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Dans votre communauté

Expert en toiture : Gary Pierson change des vies grâce à la GAF Roofing Academy

By Karen L Edwards

26 octobre 2023

GAF Roofing Academy Instructor Gary Pierson grabs a pack of GAF roofing shingles while on a house.

Quand on cherche à s'impliquer, un coup de main peut faire toute la différence. Face à une telle multitude d'options et de possibilités, les travailleurs ayant du mal à choisir quelles compétences développer peuvent profiter des conseils de mentors expérimentés et de vétérans de l'industrie.

That's exactly the role Gary Pierson, a senior instructor with GAF Roofing Academy, knows he was meant to play. His position allows him to educate others and give back to people who remind him of himself when he was younger.

"I had a typical background of [many] youth who are not destined for college," Gary explains. "I had a little too much energy for most environments and ended up getting into a little bit of trouble." He found himself working in construction and discovered that roofing was a good fit for his energy level and "lack of fear."

Gary excelled in the industry, working in numerous exterior construction roles including roofing, siding, windows, and doors. He says that in construction, he found a way to challenge himself, and it showed. "I went from laborer to crew leader to subcontractor and then started my own business by the age of 26," Gary shares.

Finding Fulfillment Helping Others

Unfortunately, the 2008 recession affected Gary's business. He found himself back at his previous job where he was a crew leader, but that company was struggling as well. It was a challenging time that left him feeling unfulfilled.

After talking with his wife, Gary learned a friend of hers was connected to Habitat for Humanity and began looking for ways to get involved with the nonprofit. He eventually became a construction manager, and while it was a pay cut for him, the benefits he reaped have changed his life.

"What I lacked in extra income, I made up with more time with family and got a sense of community again," Gary says. "I've lived in this town my whole life. So, I got to build homes for people I went to high school with, people that I've met through social networking, and knowing who I'm building for and seeing the changes they made in their life really made me a better father and husband."

During his seven-year tenure at Habitat for Humanity, he took the organization from building one to two homes a year to 10 to 12 homes a year, ultimately building 57 homes in a community of 80 000 people.

Gary Pierson instructing GAF volunteers

Connecting with GAF

Gary knew GAF donated roofing materials for the Habitat for Humanity homes, but it wasn't until he volunteered for a Jimmy and Rosalynn Carter Work Project (Carter Work Project) event in 2018 that he met GAF team members.

On the jobsite, Gary noticed many of the volunteers were excited and eager to learn about roofing. Before the day's work began, Gary stepped up to teach them the basics of the trade, helping ensure the roofs would be properly installed and provide years of protection for the homes.

It was then that Gary learned GAF was hiring trainers for its CARE program. He says he was surprised to learn such a job existed, but he was happy and fulfilled with his work for Habitat for Humanity. A few months later, Erick Osuna, an operations manager at the GAF Roofing Academy, reached out to Gary. After learning the academy would be teaching at-risk youth, previously incarcerated individuals, and military veterans, Gary jumped at the opportunity.

Gary Pierson holds a roofing shingle as he educates volunteers

Changing Lives One Student (and Instructor) at a Time

As one of the first team members hired to teach in the GAF Roofing Academy, Gary participated in developing the program. Four successful years later, he's as invested as ever.

Gary stays in touch with his students after they complete the academy and says there's a "beacon of light" in each of his classes. He notes that one of his most memorable students is Demetris Purnell, whose profile video he shares with each new class. "Demetris was one of my students that I met who was previously incarcerated, and he didn't really have a whole lot of hope or feel that there were opportunities available for him," Gary recalls. "Just seeing him taking a shot and how successful he is now is impactful."

Many students' stories are just like Demetris'—students whose lives were changed by participating in the GAF Roofing Academy. For instance, Roz Jones says the experience helped her build confidence in herself. Shakyra Worley shares the course was meaningful to her because she learned a skill she can turn into a rewarding career.

Gary Pierson stands on a roof while a volunteer climbs a ladder

Gary says making a meaningful impact on his students' lives gives him a feeling of fulfillment every day-but he's quick to note that it's because of the individuals behind the GAF Roofing Academy. "None of this would be possible without the team that we have," he notes. "We have a dynamic team where everybody has something unique that they bring to the table. And I've learned just as much from my peers as I have from the leaders on the team."

Paying It Forward

Because of the commitment GAF makes to communities through its Community Matters initiative, Gary is still able to volunteer for the causes that are dear to him, including Habitat for Humanity and the Carter Work Project, among others.

Curious to learn more about the GAF Roofing Academy and the success its graduates have found? The commercial and residential roofing industry is booming, with demand for 19 000 new jobs expected by 2028, and now is the perfect time to begin a career in roofing with the GAF Roofing Academy. Explore all that the program has to offer, and see how you can get started by visiting the GAF Roofing Academy website.

About the Author

Karen est une rédactrice indépendante pour le secteur de la construction et sa passion pour les toitures l'a motivée au cours de ses 20 ans de travail dans le secteur.

