Compare the highest-rated hvac professionals in New London, Minnesota. All contractors are licensed, insured, and verified through our rigorous screening process.
Family-owned HVAC specialist serving New London and the surrounding lakes area since 1998. Expert in high-efficiency furnace installations crucial for Minnesota winters and AC systems designed for humid summers. Offers comprehensive maintenance plans to protect systems in extreme temperature swings.
Local HVAC contractor known for exceptional repair services and energy efficiency upgrades. Specializes in helping homeowners navigate Minnesota's extreme seasonal transitions with systems that optimize both heating performance and cooling efficiency. Strong partnerships with Trane and Lennox.
Full-service provider focusing on both residential and light commercial HVAC systems. Particularly skilled in furnace repair and replacement, addressing common cold-weather issues like heat exchanger failures. Offers 24/7 emergency response with quick arrival times throughout the New London area.
New London's HVAC market is characterized by high demand for reliable heating systems due to harsh Minnesota winters with temperatures frequently below freezing, coupled with humid summers that require effective AC. The local climate creates seasonal spikes in service demands—furnace emergencies in winter (Dec-Feb) and AC failures during summer humidity peaks (Jul-Aug). Energy efficiency is a significant concern for homeowners facing extreme temperature swings. Most reputable providers service the broader Kandiyohi County area, with population density centered around the chain of lakes.
4.7+ star average from verified customer reviews
All contractors are properly licensed and insured
10+ years average experience in the industry
Familiar with New London regulations and climate
Get answers to common questions about hvac services in New London, Minnesota.
For furnace replacement, late summer or early fall (August-September) is ideal, as local HVAC companies are less busy than during the first cold snap. For air conditioner replacement, aim for spring or early fall (April-May or September-October) to avoid the peak summer demand. Scheduling during these shoulder seasons in Minnesota ensures better availability, potential off-season discounts, and prevents emergency breakdowns during extreme weather.
Our Minnesota winters are long and harsh, making furnace efficiency and reliability paramount. We strongly recommend high-efficiency (90%+ AFUE) furnaces to combat high heating bills. Given our humid summers, a properly sized air conditioner or heat pump with good dehumidification capabilities is also crucial. For year-round comfort and efficiency, consider a dual-fuel system pairing a heat pump with a gas furnace, which is an excellent choice for our specific climate.
Yes, homeowners should check for incentives from both the federal government and local utilities. Federally, tax credits are available for qualifying high-efficiency heat pumps, furnaces, and air conditioners. Locally, check with providers like Xcel Energy or Minnesota Valley Electric Cooperative for potential rebates on ENERGY STAR® certified equipment, which can significantly offset the upfront cost of a new, efficient system.
Prioritize contractors who are locally owned, licensed, insured, and have a strong reputation in the community. Look for specific experience with Minnesota's climate challenges, such as servicing furnaces in sub-zero temperatures. Check for affiliations with the Minnesota HVAC Association (MHA), read local reviews, and ask for references from neighbors to ensure they provide reliable, year-round service and emergency support.
During extreme Minnesota cold spells (common in January and February), it's normal for your furnace to run longer cycles to maintain your set temperature. However, if it's running non-stop and still not heating adequately, it could indicate issues like a dirty filter, failing component, or that the system is undersized for our climate. Have a local professional perform a diagnostic, as continuous strain during deep cold can lead to a costly failure.