Compare the highest-rated hvac professionals in OKC, Oklahoma. All contractors are licensed, insured, and verified through our rigorous screening process.
A premier, family-owned HVAC contractor specializing in high-efficiency system installations and complex repairs. Known for their expertise in handling Oklahoma's extreme temperature swings, from humid summers to cold winters. They are a Carrier Factory Authorized Dealer and prioritize ongoing technician training.
A highly-rated provider known for its exceptional customer service and comprehensive maintenance plans. They offer a strong focus on improving indoor air quality, which is crucial for OKC's allergy season. Their technicians are NATE-certified and specialize in both residential and light commercial systems.
A reliable, full-service company offering integrated HVAC and plumbing services. They are a local favorite for emergency repairs and system replacements, with a large fleet of trucks to ensure quick response times across the metro. They work with Trane and Lennox equipment and offer straightforward, upfront pricing.
The Oklahoma City HVAC market is robust and highly competitive, driven by a continental climate with very hot, humid summers (often exceeding 95°F) and cold winters that can dip below freezing. This creates year-round demand for reliable heating and cooling, with peak service requests during the summer AC season and winter furnace startups. Energy efficiency is a major concern for homeowners due to high summer cooling costs. Reputable local contractors must be adept at servicing a wide range of systems, from traditional forced-air furnaces and central AC to heat pumps gaining popularity for their efficiency in the shoulder seasons.
4.7+ star average from verified customer reviews
All contractors are properly licensed and insured
10+ years average experience in the industry
Familiar with OKC regulations and climate
Get answers to common questions about hvac services in OKC, Oklahoma.
For a full system replacement (air conditioner and furnace) in OKC, homeowners can expect a typical range of $6,500 to $12,000+, depending heavily on system size (measured in tons for cooling), efficiency rating (SEER2 for AC, AFUE for furnace), and home complexity. Oklahoma's extreme summer heat often necessitates properly sized, robust systems, which can influence the final cost. Always obtain multiple detailed, written estimates that include the specific equipment model numbers.
The optimal times are during the mild shoulder seasons: early spring (March-April) before the intense summer heat arrives, and early fall (September-October) after the cooling season winds down. Scheduling during these windows ensures greater technician availability, often shorter wait times, and allows you to proactively address any issues before the 100+ degree summer or potential winter freeze, which are critical for Oklahoma's climate.
While Oklahoma has no statewide HVAC licensing, reputable contractors in OKC must hold a City of Oklahoma City Mechanical Contractor license. For rebates, always check with local utilities like OG&E and Oklahoma Natural Gas, as they frequently offer seasonal rebates for upgrading to high-efficiency equipment. There are no state tax credits, but federal tax credits for qualifying high-efficiency systems may apply.
Look for a locally established company with a valid City of OKC Mechanical license, proper insurance, and positive reviews on multiple platforms. Ask for references in your specific area, as they will understand local challenges like our clay soil affecting slab foundations and ductwork. A trustworthy contractor will perform a Manual J load calculation specific to your home's construction and Oklahoma's climate, not just match the old system's size.
This is a common issue during OKC's extended periods of 95°F+ temperatures. While some strain is normal, constant running often indicates an undersized system, low refrigerant levels, a dirty condenser coil (clogged with cottonwood seeds or grass), or insufficient attic insulation. Have a professional evaluate the system's charge, airflow, and capacity, as running non-stop under extreme load can lead to a costly compressor failure.