How Many Btu Is A 35 Ton Ac Unit? Find Out Now!

A 35-ton AC unit typically produces around 420,000 BTUs (British Thermal Units) of cooling power. This information is important for HVAC technicians, contractors, and engineers who need to accurately calculate and determine the cooling capacity required for a specific space.

In the world of air conditioning, where precision and efficiency are paramount, one question looms large: how many BTU is a 35-ton AC unit? The answer holds the key to unlocking the cooling power of these behemoth machines, and it’s a question that ignites the curiosity of HVAC technicians, contractors, and engineers alike. Picture this: a massive commercial or industrial space, suffocating in the sweltering heat.

The ambient temperature pushes the limits of human tolerance, threatening to stifle productivity and comfort. Enter the 35-ton AC unit, the colossal cooling solution designed to restore equilibrium in the most challenging environments.

But just how many BTU does it take to tame this heat monster? Understanding the BTU capacity of a 35-ton AC unit is crucial for professionals tasked with ensuring optimal cooling performance. In this article, we delve into the intricacies of BTU calculations, demystifying the math behind these cooling powerhouses, and equipping you with the knowledge to conquer any cooling challenge. Get ready to dive into the world of BTUs and unlock the secrets of the 35-ton AC unit – your gateway to unparalleled cooling prowess.

Bestseller No. 1

Goodman 3 TON 13.4 SEER2 Horizontal AC Only Packaged Unit (GPCH33641)

• Goodman GPC1436H41 Horizontal 3 Ton Packaged Air Conditioner
• Multi-Speed ECM 14 SEER
• Heating: 0 BTU 0 kW, Cooling: 35,600 BTU, 208/230 V, 1 Phase, 60 Hz
• Register your new Goodman unit for enhanced warranty coverage at no cost. Be confident with a 10-year unit replacement limited warranty and lifetime compressor limited warranty. To top it all off, Goodman offers a 10-year parts limited warranty that provides replacement part(s) for any part that is found to be defective due to workmanship or materials under normal use and maintenance.

$3,355.00

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Bestseller No. 2

Goodman 3 TON 13.4 SEER2 Horizontal AC Only Packaged Unit (GPCH33631)

• Discontinued

$3,355.00

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Bestseller No. 3

Goodman 2.5 TON 13.4 SEER2 R-32 AC Only System with Vertical coil (GLXS3BN3010 condenser and CAPTA3026B3 coil)

• Home Comfort Solution: Elevate your living with Goodman’s standout HVAC products. Merge the efficiency of the Goodman 2.5 Ton 13.4 SEER2 AC ONLY GLXS3BN3010 and the Goodman Vertical coil CAPTA3026B3. This duo forms the basis of a system, promising efficient cooling, consistent heating, and precision in temperature control, all crafted to deliver sustained performance over years. Note that you will need a furnace or blower to make this a complete system.
• Efficient and Reliable Cooling: Dive into a cooling experience with Goodman’s 2.5 Ton 13.4 SEER2 Single Stage AC GLXS3BN3010. Designed for user-friendliness, it includes service valves, gauge ports, and inspection points. Pre-charged for 15’ of tubing, it’s ready to ensure your home’s comfort. Couple its enduring build with a reassuring 10-year parts warranty, and you’re set for efficient and reliable cooling throughout the year.
• Upgrade Your HVAC System: Goodman’s Vertical Coil CAPTA3026B3 represents HVAC evolution. Constructed with corrosion-resistant aluminum, it boasts grooved tubing for better heat transfer. Rigorous helium pressure tests during its making vouch for its quality. This unit is tailored for versatile, long-standing cooling and heating needs.
• Versatile with Wide Compatibility: The AC unit stands out with its factory-installed filter drier, ensuring cleaner operation. Fully charged and ready for action, its design features secure performance optimization. The Vertical coil design streamlines airflow, fortifying its reliability and efficiency credentials.
• This system used R-32 refrigerant, which requires an R-32 leak detection system for safe operation, particularly when used with a furnace.

$2,687.00

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SaleBestseller No. 4

Goodman 3 TON 14.3 SEER2 R-32 AC Condenser (replaces GSXN403610 and GSX140361) (GLXS4BA3610)

• Energy-efficient compressor Factory-installed filter drier Copper tube/aluminum fin coil Service valves with sweat connections and easy-access gauge ports Contactor with lug connection Ground lug connection AHRI Certified; ETL Listed
• Installation type: Split System
• Noise level: 71.0 decibels
• Refrigerant: R-32
• Special feature: Fast Cooling

$2,309.00

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Bestseller No. 5

Goodman 3.5 Ton 15.2 SEER2 R32 Upflow/Downflow AC System with 80% AFUE 80,000 BTU Natural Gas Furnace GLXS4BA4210,CAPTA6030C3,GD9T800805CN

• AIM ACT and Montreal Protocol compliant R32 Refrigerant
• AC Unit with Natural Gas Heat, Furnace
• Fully charged for 15’ of tubing length
• Copper tube enhanced aluminum fin condenser coil
• AHRI Certified, ETL Listed

$5,319.00

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Bestseller No. 6

Goodman 2 TON 13.4 SEER2 R-32 AC Condenser (replaces GSXN3N2410 and GSX130241) (GLXS3BN2410)

• Due to Federal Guidelines and Restrictions this item cannot be sold in the following states: California, Nevada, New Mexico, Arizona, Texas, Oklahoma, Arkansas, Louisiana, Mississippi, Tennessee, Kentucky, Virginia, Maryland, Delaware, Alabama, Georgia, South Carolina, North Carolina, and Florida

$1,745.00

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Bestseller No. 7

Goodman 3 TON 14.3 SEER2 R-32 AC Condenser (replaces GSXN403610 and GSX140361) (GLXS4BA3610)

$2,284.00

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Bestseller No. 8

Goodman 4 Ton 14 SEER Heat Pump Package Unit

• This listing includes: Goodman 4 Ton 14 SEER Package Heat Pump Model: GPH1448H41
• This comes with a 10-year parts limited warranty provided it is installed by a qualified installer and registered online with 60 days of installation
• Accessories such as linesets, thermostats, Electric Heat Kits, sold separately
• Some climate districts in California require the collection of an environmental mitigation fee for certain gas furnaces, varying by district. If this furnace is being shipped to a climate district area, please contact us.

