Compare the highest-rated hvac professionals in Clarkston, Washington. All contractors are licensed, insured, and verified through our rigorous screening process.
Family-owned HVAC specialist serving the Clarkston area since 1998. Experts in high-efficiency heat pump installations tailored to the region's hot summers and cold winters. Full-service provider from maintenance plans to complex ductwork design and emergency repairs.
NATE-certified technicians specializing in both residential and light commercial HVAC systems. Known for expertise in furnace installation and repair, particularly important for Clarkston's cold winters. Offers comprehensive maintenance plans to improve system longevity in dusty, semi-arid conditions.
Local HVAC contractor with strong focus on energy-efficient system upgrades and retrofits. Specializes in helping homeowners navigate utility rebates for high-efficiency systems. Provides excellent duct cleaning and sealing services to address the area's dust and allergen challenges.
Clarkston's semi-arid climate with hot summers (average highs 90°F+) and cold winters (average lows 30°F) creates significant year-round HVAC demand. The dusty environment and seasonal temperature extremes require robust systems and regular maintenance. Most providers emphasize dual expertise in both cooling and heating, with growing focus on heat pumps and energy efficiency due to rising energy costs. Emergency services are particularly valued during winter cold snaps and summer heat waves.
4.7+ star average from verified customer reviews
All contractors are properly licensed and insured
10+ years average experience in the industry
Familiar with Clarkston regulations and climate
Get answers to common questions about hvac services in Clarkston, Washington.
The ideal times are early spring (March-April) for your cooling system and early fall (September-October) for your heating system. This schedule aligns with Clarkston's distinct seasons, preparing your AC for the hot, dry summers that can exceed 90°F and your furnace for the chilly winters that occasionally dip below freezing. Scheduling during these shoulder seasons ensures you avoid the peak service rush and potential wait times.
Yes, Clarkston's semi-arid climate with hot summers and cold winters requires a system capable of handling significant temperature swings. Proper humidity control is also important; while the air is often dry, ensuring your system correctly manages humidity can improve comfort. Furthermore, considering the area's occasional high winds and dust, regular filter changes and ensuring your outdoor condenser unit is kept clean are crucial for system longevity and efficiency.
For a standard efficiency, properly sized system, homeowners can expect a range of $5,000 to $12,000+ for a full system replacement, depending on the unit's efficiency rating (SEER/HSPF), brand, and complexity of the installation. Washington state sales tax applies, and while there are no specific local Clarkston taxes on HVAC, you should inquire about current federal tax credits or rebates from local utilities like Avista for installing high-efficiency equipment, which can offset the initial cost.
Always verify the contractor is licensed, bonded, and insured in Washington State. Look for established local companies with strong community reputations, as they understand the specific installation challenges of our valley homes, including older foundations and ductwork. Check for North American Technician Excellence (NATE) certification and always ask for detailed, written estimates that include a Manual J load calculation to ensure proper sizing for your home.
This is a common concern in Clarkston, where winter temperatures can fall into the 20s. Standard air-source heat pumps lose efficiency as outdoor temps drop below freezing. It is normal for the system to use its built-in auxiliary electric heat strips during these periods, which increases energy use. For better cold-weather performance, discuss options with a local pro, such as upgrading to a modern cold-climate heat pump model or ensuring your existing system's auxiliary heat and defrost cycle are functioning correctly.