What if we handled the water treatment for our pools like we handle the indoor air quality for our homes\/buildings?<\/p>\n
This may sound like a ridiculous analogy, but it really isn\u2019t. Both the pool water and the air in our buildings are fluids that we immerse ourselves in.\u00a0 Improper treatment of either can negatively affect our health.\u00a0 Both fluids have suspended solids or particles that must be filtered out, and both have chemical \/ mineral \/ pathogen contaminants that must be dealt with. However, the treatment approaches to these two fluids are vastly different.\u00a0 The purpose here is to highlight a scientific, results oriented, sustainable approach versus an unscientific approach that produces considerable waste with lackluster results.\u00a0 We will discuss some of the reasons why these approaches are different at the end of this analogy.\u00a0 But first, let us pretend that we are required to treat our pool water like our indoor air to achieve what is believed to be a healthy and effective approach.<\/p>\n
First off, we have to address the chemical, mineral and pathogen contaminants. These contaminants enter the pool from the original water source, they build up in the water from the pool occupants and materials introduced into the pool, and they enter from other sources in the surrounding environment.<\/p>\n
To treat these contaminants in the water of the pool as we would our indoor air, we are going to replace the entire volume of water in the pool at least .35 to 1 time every hour at minimum.\u00a0 The water in the pool will be dumped down the drain to prevent the concentration of chemical \/ mineral \/ pathogen contaminants.\u00a0 The magnitude of the wastefulness of this approach is blatantly obvious to everyone when considering this methodology and what we know of modern pool treatment capabilities.\u00a0 But most of us do not see the equivalent wastefulness when this approach is applied to the air in our buildings.<\/p>\n
Back to the pool analogy.\u00a0 What EXACTLY are we going to dilute our chemical, mineral, and pathogen contaminated pool water with?\u00a0 Mimicking the requirements of ventilation for indoor air which calls for outdoor air being introduced at a specific rate; the pool will require \u201coutdoor water\u201d. \u00a0We will need to assume that all \u201coutdoor water\u201d is fresh and clean and adequate for our pools, just like we do with outdoor air for ventilation.\u00a0 This is obviously challenging to the mind as it relates to water, as \u201cJane Doe\u201d may have access to a mountain stream at her house to fill her pool but \u201cJim Smith\u201d may only have a swamp at his disposal.\u00a0 However, as long as there is no roof over the top of the stream or the swamp, and no walls surrounding them, they both classify as \u201coutdoor water\u201d and are approved for use for purposes of improved pool water quality.<\/p>\n
How about all that particulate that is coming from Jim\u2019s swamp water (a.k.a. Jim\u2019s outdoor water)?\u00a0 This is going to require a significant upgrade to the pool sand filter and pump.\u00a0 You\u2019ll need many more turnovers to keep that pool sparkling, and you\u2019ll need to do quite a bit more backwashing of the sand filter that is accumulating substantially more loading (which will pour even more water down the drain).\u00a0 This means larger capital expenses for higher capacity equipment to filter the pool, and substantially more operating costs in the way of energy to power that pump.<\/p>\n
Next, we have to ensure that the pool is comfortable for the swimmers, just like we want the air in our buildings to be comfortable. \u00a0Nobody is going to enjoy jumping into a 50F pool. \u00a0Outdoor water in most cases is going to be much colder than the ~ 80F we find comfortable for swimming. And with the volume and rate of new outdoor water being brought in to keep our pools up to code, the standard size pool heater you are used to seeing is NOT going to cut it any longer.\u00a0 Maintaining an 80-degree water temperature in our pool while we replace all the water once an hour will be HIGHLY challenging, especially for Jane Doe who is filling her pool with a frigid mountain stream, or for those using 45F to 50F degree ground water.\u00a0 To achieve the required comfort temperature, it will require significant, increased capital expense for a giant pool heater and pump and an upsized electrical feeder. Not to mention the increased daily costs of keeping the pool at 80F.\u00a0 Needless to say, the carbon footprint of your pool is getting out of hand.<\/p>\n
Now that we have gone through this analogy, what is the point I am trying to make?\u00a0 The point is we, as a society, have a much better understanding of water, water quality and water treatment methods.\u00a0 However, the same knowledge and understanding is not prevalent for air quality. We have gone through our water quality revolution.\u00a0 We understand what is good and bad in water.\u00a0 Very often we can see or smell the anomalies, and we are comfortable with the tools and application process used to remedy them. We all have Brita filters, R.O. water systems, and buy bottled water for drinking.\u00a0 Many of us won\u2019t drink \u201coutdoor water\u201d even when treated and sent to our household taps.\u00a0 And swimming pools have been around for a very long time. We know the importance of healthy water, and we know how to produce it.<\/p>\n
As for air quality?\u00a0 We have not had our air quality revolution. Not yet. In addition, you can\u2019t always see the things in the air that are bad for you.\u00a0 Many of us depend on primitive tools that are ineffective at comprehensive air treatment.\u00a0 The theories and methodologies used for indoor air quality improvement today date back to the mid to late 1800\u2019s with the discovery that allowing outdoor air into the home helps dilute smoke from fireplaces and bodily odors. Sure, we have played around with the amounts of air that should be introduced, but there has been little to no innovation or progress towards health and wellness outcomes insofar as indoor air quality since that time. \u00a0During the 70\u2019s and 80\u2019s when buildings were being built tighter and reduction of HVAC energy became paramount, we began seeing the health impacts of reduced indoor air quality.\u00a0 Was there an indoor air quality revolution then?\u00a0 There was not. It took a global pandemic and the discovery that viral pathogens could travel from person to person via airborne transmission to get the majority of us to open our eyes.\u00a0 Only when the masses recognized the problem and demanded action did the wheels of the indoor air quality revolution begin to turn.<\/p>\n
