exposure. Those rates increase for smokers.

Now, you may say 7 out of 1,000 isn’t bad. And, it’s not. But, if you flip the understanding of those odds to the lottery…we’d all play if our chances of winning were 7 out of 1,000 (average assumed odds are near 1 to 300 million for the lottery jackpots). By the way, flesh eating bacteria odds are set at 1 million to 1, but we seem a crap-ton more afraid of our flesh being eaten than lung cancer from radon. And, I look at my family – I wouldn’t want any one of them to leave my worldly experience sooner than needed (with pain and fear, to boot) because I chose to not care about what couldn’t be seen.

Final thoughts – know that radon is a scientifically testable and proven radioactive gas. Know it can be tested for and mitigated. Know that you should test where you live and try talking to your representatives about testing in municipal and school buildings where so many of our loved ones spend the majority of their days. Just do yourself a favor and hire the services of a nationally certified entity or your state department, if you have one. The links at the top of this page to IEA and NRPP can get you to necessary directories. Costs for testing depend on location of the country, test method, and level of trained professional. For those you love and for those who love you, test for what you can’t see. It’s there folks, you just don’t know how much of it is there unless you test.

Here’s a thinker…for all of us – what isn’t a mold, but fits in a mold and can mold to any contour? The answer – mold.

In the trades and related industries, we often say things to clients and others that come from yet other inspectors, builders, presenters, education materials, and professionals. As all knowledge does, our industry knowledge has compounded upon itself as it has grown alongside the continued industry evolution (e.g., once upon a time home inspectors only offered home inspections…). But, how often do we stop and think about the words which we are spewing forth like a slurry of melting ice burgs?

Thus, we find ourselves wondering – why do we refer to a variant of fungal growth as “mold” when we also refer to “mold” as an object to form/shape objects? Are you ready for a crazy answer…brace yourselves.

I was curious about this idea (particularly since many of us don’t use “mold” in our verbiage). So, I used AI searching and found the online etymology dictionary (who knew…?). Well, c. 1200 mould referred to a hollow pattern used to shape things but in a figurative sense, stemming from Latin, of course (why didn’t I take that class in high school…).

By c. 1300, the word had morphed a bit to refer to physical form/shaping. By c. 1400, molde referred to stuff growing on other stuff and came from either Proto-Germanic (wetness, slipperiness) or Old English (loose earth). If we fast-forward to 1897, the Brits made a point to say all variants should be spelled “mold.” So much for uniqueness. Colonists…eh.

To obfuscate the matter just a bit – mould in the mid-14 century meant to mix or blend by kneading (think dough); by late 14c. it had baked (get it…) into kneading bread and forming into a specific shape. The figurative sense of the word – as in, mold your child in your image (referring to character) – appears to have come back with the assertiveness of the plague c. 1600.

So, is there a link or some form of a connection between usage of mold as a tool and mold as a term referencing a subset of organic microbial growth? Sadly, it doesn’t look like it. Just a coincidence. Mold usually is intended to refer to one type of fungus that grows on organic matter. Fungal growth/microbial growth is the more generic term encompassing all fungi, inclusive of mold.

If we want to split hairs, we could ask – why do we say “mold” when there are various types of molds? Some molds are okay molds, like Glenda the Good Witch. And some molds are bad, like the Wicked Witch of the East. I mean, when we’re in crawlspaces, it’s pretty impossible to know the difference for those of us not properly trained as mycologists. If the bad molds would wear striped socks like their ne’er-do-well counter-part who got flattened by a house (see why I used this reference now…), it would be so much easier.

I’ve been perplexed and stupefied many times over the 12 years I’ve been inspecting related to mold – like Lord Voldermort or Macbeth, we aren’t supposed to say it, write it, snuggle it, support it, or play with it. Yet, we now have a plethora of third-party providers constantly shoving mold testing, mold sampling, mold reporting, and mold vacations (okay, I may have made that last one up) down our small business throats. Sooooooooooooo, the legal eagles advise not to say “mold,” but we can offer “mold” testing services. I think I’m starting to understand absurdism, after all.

Perhaps the issue isn’t the etymology of the term, or the classification of type, but in our understanding of the term. It’s a communication issue so our messaging isn’t way off when we speak with clients and agents and builders. Perhaps, like most of our industry information that has continued to evolve, our usage of the term as taboo can, too – much like the Grinch’s heart grew three sizes (also, that’s a medical condition if I know anything about hearts…), our usage of mold can grow if our understanding of how and when to use it grows, too. So, we could mold our businesses in the mold of a well-educated professional who can distinguish moments for mold to safely be front and center. I do hope you’ve enjoyed this educationally molding experience.

Prologue

Writing, for me, is synthesizing ideas, concepts, and facts into understandings of my own words. This creates meaning for me as a professional and, thus, helps me to be a better professional for my clients.

Recently, I was re-reading Dr. Joseph Lstiburek’s 2004 article, “Insulations, Sheathings, and Vapor Retarders.” In my best moments, I try to touch one of his articles once per week. His material is dense, but accessible and witty. It really satiates my brain. But, I find that the information does not self-retain in my noggin – there is no adsorption or absorption for all of what Dr. Lstiburek freely disseminates. So, I have to re-read things continually to overcome my mutton-headed ways.

In the above-mentioned article, vapor in walling (and technically, roof and floor) assemblies is discussed in terms of thermodynamics and chemistry. At one point, the article talks about how vapor will diffuse to the lower vapor pressure and/or temperature side between two sides, regardless of air pressure. For our southern, humid climate this means that the water vapor that is outside in the warmer months will migrate inward for two reasons – our air conditioning “usually” is pulling moisture from the air inside our homes while simultaneously cooling interior surfaces. So, the inside has less vapor pressure (fewer water molecules inside than outside) and cooler surfaces. Vapor moves from high concentration to low concentration (inward in warmer months in our region) and from warmer to cool (inward in warmer months in our region).

