For decades, CU Engineering alumnus Mike Scofield (MechEngr鈥60) has focused on developing and selling heating, ventilation, and air conditioning systems that contribute to more comfortable indoor environments.
In the face of the COVID-19 pandemic, that focus has shifted to place a greater emphasis not just on individuals鈥 comfort but also on their health.
As scientists continue exploring how the virus is transmitted through airborne particles, Scofield is among the engineers looking for ways to address public health concerns inherent in our built environment. He is particularly interested in the role that humidity plays in the spread of illness 鈥 and in promoting HVAC systems that can keep buildings in the moisture 鈥渟weet spot.鈥
鈥淏eing a salesman, it鈥檚 hard for me to not expand the truth to make my argument look better,鈥 Scofield joked. 鈥淏ut the fact is that this COVID-19 thing is making my message more important now.鈥
What the science says
Several studies have concluded that keeping relative humidity between 40% and 60% indoors may have positive health effects.
As buildings are ventilated to meet code requirements, low moisture content in the outdoor air also results in dryer air indoors.
When a sick person coughs or sneezes, droplets containing virus particles are expelled; this infectious aerosol remains buoyant and can then infect others. Transmission is especially easy when indoor air humidity is low. And for reasons not fully understood, many viruses become more powerful at low room humidity.
Dry indoor conditions also dry out mucous membranes in the respiratory tract that help 鈥渃atch鈥 viruses entering the body.听
Humans will sense low indoor humidity conditions through static cling, frequent nosebleeds, or static shock when touching light switches or elevator buttons.
On the flip side, high humidity can result in mold growth, with its own bevy of negative health effects.
How HVAC systems play a role
As a result, Scofield is an advocate for adiabatic cooling systems, which reduce energy costs compared to refrigeration cooling systems and have the advantage of introducing humidity while cooling the air.
Unlike conventional mechanical cooling, adiabatic systems allow warm outside air to pass through a water-saturated pad as part of the evaporative cooling process. They require far less energy and can offer significant cost savings. For decades, Scofield has been pitching this alternative HVAC system to schools and businesses across Colorado and other dry climates.听
But adiabatic cooling doesn鈥檛 have universal support within the HVAC field. Downsides include increased potable water consumption and additional maintenance costs.
Many argue that any HVAC system that introduces humidity into a building should be avoided, as it increases the possibility of bacteria and mold growth. Unmonitored, such growth can lead to harmful infections like Legionnaires鈥 disease. (Scofield argues that adiabatic systems receive unfair blame for such outbreaks; in a properly sized and maintained system, nothing but water vapor should leave the wetted pad.)
With the dawn of the COVID-19 pandemic 鈥 and the increased need for infection control --Scofield argues that such systems are worth a closer look.
Over the last three years he鈥檚 begun working with Dr. Stephanie Taylor, a Harvard Medical School graduate who also holds a master鈥檚 degree in architectural engineering. She鈥檚 among the scientists for minimum humidity levels in public buildings.听
Together they鈥檝e written in the ASHRAE Journal in which they suggest that hitting the humidity sweet spot of 40-60% could result in tangible health benefits 鈥 even though the average person can鈥檛 sense the difference.
鈥淭here is a penalty to pay when you let room relative humidity drop below 40%,鈥 Scofield said. 鈥淚t鈥檚 in short-term sick leave increases, it鈥檚 in reduction of student learning capacity, in productivity of the worker. These are things that show up in a building owner鈥檚 cost that aren鈥檛 sensed by his nose or anything else.鈥
Getting his start at CU 麻豆影院
With a career that spans six decades, keeping up with developments in the field is par for the course for Scofield.
He was introduced to the HVAC field at CU 麻豆影院 in the late 1950s thanks to a thermodynamics class with Professor Woodsome.听
鈥淗e gave me a reference book that I still have to this day and still use,鈥 Scofield said.听
He also earned a degree in business administration from CU 麻豆影院, which proved useful in his career as well.听
After working in sales roles for several companies, Scofield moved to Evergreen and operated his own boutique sales firm, Conservation Mechanical Systems, from 1974-85 before joining CFM Co. for seven years.
He later returned to self-employment in 1992 and moved to Sebastapol, California, where he lives now. His sister also attended CU 麻豆影院, as well as his niece. Now his grandson, Kyle Scofield, studies astronomy at the university and is a member of the football team.
As a licensed professional engineer as well as a fellow/life member of ASHRAE, the American Society of Heating, Refrigerating and Air-Conditioning Engineers, he has remained a lifelong learner throughout his career.听
And in the last year, Scofield has once again observed how unexpected factors 鈥 like a global pandemic 鈥 require new approaches and new partnerships to engineer solutions for the good of society.
鈥淲e haven鈥檛, up until now, had to worry about a pandemic, so now we鈥檙e getting a quick learn from people like Stephanie Taylor,鈥 he said. 鈥淭hank God they鈥檙e willing to contribute their knowledge to our HVAC industry, because we鈥檇 never have gotten out of this pandemic without them.鈥