Find Us At

2524 Alpine Rd #A
Eau Claire, WI 54703

Call Us At

+1 715-514-0945

Business Hours

Open 24 hours

Top Rated AC & Heating Experts for ac Altoona, WI. Call +1 715-514-0945. 24 Hour Calls. Guaranteed Services – Low Prices.

What We Do?

Residential
HVAC Service

Are you looking for residential heating and cooling services that are centered on complete home comfort solutions? The professionals at Hurlburt Heating & Plumbing sell, install, and repair HVAC units of all makes and models. Get in touch with us today!

Commercial
HVAC Service

Commercial heating and cooling maintenance and repairs are inevitable. At Hurlburt Heating & Plumbing, we deliver an extensive variety of heating as well as cooling support services to meet every one of your commercial HVAC installation, replacement, repair, and maintenance requirements.

Emergency
HVAC Service

Emergencies may and definitely do happen, when they do, rest assured that our experts will be there for you! Hurlburt Heating & Plumbing can provide emergency support at any time of the day or night. Never hesitate to call us the minute an emergency happens!

24 Hour Service

We offer HVAC services 24 hours a day, 7 days a week, 365 days a year. Among our countless service options guarantees that your comfort demands are fulfilled within your timespan and also even your trickiest heating or air conditioner issues will be resolved today. Your time is valuable– and our experts will never keep you waiting!

25 YEARS EXPERIENCE

With over two decades of experience bringing our client’s total satisfaction, Hurlburt Heating & Plumbing is a premier provider of HVAC services. Serving residential properties and businesses throughout , we complete routine servicing, repairs as well as new installations customized to your needs and budget guidelines.

Testimonials

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Hurlburt Heating & Plumbing

2524 Alpine Rd #A, Eau Claire, WI 54703, United States

Telephone

+1 715-514-0945

Hours

Open 24 hours

More About Altoona, WI

Altoona is a city in Eau Claire County, Wisconsin, United States. The population was 6,706 at the 2010 census,[4] with an estimated population in 2018 of 7,794.[8] The city is a railroad terminal on the Union Pacific Railroad.

The settlement of Altoona began in 1881 when the Chicago, St. Paul, Minneapolis and Omaha Railway selected the site for a new terminal to replace the overcrowded existing terminal in Eau Claire. The railroad had originally planned to put the new terminal in Fall Creek, but the city of Eau Claire lobbied for a site closer to the existing one, and representatives from Eau Claire and the railroad walked the tracks from Fall Creek to Eau Claire to determine a suitable site. When the location of present-day Altoona – approximately three miles east of the existing Eau Claire terminal – was found to have sufficient flat land and access to water (via the Eau Claire River), the railroad began construction of the new terminal and the community of “East Eau Claire” was platted in October.

Several developments within this time frame preceded the beginnings of very first comfort air conditioning system, which was developed in 1902 by Alfred Wolff (Cooper, 2003) for the New York Stock Exchange, while Willis Carrier equipped the Sacketts-Wilhems Printing Company with the process Air Conditioning unit the exact same year. Coyne College was the very first school to use HEATING AND COOLING training in 1899.

Heating units are home appliances whose purpose is to generate heat (i.e. warmth) for the structure. This can be done by means of central heating. Such a system consists of a boiler, furnace, or heat pump to heat water, steam, or air in a main place such as a furnace room in a house, or a mechanical space in a big building.

Heating units exist for various kinds of fuel, including solid fuels, liquids, and gases. Another type of heat source is electrical power, usually heating up ribbons made up of high resistance wire (see Nichrome). This principle is likewise used for baseboard heating systems and portable heaters. Electrical heating systems are frequently used as backup or extra heat for heatpump systems.

Heatpump can draw out heat from various sources, such as ecological air, exhaust air from a structure, or from the ground. Heatpump transfer heat from outside the structure into the air inside. At first, heat pump HEATING AND COOLING systems were just used in moderate environments, but with enhancements in low temperature level operation and minimized loads due to more effective homes, they are increasing in popularity in cooler climates.

Most modern-day warm water boiler heating unit have a circulator, which is a pump, to move warm water through the circulation system (as opposed to older gravity-fed systems). The heat can be moved to the surrounding air using radiators, warm water coils (hydro-air), or other heat exchangers. The radiators might be mounted on walls or set up within the flooring to produce flooring heat.

The heated water can also supply an auxiliary heat exchanger to provide warm water for bathing and washing. Warm air systems distribute heated air through duct systems of supply and return air through metal or fiberglass ducts. Many systems use the very same ducts to disperse air cooled by an evaporator coil for cooling.

Incomplete combustion happens when there is insufficient oxygen; the inputs are fuels including various impurities and the outputs are damaging by-products, the majority of dangerously carbon monoxide, which is a tasteless and odor-free gas with severe adverse health impacts. Without proper ventilation, carbon monoxide gas can be deadly at concentrations of 1000 ppm (0.1%).

Carbon monoxide gas binds with hemoglobin in the blood, forming carboxyhemoglobin, lowering the blood’s capability to transport oxygen. The main health issues associated with carbon monoxide exposure are its cardiovascular and neurobehavioral impacts. Carbon monoxide gas can cause atherosclerosis (the hardening of arteries) and can likewise activate cardiac arrest. Neurologically, carbon monoxide gas direct exposure minimizes hand to eye coordination, vigilance, and continuous performance.

Ventilation is the procedure of altering or changing air in any space to manage temperature or remove any mix of wetness, smells, smoke, heat, dust, airborne germs, or carbon dioxide, and to renew oxygen. Ventilation includes both the exchange of air with the outside as well as circulation of air within the structure.

Methods for aerating a structure may be divided into mechanical/forced and natural types. HVAC ventilation exhaust for a 12-story building Mechanical, or required, ventilation is offered by an air handler (AHU) and used to control indoor air quality. Excess humidity, odors, and impurities can often be managed by means of dilution or replacement with outside air.

Cooking areas and restrooms generally have mechanical exhausts to control odors and often humidity. Consider the design of such systems include the flow rate (which is a function of the fan speed and exhaust vent size) and noise level. Direct drive fans are readily available for numerous applications, and can decrease upkeep requirements.

Due to the fact that hot air rises, ceiling fans may be used to keep a room warmer in the winter season by flowing the warm stratified air from the ceiling to the floor. Natural ventilation is the ventilation of a structure with outside air without using fans or other mechanical systems. It can be by means of operable windows, louvers, or drip vents when spaces are little and the architecture permits.

Natural ventilation schemes can use really little energy, but care must be taken to make sure convenience. In warm or damp climates, preserving thermal convenience entirely through natural ventilation might not be possible. Cooling systems are utilized, either as backups or supplements. Air-side economizers likewise use outside air to condition spaces, but do so using fans, ducts, dampers, and control systems to present and disperse cool outdoor air when proper.

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