Our Market

Now, the most common wall assembly configuration in our market is 2x4 studs, OSB wall sheathing, and a weather-resistive-barrier from DuPont (although competing brands are starting to show more frequently, but they mostly perform the same). These WRBs are not air barriers if not fully sealed (they never are in our market) and they are not vapor barriers as they are usually semi-permeable. Basically, they are designed to manage bulk water, but can’t do much for water in gaseous form (if you live here, you know we have a ton of water in gaseous form for at least 7 months each year).

So, our wall assemblies are deplorable, historically, at managing water vapor. In older homes, like one I was in last year, this results in saturated fiberglass battens and some fungal growth on the battens’ paper-facing and the backside of the finished walling. The assembly configuration is uber common, even in new homes here – brick veneer, a banal WRB, sheathing, battens, interior wall finish (paneling and drywall in this instance). Now, this home’s walls had not rotted, but insulation was ruined and there was the fungal growth. So, what gives?

The walling was disassembled from the interior for renovation during the summer months. The previous owners had kept the home at 68 degrees F. up until it sold to the new owners. When we got into the walls, we saw thermodynamics at work – the interior temperature of the walling materials were at least 20 degrees cooler than outside temperatures. That undeterred, hot and humid air was like Garfield at a lasagna dinner – “Gimme, gimme, gimme!”. So, the vapor moved inward to less density and cooler surfaces whereby we happened to hit dew point due to Delta T and, Ta-da! Wet stuff.

Where’s the Mush?

So, why wasn’t it all mush? Why aren’t all our homes mush? Well, honestly, my best guess is that because we spend almost no time on air sealing, the walls are drying out – in the summer from heat and convective air movement; in the summer from vapor moving into the interior and the A/Cs reducing some amount of said moisture load (hello, utility costs…!?!); in the winter from being generally more dry outside while also being dry inside (a equilibrium of sorts). Inefficiency has saved us. Quick, ditch all that damn wall insulation…inefficiency saves us!

Except, maybe not. Utility costs continue to rise (TVA announced plans to raise their rates by 4.5% this fall). Building materials are not coming down in price to pre-COVID numbers. Home prices and mortgage rates also remain elevated. Oh, and let’s not forget the changing of weather that adds more strain to our structures. Maybe inefficiency shouldn’t remain our rule of thumb.

The flipside scenario also is not the answer – in several new homes in the last two years I’ve been called out related to moisture (relative humidity) being too high inside and under the home. Usually, these homes were built with modern materials and slightly better air management details. Slightly. We haven’t increased the R-value of our walling beyond an R19 (not regionally enforced), nor are we sealing our sheathing or WRBs, nor air sealing dissimilar assembly joints. We are starting to use integrated air/moisture management systems, but not properly executed. So, water vapor is still getting in via diffusion and air penetrations. And then it gets trapped with nowhere to go from the inside of the home (except the attic sometimes…not good in winter…unless we also are leaking heat to dry the moisture (heat from the sun and heat from our houses)…inefficiency is such an efficient cycle).

We Are Not In The Clear

In none of these newer homes have we been allowed to perform surgery to see what the innards look like. I’m hopeful, but not delusional. What creates deficiency in one direction can create it in the other direction, seasonally speaking. As most newer homes are drywall and latex-based painted, unsealed penetrations for conditioned winter air to move outward are going to be somewhat limited to man-made holes for electric and finish features. Vapor diffusion, moving outward, shouldn’t pose an issue due to proper paint finish on the interior side; plus, during the day the exterior materials are warmer which may escape the dew point (except shaded sides) and vapor isn’t trapped by vapor semi/permeable sheathing and membranes which is mostly what we still use. So, our winters mostly should harbor fewer issues than summers when warm air and higher vapor concentrations hit the cooler/dryer backside of drywall.

You wake up at 4 a.m. after going to bed at 9:30 p.m. After six and one-half hours of mouth breathing, you are thirsty. You trundle your body into the kitchen, lurch over to the cupboard filled with cups that you don’t want to read, and blindly turn on your kitchen faucet. Ahhhhhhhhhhh, that’s better. Now, if you can keep your brain from turning on, you might get another one and one-half hour of sleep before you have to get up.

Does this sound about right? Yeah, we all have been there. Here’s the twist. That water you drank…4 oz., or 12 oz., that water was sleeping for the same time as you. Except, while it slept, it was stagnant and collecting all sorts of molecules from the piping hugging it – metals, chemicals, etc. When you turned on your faucet and filled your cup, you filled it with stagnant, stale, tainted water. Now, times that by the volume of water you consume similarly throughout your life. Yep, it doesn’t look good. And we haven’t even started mentioning germs.

This scenario doesn’t matter if you are on a private well or public utility. It doesn’t immediately get better if you have filtration. Actually, if you have filtration it might get worse depending on what and how you are filtering. The water sitting in those canisters/filters is brewing in the funk collected in the sediment filter, stewing in the activated charcoal carbon filter or the reverse osmosis tank. You turn on the water, fill your cup, and wash that mouth breathing away…with water that should be flushed first.

Factor in the chemicals from the treatment plant, the quality/age and condition of the municipal piping ferrying your water, and the piping in your own home. Survivalists teach that water in motion is your safest bet for not contracting death; water that is calm and still most certainly will accelerate your date with the afterlife in the wild. The same is true for the water in our homes and office complexes. There is a large body of research promulgated by COVID-19 regarding water in piping within buildings left vacant for extended periods. The same recommendations are presented for such scenarios as can be found for the homes in which we reside.

It matters not, if you rent or own, if your home is new or old, if you are on public municipal water or private well/stream. You could have lead or benzene on municipal water source, or arsenic, fertilizers, and fecal materials on private water source. Anytime your water has been sitting, you really should let the water run for 20-30 secs., if not a bit longer. If, like me, you are a granola-crunching hippie, then you might consider “catching” that water for any indoor plants or porch plants (not edibles) so you are wasting less water.