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And, unlike the discretionary nature of some flights and the often optional decision to use furnishings like wallpaper, heating and cooling are necessary for the functioning of almost all occupied buildings.Based on this example, you can consider building products with operational benefits, like insulation, as an "investment." It is appropriate to look at improving the building enclosure and understanding what the return on the investment is from a carbon perspective. As the comparison above demonstrates, if you have a limited supply of carbon to "invest", putting it into more roof insulation is a very smart move compared to "spending" it on a discretionary flight or on a product without use-phase carbon benefits, such as wallpaper.This means we should be careful not to measure products like insulation that save CO2e in the building use-phase savings only by their embodied carbon use, but by their total carbon profile. So, how do we calculate this?Putting It to the TestWe were curious to know just how much operational carbon roof insulation could save relative to the initial investment of embodied carbon required to include it in a building. To understand this, we modeled the US Department of Energy's (DOE) Standalone Retail Prototype Building located in Climate Zone 4A to comply with ASHRAE 90,1-2019 energy requirements. We took the insulation product's embodied energy and carbon data from the Polyisocyanurate Insulation Manufacturers Association's (PIMA) industry-wide environmental product declaration (EPD).To significantly reduce operational carbon, the largest carbon challenge facing buildings today, the returns on the investment of our building design strategies need to be consistent over time. This is where passive design strategies like building enclosure improvements really shine. They have much longer service lives than, for example, finish materials, leading to sustained returns.Specifically, we looked here at how our example building's roof insulation impacted both embodied and operational carbon and energy use. To do this, we calculated the cumulative carbon savings over the 75-year life of our model building. In our example, we assumed R-30 insulation installed at the outset, increased every 20 years by R-10, when the roof membrane is periodically replaced.In our analysis, the embodied CO2e associated with installing R-30 (shown by the brown curve in years -1 to 1), the embodied carbon of the additional R-10 of insulation added every 20 years (too small to show up in the graph), and the embodied carbon represented by end-of-life disposal (also too small to show up) are all taken into account. About five months after the building becomes operational, the embodied carbon investment of the roof insulation is dwarfed by the operational savings it provides. The initial and supplemental roof insulation ultimately saves a net of 705 metric tons of carbon over the life of the building.If you want to see more examples like the one above, check out PIMA's study, conducted by the consulting firm ICF. The research group looked at several DOE building prototypes across a range of climate zones, calculating how much carbon, energy, and money can be saved when roof insulation is upgraded from an existing baseline to current code compliance. Their results can be found here. Justin Koscher of PIMA also highlighted these savings, conveniently sorted by climate zone and building type, here.Support for Carbon Investment DecisionsSo how can you make sure you address both operational and embodied carbon when making "carbon investment" decisions? We've prepared a handy chart to help.First, when looking at lower-embodied-carbon substitutions for higher-embodied-carbon building materials or systems (moving from the upper-left red quadrant to the lower-left yellow quadrant in the chart), ensure that the alternatives you are considering have equivalent performance attributes in terms of resilience and longevity. If an alternative material or system has lower initial embodied carbon, but doesn't perform as well or last as long as the specified product, then it may not be a good carbon investment. Another consideration here is whether or not the embodied carbon of the alternative is released as emissions (i.e. as part of its raw material supply or manufacturing, or "cradle to gate" stages), or if it remains in the product throughout its useful life. In other words, can the alternative item be considered a carbon sink? If so, using it may be a good strategy.Next, determine if the alternative product or system can provide operational carbon savings, even if it has high embodied energy (upper-right yellow quadrant). If the alternative has positive operational carbon impacts over a long period, don't sacrifice operational carbon savings for the sake of avoiding an initial embodied product carbon investment when justified for strategic reasons.Last, if a product has high operational carbon savings and relatively low embodied carbon (lower-right green quadrant), include more of this product in your designs. The polyiso roof insulation in our example above fits into this category. You can utilize these carbon savings to offset the carbon use in other areas of the design, like aesthetic finishes, where the decision to use the product may be discretionary but desired.When designing buildings, we need to consider the whole picture, looking at building products' embodied carbon as a potential investment yielding improved operational and performance outcomes. Our design choices and product selection can have a significant impact on total carbon targets for the buildings we envision, build, and operate.Click these links to learn more about GAF's and Siplast's insulation solutions. Please also visit our design professional and architect resources page for guide specifications, details, innovative green building materials, continuing education, and expert guidance.We presented the findings in this blog in a presentation called "Carbon and Energy Impacts of Roof Insulation: The Whole[-Life] Story" given at the BEST6 Conference on March 19, 2024 in Austin, Texas.References:Architecture 2030. (2019). New Buildings: Embodied Carbon. https://web.archive.org/web/20190801031738/https://architecture2030.org/new-buildings-embodied/ Carbon Leadership Forum. (2023, April 2). 1 - Embodied Carbon 101. https://carbonleadershipforum.org/embodied-carbon-101/

By Authors Elizabeth Grant

Le 18 septembre 2024

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