So here we are on the cusp of the indoor air quality revolution. \u00a0But facing us is more than a singular challenge.\u00a0 Not only must we achieve improvement of health and wellness in our indoor spaces, but also the health and wellness of our environment, and of our power transmission system.\u00a0 We have an energy crisis facing us, as we seek to lean more on renewable energy sources and reduce our dependence on fossil fuels. \u00a0Ending fossil fuel reliance is easy, as it can be done by mandate.\u00a0 However, providing for our energy needs while we figure out how to design and construct the renewable energy grid of the future?\u00a0 That\u2019s not so easy.\u00a0 Nevertheless, we are pushing forward with the initiative of electrifying our homes and buildings while bracing ourselves for EV adoption.\u00a0 We are facing a substantial electrical grid demand increase at a time when we are drawing down the major fuel sources that feed it.\u00a0 Something has got to give.\u00a0 There needs to be some sort of energy subtraction.<\/p>\n
This brings us full circle to our air versus water treatment analogy.\u00a0 HVAC represents the largest consumer of energy on our grid, and much of what determines that consumption is the way in which we ventilate the buildings (aka make the air \u201cclean\u201d).\u00a0 Ventilation has represented a large piece of the HVAC energy story even while achieving poor results.\u00a0 Yet, one of the prevailing theories on how we can achieve improved indoor air quality is to increase that ventilation rate even further.\u00a0 This would make the largest consumer of energy on our grid even LARGER at a time when we need reduction of demand, and reduction of emissions.\u00a0 The math does not work.<\/p>\n
Here is what most people don\u2019t know.\u00a0 They don\u2019t know that there are innovative tools out there that can allow us to treat air similar to how we treat water.\u00a0 We can clean the air instead of dumping it out.\u00a0 We can remove the airborne particles more effectively and in such a way that is compatible with existing HVAC systems. We can scrub the air of VOC\u2019s and odors with commercialized sorbent filtration technology that is similar to that which has been in use in submarines and space shuttles.\u00a0 We can mitigate airborne and surface pathogens with organic sanitizing air treatment technology that has been in successful use for decades.\u00a0 We can validate our air quality with user-friendly IAQ monitoring and trending products that have existed for many years.\u00a0 Our design engineers can use existing, approved mechanical codes to design new or retrofit building ventilation to reduce outdoor air dilution and provide cleaning instead.\u00a0 All of these tools pave the way for reducing the current costs of HVAC operation while simultaneously improving indoor air quality.\u00a0 We can achieve those health and wellness outcomes for our people and our environment.\u00a0 To do this, we must become familiar with the tools that exist to facilitate the execution of the indoor air quality revolution.\u00a0 And then, we need to be willing to do it, and not continue doing things \u201cthe way we have always done it\u201d.\u00a0 Change isn\u2019t easy.\u00a0 Especially when we are so good and efficient at doing things the way we are currently doing them.\u00a0 But the consumer, occupant, or client can move the revolution along by demanding better.\u00a0 The science is there, and the tools are there.\u00a0 We just need to take the first steps in the right direction.<\/p>\n
Written By Mark Miersen<\/strong> What if we handled the water treatment for our pools like we handle the indoor air quality for our homes\/buildings? This may sound like a ridiculous analogy, but it really isn\u2019t. Both the pool water and the air in our buildings are fluids that we immerse ourselves in.\u00a0 Improper treatment of either can negatively affect […]<\/p>\n","protected":false},"author":5,"featured_media":4271,"comment_status":"closed","ping_status":"closed","sticky":false,"template":"","format":"standard","meta":{"_acf_changed":false,"footnotes":""},"categories":[33],"tags":[],"class_list":["post-3607","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-blog-posts","last","even"],"acf":[],"_links":{"self":[{"href":"https:\/\/dev.mindutopia.com\/hedrick\/wp-json\/wp\/v2\/posts\/3607","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/dev.mindutopia.com\/hedrick\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/dev.mindutopia.com\/hedrick\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/dev.mindutopia.com\/hedrick\/wp-json\/wp\/v2\/users\/5"}],"replies":[{"embeddable":true,"href":"https:\/\/dev.mindutopia.com\/hedrick\/wp-json\/wp\/v2\/comments?post=3607"}],"version-history":[{"count":3,"href":"https:\/\/dev.mindutopia.com\/hedrick\/wp-json\/wp\/v2\/posts\/3607\/revisions"}],"predecessor-version":[{"id":3849,"href":"https:\/\/dev.mindutopia.com\/hedrick\/wp-json\/wp\/v2\/posts\/3607\/revisions\/3849"}],"wp:featuredmedia":[{"embeddable":true,"href":"https:\/\/dev.mindutopia.com\/hedrick\/wp-json\/wp\/v2\/media\/4271"}],"wp:attachment":[{"href":"https:\/\/dev.mindutopia.com\/hedrick\/wp-json\/wp\/v2\/media?parent=3607"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/dev.mindutopia.com\/hedrick\/wp-json\/wp\/v2\/categories?post=3607"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/dev.mindutopia.com\/hedrick\/wp-json\/wp\/v2\/tags?post=3607"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}
\nHedrick Associates<\/strong>
\nVice President of Business Development<\/strong><\/p>\n","protected":false},"excerpt":{"rendered":"