Case in point, the EPA has goals and limits for contaminants in our water sources. The goals – maximum contaminant level goal (MCLG) – often are of a lesser amount than the actual enforced limit – maximum contaminant level (MCL). True story – bromate has an MCLG of 0, but an enforced limit of 0.010 mg/L. Bromate comes from disinfecting our drinking water and is a known contributor to cancer. For a full list, visit the EPA’s site on these limits here.

Here's another way to think about it – we are taught NOT to drink water from the hot water line because the temperatures in our water heaters might afford for organic growth that doesn’t play well with our microbiomes (and, actually, hot water is a tricky topic as there are other reasons to avoid drinking or cooking with it). Well, the risk is similar for that water sleeping in your lines for several hours. It needs to be flushed out a bit to reduce (not eliminate) the chance for sickness, inclusive of slow poisoning. Heavy metals, leached chemicals (anyone out there familiar with breakpoint chlorination in PEX lines…), sometimes cross-contaminations – filtration can manage most of these, but you have to know what sort of filtration, have to be able to pay for said filtration, and then still should flush the water in said filters prior to consuming if its been sitting there overnight. As soon as water deoxygenates, other funky stuff starts happening. And deoxygenation has happened overnight.

We are a simple species when it comes to thriving or falling dead. Keep the bad stuff out, limit to the greatest extent possible small amounts of the bad stuff you can’t keep out and get your rest every day.

Post-script — the CDC has a well-populated host of information related to this topic. I don’t agree with the advice regarding flushing (they don’t think you need to unless you are away for a bit), but there is, nonetheless, good information herein.

There was a time when good work was in short supply, but good workers were not. Then, by various triggers that would require a top-ranking economist to explain and chart, good workers started to be in short supply and good work plentiful.

Then things got even more strange. People who performed the work started charging more money while more consistently performing a mediocre service or finished product. It seems, to my lint-filled pockets, money has lost its holding value for consumers. This is where the home diagnostic and consulting skill sets sweep in to save the day.

If you at all listen to The Unbuild It Podcast, or follow Home Diagnosis, or any of the plethora of available resources out there, you should be aware that the trend for ensuring what is built performs to a standard of today’s global and economic climate, and NOT a standard of past-home-building-decades, is becoming more common. Trade schools have been catching on over the last 10 years, industry figure heads (mostly via social media) have been adopting, adapting, and espousing these principals, and titans of the performance industry – Building Science – have freely shared so much technically difficult and yet simplistically executed information that there is no reason our buildings aren’t healthy, durable, and safe. If you have never taken a course with Joe (see previous link), then you just don’t know.

Unless you are a consumer.

Consumers don’t follow these channels. Consumers are living their lives, focused on their professions, and paying our trades professionals on the assumption that we will execute to a level worthy of the money they pay.

That does not happen, yet. Most general contractors, trades partners, and laborers work from a set of game plans that are based on requirements from the local jurisdiction having authority (if there is one), which means standardization is not standard across our states and even within any one state. This means the local business and trades culture shapes and reinforces skill sets, habits, and practices. There’s more truth to, “Well, that’s how my granddad taught me and the homes he built are still standing,” than many realize. Like the paths cut through a forest by furry creatures, we humans blindly follow that which provides the least impedance.

“Three hundred and sixty-six words in, this piece really is to say I shouldn’t be needed. But, there is such a chasm for consumers looking to understand their homes and spend their money wisely versus the trades professionals that perform said work…”

The beauty of what an entity like myself does is amalgamate overlapping fields of knowledge and practices to the benefit of the consumer. You have to know the basics of construction and related processes, materials commonly used in your region and their performances, typical trades practices within the field, a modest amount of building science, how to investigate, how to test, how to communicate, and how to listen. Entities like myself once were unicorns – now, we’re growing in number because there’s a need for us – we’re usually reasonably educated, experienced, open-minded to problem solving and willing to say we may not know the answer on the front end, and understanding that the consumer is not a trades professional and a trades professional is often limited in what they know or do (that whole worn path thing, again).

Some of us, like TNergy Services LLC, have chosen to act as consultant in order to properly guide consumers toward competency of decision making. It’s not my job to make choices for my clients – my job is to help my clients step from one stone to the next until they get to the end of the path and can choose their own way. My job is to listen to their choices and help them facilitate their needs and wishes to a contractor in language relatable to the contractor. This is the only way to deviate from the “norm” of trades practices that often leave consumers short for the value of their money spent.

Having an entity such as myself makes sense – I have no dog in the fight. I don’t perform the work. I don’t cherry pick the contractor. I acquire information for the consumer, I gather bids for the consumer based on decided scope of work for an intended outcome, I help interpret said bids for the consumer, and I add an informed eye toward work performed to ensure proper execution. All of this is done without any sort of kickback from contractors or materials manufacturers. Yes, I get paid, but I get paid because I am hybridized, I am specialized, I am communicative, and I am a guide. Entities like myself are the sherpas of the trades industry for consumers.

I want my world to be better. I want my community to be better. I want our homes to be safer, healthier, and longer-lasting (one of Mr. Baczek’s common refrains is “long live our buildings”). I want to do more than just say, “I want.” This is me executing, trying, working to help our communities be better by assimilation of information that’s out there. The truth is out there (anyone interested in this last reference may be interested in this tidbit of fandom).

Radon. January is National Radon Action Month. Not exclusively this January. Every January. It remains an on-going push to make citizens aware of the presence and potential danger of radon. Like cholesterol, you don’t really know how you have it until you test for it. And, yes, I said “how.” The data available, albeit oldish, indicates every one of our homes, rental properties, schools, offices, and grocery stores has some amount of radon concentration present. Like I tell my son regarding schoolwork, it’s the concentration that makes all the difference.

Please To Meet You, Er…

Now, if you have never had the pleasure of meeting a radioactive gas – well, you are in good company since we can’t see it, taste it, touch it, smell it. And, as far as we know, our dogs and cats don’t notice it either, or perhaps they choose to not tell us. But, radon as a radioactive gas is there. And there. And there. And even outside, though exterior concentrations are thought to not be an issue as amounts are generally well below 1.0 pCi/L (picocuries of radon per liter of air – if you live anywhere else than the U.S., becquerels are the chosen measuring stick…and, yes, there is a conversion rate).

I realize my tone is less than serious but make no mistake – the leading cause of lung cancer among non-smokers is serious. 21,000 deaths (estimated) each year is serious. Being labeled as a Category A carcinogen by the EPA is serious. It’s serious street cred. for radon and serious for us humans with cellular tissues (if you happen to be a human sans cellular tissues, I’ll try and keep an open mind…). Radon is real – did I tell you all the story of the well-known engineer in my market who told a client (with me present) radon wasn’t real?!? True story. Another time perhaps.

Radon Really is Real

Okay. So. Radon is real. Radon can be detected via testing. Testing can be performed by you the homeowner, your neighbor, a housing professional, an industry expert, and in states like Tennessee, well-trained walruses. Testing equipment can be acquired from the state, from online, from some local retailers, from housing professionals, from industry experts, and in states like Tennessee, well-known engineers and real estate professionals who know more than trained scientists. I’m not bitter, just incredulous.

The issue is that just anyone testing for radon would be like just anyone teaching your kid about religion, gun control, or geometry. We have enough odd angles in this world – no one wants that. Or, like just anyone teaching you how to skydive. You with me now?

Dealing With Radon Requires Professionals

What we need as a consumer base is quality control and quality assurance. And how do we get that? We set standards of education, of practice, of professionalism. Enter AARST and NRPP and NRSB. We mandate certification for those who want to test (fewer than half our states require such certification – online data claims TN requires it, but trust me, TN does NOT…unfortunately). We set similar standards for equipment used and procedures for accurate testing and management of testing equipment. Which means – homeowner tests, neighbor tests, and poorly trained professionals tests should not be viewed as the ideal solution; it’s like taking your child to McDonald’s because she has a sore throat…I mean, maybe the person helping you will be in med school. Plus, you get fries and a shake.

The other important component to understand here is that radon is not difficult (in most scenarios) to mitigate AND is preventatively mitigated in new construction in many jurisdictions already (but, not nearly enough). However, testing is key, as is disclosure. If accurate testing does not occur, and said information is not provided to concerned parties, no good comes from any of it. And, believe it or not, there are fewer than two handfuls of states that require any sort of radon disclosure to renters (please read: landlords are not required to test and make sure their buildings for which they are charging borderline mortgage rates are safe for the people who move into them). And that’s crazy. The same is true for most public schools and municipal buildings.

Tangent Time…

Now, on a more skewed perspective – I also think we’ve been slowly poisoning our residential home professionals (home inspectors and diagnosticians such as myself) without any care or concern. Did you know I have no retirement package when I retire? The state gives me nothing. So, if I contract lung cancer from prolonged elevated dose exposure over the duration of my career (beyond 11 years now), I’m on my own for medical care.

Scientifically speaking, when radon decays at half-life, it releases alpha particles (as does radon’s progeny) and these high-energy particles are what get embedded in lung tissues when we inhale and they then disrupt our cellular processes increasing cancer-potential. Well, these high-energy particles are too large to pass through most materials, so they “plate out” when they come into contact (meaning they become harmless for the most part). I have adopted a practice in recent years of wearing face masks (entirely unrelated to our lovely pandemic that shall not be named) in order to improve my odds of NOT inhaling said alpha particles. I’m hoping that more of them plate out on my face mask. It’s simple science with absolutely no data or studies to back it up. But, there is nothing out there for my industry to help us be safe against radon exposure. And, even though any one dose may not be an issue, prolonged and constant dosing over many years definitely increases the risk of developing lung disease. If any of you know of dose packs/monitors that are readily available for residential home professionals, let me know.

In The End

The moral of the story is test for radon and talk to a family member and one friend about testing for radon. If you test and it comes back high, ask for the data. If you test and it comes back low, ask for the data. If you mitigate for radon, have it tested post-mitigation and every 2 years afterward (also, consider having the system reviewed by someone who is certified for doing so [pick me, pick me] ). If you live in anything but a tent or tree house, have it tested. Then test it again in 2-3 years. Like our school systems tell us about the competency of our children – it isn’t worth a flip if you aren’t testing. Except for radon, there really is no controversy for always testing. Because, now all of us can have consumer grade radon monitors in our homes (search for it, people – there are many readily available). And remember, January is National Radon Action Month.

TNergy Services maintains national certification through NRPP for testing, analysis, and soil gas mitigation system inspecting. We offer a full range of indoor environmental quality services, radon testing being one such service provided via our sister company, WIN Home Inspection Cookeville.

After a recent conference, a seat-filler proclaimed – “The presentation was good enough. But, I think some of these ideas are suspect. Maybe 20% is accurate, but I bet other industry professionals would say he doesn’t know what he is talking about.”

Slowly We Go…

The subject matter related to how to quantify home performance and help homeowners live in and keep a healthy home. This is the realty of our industry. There is an HVAC-ton of apprehension and willful refusal to change understandings and habits (see what I did there with that HVAC ton…I’m a quick one, I am…). Larger, more youthful areas of our country likely have an easier go at this. Rural, more aged and conservative communities likely are slower in acceptance.

Building science is not high-level physics. It can be, but most of what practitioners need is not high-level. All building science really does is incorporate the “why” into the “how.” The other thing building science does is provide on-going advancements in testing to confirm – confirm performance, confirm deficiency, and even resolve deficiency. And everyone appreciates resolution, right?

Err, maybe not so much. Turns out, without active and prolific enforcement, many regions of our country remain happily humming along executing at the “same old, same old” quality of construction and home performance. Don’t believe me? Listen to any number of trades-related podcasts – the subject will and does come up routinely. We know what we know and we do what we know and we won’t do what we don’t know unless and until someone else makes us know it (eat my biscuits, Dr. Seuss!).

Hitting Home

For my business in the conservative South, where TVA still reigns king and electricity remains less expensive per kwh than many other regions of the country, getting anyone to see me as anything other than crazy is not easy. The thing is, there’s no motivation for anyone local to see the merit in using my services – if consumers don’t ask for it, and codes departments don’t require any of it, then what compels any one builder or contractor to learn and do better? Literally, there is no competitive edge in doing so in our market. Yet.

See, that’s my hope. There are a few builders in our region who are doing “some” portion of a pretty good house detail, but no one builder has started to build exclusively with the total details package. I’m hopeful that the trend will continue. Hell, I’m even starting to kick around the idea of doing it. Licensing isn’t that large of a hurdle. If I can understand the building science of a home, and how to test for performance, then surely I can manage a license exam. Based on what I have been seeing for the last decade, I shouldn’t have an issue. Boy, I’d be embarrassed if I did.

New Year Feel-Goods

Going into the new year, I’m hopeful I can begin to find a way to better access the existing housing market and help owners and builders begin to make choices that benefit everyone. As a builder, if you work to change some practices – be it materials used or methods of construction – then you could see improvement in your profit, in your product, and in your client interest. As a homeowner, if you demand better conditions from your home – more than the aesthetics of the kitchen or baths – you could see less money spent on utilities, healthier indoor air quality, and a greater longevity of the home itself. There are many reasons why understanding how your home is failing could help you take control. Such control yields more value for the money and time spent on and in your home.

TNergy Services wishes all of you a safe and enjoyable holiday season. Whether you travel, stay in place, hang out with copious amount of people, or cuddle up with a few good books – may stress not be a mitigating factor for choices made. And, in the new year, if you are ready for a new adventure and to take control of your home, give me a call. I’d be honored and humbled to be of help.

What do building standards stand for? If you operate in any overlapping category of real estate and the building trades, then you have heard the phrase – “it meets code” – at least once. Maybe twice? Well, what does that mean?

In our Middle TN region, it tends to mean one thing the closer you are to Nashville, Knoxville, or Chattanooga, and quite another in lesser populated areas in between. It also depends on which code is being referenced – International Building Code, International Residential Code, International Energy Conservation Code, International Plumbing Code, International Fuel Gas Code, National Electric Code. Each of these tomes is generated by a dizzying array of academic, professional, and trade specialists, combined with governmental, and sometimes lobbying, entities.

Again, the context of where you are entirely dictates the rules of the game. This is, unfortunately, a glib way to summarize the situation. In reality, what tends to happen is because humans create, adopt, and enforce the codes, inconsistencies and errors are very common. This is not to point toward corruption (perhaps another article…?) beyond the corrupt imperfection of humans. And, you know what humans really dislike – chaffing and cold water, yes, but more than that…change.

We humans love to stomp our paths into ruts. Ruts are easy to follow. Ruts can guide newbies. Ruts are convenient because they can be followed whilst paying attention to something else. Ruts also tend to be hard to escape after decades of stomping and following. And so, we come to homes built fresh atop newly sectioned-off lots that cost more than four times (yikes!) what our folks paid for and yet perform very similar to those same homes of yesteryear.

When I say perform, I mean: Put together with the same methodologies related to air, water, and pest management. These are the three horsemen of the home apocalypse and are very much understated in their presence until it may be too late for the home. There is no reason for a home built in our modern era to perform the same way a 1950s home does when it comes to a blower door test (feel free to email me if you don’t know what the scientific simplicity of a blower door as a measurement tool is). We don’t accept new cars that perform like cars from the 1960s. Why do we do it for homes?

Seriously, think about it – how much material is spent in making a home? What about the average carbon footprint (folks, it’s pretty bad what one home contributes to our atmospheric pollution, let along our landfills) for making a home? Why are we okay with following standards for building said home that will result in said home making its way to a landfill in 30-50 years? Why wouldn’t we simply adopt a slightly different set of practices and standards that allow said home to last for 100+ years? Change.

Change for humans is like Shere Khan from “The Jungle Book” faced with fire. You wave change in our faces and we hiss and retreat. In our market, this looks like resistance to better building standards by most (not all) general contractors; this looks like local building codes departments slow or unwilling to adopt modern codes that require trades professionals to put the pieces together differently; this looks like homes being built without any verifiable testing for performance (again, would you buy a new car today that didn’t have safety ratings from crash testing?).

Building a new home to “code” should be a badge of honor and pride garnering respect. Unfortunately, it historically has trended toward the other end of the spectrum. In my market, that same phrase usually is used to excuse such errors as water and fungal growth in a crawlspace, or HVAC return duct plenums built by voided framing space. In my market, that same phrase usually is used by trades and real estate professionals (oh, the stories I could tell…) to argue against a home inspector or building performance specialist who has advised clients of information that makes said clients have higher expectations for the home.

I am convinced that “it meets code” is merely a crutch on which to lean against impending change. The dirty little secret is that most current iterations of code – any of the code entities out there – really do afford for well-performing homes that keep occupants safe and healthy, as well as keep the home intact for many more decades, if not generations. Codes and standards have evolved quite well. It’s the people who remain resistant to change. It’s the people who continue, with the help of special interest groups (ever stop to wonder what’s so special about those interests – ahem, money, ahem…) to carve out the sections of code they choose not to adopt or enforce.

With a wink to irony, it’s also people who are leading the change. It’s the high-school education programs teaching students building science; it’s the social media presence of trades professionals sharing what they learn from their failures; and its professionals like home inspectors and building performance specialists taking up the mantles of educator and consumer protector. Yes, it’s a tall order. Yes, there are so many forces pushing against change. Yes, making these choices means upsetting some local trades professionals and losing some business. I’m doing it. Others are doing it. We’d love for you to join us in making our homes, our neighborhoods, and our communities better and healthier for family and friends.

Case Study – Flashing at Dissimilar Materials Joints

In roof framing, it is widely understood that those areas of most interruption, or planar differences, pose the greatest risk for leaking (think valley, or greedy dormer). Ergo, the more complicated a home’s roof line, the greater risk for leaking. How do professionals (not you, Grandpa – real, actual professionals industry trained with real world experience) manage this? Flashing.

Now, let’s move that concept down from the roof to the wall assembly. If you have a wall made of wood, that wooden wall will inevitably end. In our middle Tennessee region, it usually ends on the foundation (concrete blocks aka CMUs), but slabs are becoming more prevalent and we do have old housing stock (stone and brick foundations).

Where that wooden wall ends (you have to picture the wall naked – of siding/cladding here) the materials are dissimilar (usually wood and concrete or masonry). Dissimilarity, in home performance, is the ideal location for issues to develop – usually via air, moisture, and pest. The solution would be, like roofing, flashing. The problem is flashing of wall assemblies and components is not a highly regulated area of home production in our region and, based on what I see often, there is a wide spectrum of understanding and skill by those performing the work.

Often times, wall flashing is overlooked, or under executed. In some of our housing stock, the home survives with deficient wall flashing purely because the interior enclosure is so very much perforated (read, not air-tight) and the walls can dry. But what happens in our younger homes? Let’s see.

The Home

This home was built in the mid-2000s and likely was intended to be a moderate-to-high-end home based on materials used and aesthetic finishes. Composite cement fiber product was used for siding. Concrete cast stone veneer (lick and stick as it is so lovingly referred to here) was used for both foundation veneer AND some areas of siding. Where the cement boarding terminated and adjoined the stone veneer, there sat a shelf. A very flat, flat, shelf (see photo above).

As best I could tell, there was no flashing beyond a typical weather resistive barrier installed along this common joint line (which ran around the entire perimeter). And, this is for yet another article, the concrete cast stone veneer appeared to be adhered via thin-set directly to the wall assembly over the WRB with no adequate separation and this negates any water management ability…but, I digress.

Our flat joint had no special flashing installed. Flat surfaces hold water, or at least don’t let it drain away and off. When water is held flat, it will follow capillarity (think trees) and find other points by which to travel – up, down, sideways. At our dissimilar joint with no special flashing, the water readily accessed a percentage of the walling assembly over time. Time and moisture vs. OSB. Which do you think wins? Hint: pick moisture.

This home that was less than 20 years old, was set up for disaster from the onset of construction. With no attention to flashing detail, and no apparent understanding of needing to protect engineered laminated products (OSB, manufactured I-joists which were the substructure framing), this home started rotting very soon after construction. And unlike old housing stock that was more drafty, this home was less drafty (still drafty, just less drafty). Less drafty means less drying or longer drying time. Prolonged exposure to the moisture delaminated the resins/adhesives in the engineered materials, primed the wooden fibers for pest snacking, and degraded the general strength of the framing.

ENTER ME

By the time I came on the scene, the murder had already occurred. The un-flashed joint work at the exterior was my first clue. My knowledge of the abhorrent installation practices of concrete cast stone veneer in my Tennessee market was my second clue. A very pervasive and present musty odor in the garage was my third clue (have we talked about garages not being air tight and communicating air with crawlspace and interior space?!?). My fourth clue was degrading or already deteriorated rim joist, I-joist ends, and sill plates around the perimeter of the structure. Only along the perimeter of the structure in these areas.

Some Science

Wood is comprised of polymers (like most things, glucose is king at the molecular level for form and energy). Some of those polymers form cellulose and lignin, the two components that help wood in its natural form withstand biodegradation for an extended period in the natural world. However, we’re talking processed wood here and wood that has had moisture removed (and likely some of the lignin) as part of the engineering process. If you take out the water in the wood fibers, then the degradation slows down even more. Guess what happens if/when you reintroduce continued cycling of wetting to those same wooden fibers that were mechanically dried out? If you said it speeds up the microbes that “eat” the wood, you are correct. Additionally, we get oxidation of the wood fibers which lends to the very darkening of wood coloring. Oxidation also is a decay process. **See this 2011 MIT paper for a brief explanation of wood and moisture.

Does Your Brain Hurt?

Okay. Okay. Let’s jump ship from chemistry. I usually don’t bring up chemistry with clients or in field reports because it’s confusing and usually unnecessary. And in truth, I usually have to “refresh” my own understanding routinely. The simple explanation fits well – you can’t take a material that was intended to be dry post-processing and allow it to repeatedly get wet. It degrades and anything it was supporting no longer is supported as well. Ergo, you must protect this dry product and keep it dry. Dry from the exterior wet world and dry from the interior (crawlspace) wet world. When you fail at this, the material(s) fail and you get unhappy homeowners, or shocked buyers who no longer want the otherwise pretty home.

All of this – and I mean all of it – could be avoided by well-executed flashing. But, then again, you can’t execute flashing installation well IF the installer doesn’t understand the basic principles of building science and why they should flash, where they should flash, and how the flashing should be designed (ahem, to shed water…).

When you own and run a small business one of the primary tasks is an on-going need to let be known who you are and what you do. I once had a marketing manager for another business I own who loved motivating based on books he read. He was very fond of “top of mind,” and because of that, TOM is ingrained in my choices to this day.

The “top of mind” concept focuses on advertising and marketing with a mind’s eye toward getting your brand to the top of the consumer’s mind when they are in search of your product or service. I really like this concept because it removes the pressure of marketing for immediate result – if I spend $500 on advertising, I can focus on trying to generate top of mind benefit and not immediate conversion. Conversion can be profoundly sad when numbers are low. As best I can tell, most conversions are pretty low on average. So, if I can teach you to associate my name with a set of services, then when the time comes and you are in need of said services, your mind will do the rest.

And Then There’s Mindset

Another concept I like pertains to mindset. How do I get you, the consumer, to care about the services I offer? Why should you care that I am certified for blower door and duct testing? Or that I can help diagnose deficiencies that are plaguing your home or your physical person? Or that I can help guide you through the processes of renovation in a manner that helps you know how best to spend your money to get the most out of the work performed? Those be lots of words and concepts. It can be hard.

But, if we focus on mindset, all of this seems much more approachable. If I can write in a manner that helps you change your mindset toward your home, how it feels and performs, and get you to subconsciously think you can actually be in control of its issues and quirks, then perhaps you start to think this stuff matters.

For anyone who wants more related to mindset, I highly recommend a few podcasts from Hidden Brain that focus on the psychology of mindset and the serious power of mindset for all of us plebian peeps (here’s the first episode and here’s the second episode and here’s a related episode about another more scary angle for mindset).

Mindset Matters for Our Homes

As I am interested in how to use these ideas in relation to building my business and brand awareness, I feel sharing helps develop said brand awareness. So, one of my main goals in advertising for this business is to help consumers begin to understand their homes are not stagnant “things” that are beyond their management aside from hiring professionals to service their homes. Homes, like our bodies, are wholistic systems with integrated components that all work together. If my marketing repeats this message in a variety of formats, eventually people will more readily associate my business with these concepts.

So, if you are reading this blog – well, firstly, thank you for reading. But, also, consider the concept that homes, yours or one you are working on, are more than just “the largest investment in our lives.” Homes are multi-faceted spaces made from organic and non-organic materials with the intent of keeping the inside in and the outside out. That’s what I help do. I help teach you – homeowner or contractor – how to see what’s out and what’s in and how to fix it. My other goal is education with a mind toward consumers and contractors exacting positive change for our homes and the environment at minimal cost. It is possible.

I’m around when you are ready for a conversation. Cheers!

This is a post for all those entrepreneurs who aren’t sure they are making the right choice, or who find themselves with only two nickels to rub in their pockets.

Business Second-Guesses

My business of home performance and home diagnosing (conditions review and consultations) is fledgling by almost all standards of measurement. Add atop this the fact that this is a “side business” resulting from years of self-education while running a home inspection business. I decided that this line of work was not the same as home inspecting, rarely spoken of in the world of home inspecting, and so could be treated separately to best perform for clients.

To complicate matters more, the region of the country in which I reside is not exactly known as a hotbed for building science or home performance. This is ironic since some of our most prominent figures in this field – Allison A. Bailes III and Grace and Corbett Lunsford – are just a few hours drive away from me. Also, some pretty good work occurs at the Oak Ridge National Laboratory related to building science and this isn’t too far away.

Still, trying to get people to see the worthiness for paying a home performance consultant in my market is very tough. The only ones who take that dive tend to be those who already are experiencing issues in their homes. But, this is sad because more proactive assessing could curtail or prevent some of these adverse issues from continuing or becoming very expensive to address.

Real World Example

As an excellent example – we have encapsulated crawlspaces. Currently, the companies and contractors performing these encapsulations are charging consumers (be it homeowners or home buyers) exorbitant amounts of money for what is very simple science. Seal the crawlspace off from intruding air and moisture, clean up the space as needed, and manage the air space. That’s the gist of it. Yet, I often see – as a home inspector and a paid home diagnosis consultant – these installs poorly performed and apparently poorly understood by the installer and occupant. If consumers knew they could hire someone such as TNergy Services to assess the condition(s) of their home and then provide them a roadmap for actionable steps, as well as help explain the science and methodology intended to be used, they might get more for their money when they pay for encapsulation. A more educated consumer is a better advocating consumer.

I would be happy to go into the specifics of encapsulating at some point in the future, but for now we have no need – we could be talking about air sealing, water drainage in a wall assembly, insulating an attic, HVAC duct work. There are so many home system components that are often poorly assembled, understood, maintained; there are equally as many home system components paid for that perhaps are not needed, or not as worthwhile as other options would have been – Do you pay for a new window/door package, or do you air seal your wall assembly? This is a question a company like mine can answer based on the home’s conditions, your goals and budget, and other building science information out there.

So What’s To Say For Start-ups

To circle back around to our entrepreneurs who aren’t watching money pour in – one way to stay motivated and find solutions for effective marketing should be to self-argue your way to the same place as these last few paragraphs – what do you feel you bring in value for your client(s), how do you communicate the worthiness of your services, and what can you do to empower consumers writ large? If you have answers to these questions; if you have answers that you believe in wholeheartedly; if you get excited articulating these answers – pinpoint that focal point and go with that. Genuineness is hard to fake and very appealing for most of us. Be genuine. Be caring. Be proactive in marketing. Be true to the value you bring, but don’t be defensive if you have to speak to these things. Just be real and care.

A wrinkle to consider, if you read the last post.

I’m in an attic that has been sealed with our foamy plastic stuff that is both amazing and potentially torturous for the planet. I’m staring at the far gable wall of the attic over the garage and it’s spray foamed. So is the roof framing. This garage is shaped like a rectangle until it turns 90 degrees and opens into a giant square which is the main structure living space (so, think an “L” shape). My brain is screaming at me and I can’t interpret fast enough. So, I stand there.

The garage attic is spray foamed. The garage attic attaches to the main attic. The main attic is spray foamed. There is no partition between the two spaces. Okay. Thank you brain.

The garage is an exterior enclosure. This means every time the overhead doors are opened, or left open, untreated humid air (summer) and cold air (winter) will enter into the garage.

The main home, and now attic, are an interior enclosure. The main home, and now attic, are conditioned via the HVAC systems and commercial grade dehumidifier. The garage is conditioned via the outside. Ah-ha!

My brain is screaming at me because our garage is going to introduce an entirely different moisture load into the attic space than the main structure. This moisture load, particularly in more humid times of the year (so, like 6-8 months per year), is going to stress the unvented conditioned attic. Couple with this the inefficiencies of foam installation we chatted about last time, and we have all the variables we need for potential moisture issues developing over time to the roof framing (likely, near the ridge if my educated brain recalls properly — see people smarter than me).

Where Do We Land?

The fix for this interesting configuration is to insulate and air seal the ceiling of the garage. Basically, block off the garage from being able to mix with the unvented conditioned crawlspace. If done properly, ta-da! No additional stress or strain to the home’s attic space. Now, the attic likely merits monitoring to make sure the size of the attic does not present issues with relative humidity over time (the volume of the total unvented conditioned attic space will be greater than the perimeter footprint of the interior enclosure’s main floor). If RH is found to be consistently elevated (say, greater than 55%), then perhaps a balanced moisture management system would be beneficial, or a vapor diffusion port as written in Green Building Advisor by Martin Holladay back in 2018 (yeah, we’re not reinventing the wheel here — other peeps have done that for us — we just have to seek it out and read and digest). All we need do is think as a system. If that fails, reach out to these industry giants that came before us and everyday make this stuff look more like paint drying on a wall than performing complicated physics equations.

G.

Our eyes are amazing organs. They filter something we can’t otherwise perceive and allow us to perceive the worlds which we see. But, what happens when we pay for a service that addresses what we can’t see with our eyes? How do we know we are getting what we pay for? Or, if we’re the contractor, how do we really know what we’re doing is effective?

We test.

In our middle TN region, we don’t have many homes that are built with unvented conditioned attics, or are converted to unvented conditioned attics. To my knowledge, we also don’t have a hardy education for trades professionals regarding the building science behind vented unconditioned attics vs. unvented conditioned attics. So, our line of ignorance places us in a precarious position as home owners and builders.

In our region, what I see mostly is low density open cell spray foam installed along the roof line and eaves. In theory, this closes off the attic from the exterior environment extending the interior enclosure from the finished ceiling to the now-foam-filled roof framing. In theory.

In actuality, because our trades professionals aren’t regulated in relation to the depth of the installed low density open cell spray foam, often there are irregularities, voids, and gaps. These, individually, are no big deal. But taken as one larger whole (get it…?), they are a very big deal. Thermal imaging helps us see this clearly.

Further Complication

In addition to no real standardization of installation and resulting thermal intrusion and potentially moisture issues (for our immediate market), we would naturally need to worry about moisture issues anyhow. The biggest potential issue for unvented conditioned attics is moisture. Per this article by Joseph Lstiburek and Building Science Corporation, moisture is the most pernicious concern for unvented conditioned attics. Why is this so complicated?

Well, if it’s a new home, then there is moisture from the building materials. If it is an existing home, there is moisture (in our market) from deficiencies related to poor water management and indoor air quality. And then there’s our subtropical environment that tends to be hot, wet, and humid. This is why some building science folks argue for use of high density closed cell spray foam only — it blocks moisture getting to the roof sheathing/decking a bit better (when properly installed). But, it carries it’s own pitfalls.

So What’s To Say

In the end, I put my money where Lstiburek puts his decades of experience and knowledge — the man is a compendium of building science experience and testing. So, if you ask me I will tell you low density open cell spray foam is acceptable when properly installed. The problem, as this photo from a recent new build shows, is installation. Now, this particular home has an in-line dehumidifier in the basement which should help. I recommended further monitoring via hygrometer installation in the attic as close to the ridge line as possible. If the moisture loads are noted to be beyond ideal percentages, then the client can manage the unvented conditioned attic space in one of several ways. Lstiburek’s recommendation for balanced ventilation would be sweet to see, but in our region I suspect it might be too complicated for many professionals to get right without causing more harm. FYI, that article also has great information on walling and basement configurations, too. If that kind of thing tickles your fancy.

Sorry You Got Lost :)

If you stumbled your way here, I’m sorry. But, not sorry. You should know I color myself humbled in relation to others in my profession. The thing about building science is there is always a new way to “see” something and always someone else who can “show” you something new to see.

While home performance testing is pretty straight forward, there is guess work involved and it isn’t always a hard science. Additionally, some of the set standards referenced in the industry don’t necessary have a poignant or purposeful origin. Home diagnostic testing becomes even less “hard science” as often you have to look at the system as a whole in order to find the chink in the armor. Yes, there are common and routine causes and known issues. But, each structure can be unique and so needs to be “seen” in a unique, open-minded manner that fits the client’s requested solution(s).

Let’s Have An Example

As an example, indoor air testing has been all the rage in recent years. There are oodles of products available on the marketplace for home owners, as wells as professionals. However, when we get a call for “mold” testing, I feel we have a responsibility to not just sell someone on a test to make money. The truth is, sometimes air testing is relevant and helpful to determine a particular contaminant. The bigger picture, however, is listening to what’s really being asked and then have a conversation regarding spending time reviewing structure systems to determine a deficiency and/or cause. In then end, does it matter knowing what’s in the air specifically for hundreds of dollars (the tests we use cost between $200 and $350 just for the test), or could we do other diagnostic work (that’s fancy speak for using our education, experience, and some shiny tools) and come away with a list for guiding repairs and/or modifications (read — resolution)? All a test will tell you is what you have in the air, and there are no agreed upon standards for concentrations, limits, or significance. And let’s not get into the quandary of knowing lab standards and practices…

Ruminate For Action

In the end, what you may need for your structure — be it commercial, or residential, or hunting cabin, or storm shelter — isn’t necessarily every test in the world thrown at it. Sometimes, the best answer may start with knowing how to ask “why?” Why is this happening? That’s what TNergy Services does for you and that’s where we start. Sometimes, you literally need a blower door test (new homes, e.g.); sometimes a blower door would be silly to perform when what you need is a site assessment to identify system deficiencies causing water (usually always water) related issues. We’re really good listeners. We’re really happy thinkers. We’re pretty good communicators. Give us a ring and let’s see how we can help make your home/business perform and “feel” better.