$4,354.57

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Bestseller No. 9

ACiQ 36,000 BTU Extreme Heat Inverter Central Unitary Ducted AC/Heating System | 3-Ton with 15kW Backup Heat Kit and 50′ Install Kit | High Efficiency Condenser & Air Handler | R-454B Refrigerant

• INVERTER TECHNOLOGY: The advanced inverter ductless air conditioner and heat pump adjusts power based on demand, providing precise temperature control, reduced energy consumption, and quieter operation for year-round comfort.
• EXTREME HEAT TECHNOLOGY: Delivers reliable warmth even in freezing conditions. Unlike traditional heat pumps that struggle below 30°F, this ac and heater combo unit provides full heating power at 0°F and keeps going strong down to -22°F.
• HEATING & COOLING: Enjoy powerful wall ac/hp performance with high energy efficiency, helping you stay comfortable while saving on energy bills.
• DURABILITY PERFORMANCE: The aluminum coil ensures long-lasting reliability, while fiberglass-free insulation boosts efficiency and reduces condensation.
• INSTALLATION KIT: The split unit AC and heat system includes a backup heat kit, a line set, a gauge electrical whip, a 60A non-fused disconnect switch, a WiFi thermostat, a surge protector, a CPS charging adapter, and a wall sleeve.

$5,477.00

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Bestseller No. 10

TOSOT 36,000 BTU Ducted Central Air Conditioner Heat Pump System, 3 Ton Inverter Split System AC with Energy Star, Originality Two-Stage Compressor, 35 Ft. Copper Line Set, Work in -22-130℉, 16 SEER2

• UltraCool & UltraHeat Technology: Unlike traditional gas furnaces that only offer heating, TOSOT APEX heat pump split air conditioner heats and cools efficiently in extreme conditions from -22℉ to 130℉, whether in hot states like Arizona or cold states like Michigan
• Self-Developed Compressor: Utilizes a triple-cylinder two-stage rotary compressor and enhanced vapor injection technology; optimizes low-temperature heating; maintains 100% heating capacity at -5℉ and 100% cooling performance at 115℉
• Cost-Saving Choice: Boasts ratings of up to 16 SEER2 and 9 HSPF2, surpassing the industry average; inverter technology provides up to 30% energy savings compared to non-inverter systems with the same SEER2 rating; qualifies for federal tax credits as an Energy Star-certified system
• Upgraded Condenser: The slim design takes up half the space of a gas furnace, fitting well in constricted areas like balconies or narrow side yards; side discharge design minimizes debris accumulation such as leaves and keeps noise levels below 58 dB
• High Static Pressure Design: The TOSOT unitary central AC adapts to actual static pressure, great for areas requiring long-distance airflow; meets the needs of various living spaces with eight adjustable fan speeds

$3,479.00

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I. Understanding BTU and Ton

A. Definition of BTU (British Thermal Unit)

A BTU, or British Thermal Unit, is a unit of measurement used to quantify the amount of heat required to raise the temperature of one pound of water by one degree Fahrenheit. In the context of air conditioning, BTUs are used to measure the cooling capacity of an AC unit. The higher the BTU rating, the more cooling power the unit possesses.

B. Definition of Ton in HVAC

In the HVAC industry, a “ton” does not refer to the weight of an air conditioning unit. Rather, it is a unit of measurement used to indicate the cooling capacity of an AC system. One ton is equivalent to 12,000 BTUs per hour. This measurement originated from the time when ice was used to cool buildings, and one ton of ice could melt in a day.

C. Relationship between BTU and Ton in HVAC systems

To determine the cooling capacity of an AC unit, the BTU rating is divided by 12,000 to calculate the equivalent tonnage. For example, a 24,000 BTU AC unit is equivalent to a 2-ton system (24,000 divided by 12,000). This relationship allows HVAC professionals to compare and select the appropriate AC unit based on the cooling needs of a space.

II. Calculating BTU for Air Conditioning Units

A. Factors influencing BTU calculation

• Room size and square footage
• Insulation quality
• Number of occupants
• Sun exposure
• Climate

B. BTU calculation formula

• BTU = (Room size x Insulation factor x Occupant factor x Sun exposure factor) +/- Climate factor

The BTU calculation formula takes into account various factors that influence the cooling requirement of a space. These factors include the room size, insulation quality, number of occupants, sun exposure, and climate. By multiplying these factors and adjusting for climate considerations, the BTU rating for an AC unit can be accurately determined.

Examples of BTU calculations for different room types

Let’s consider a few examples to illustrate how these factors affect the BTU calculation for different room types:

Example 1: Small bedroom

• Room size: 150 square feet
• Insulation factor: 1 (average insulation)
• Occupant factor: 1 (single occupant)
• Sun exposure factor: 1 (minimal sun exposure)
• Climate factor: 0 (moderate climate)

Using the BTU calculation formula, the BTU rating for this small bedroom would be:

BTU = (150 x 1 x 1 x 1) + 0 = 150 BTU

Example 2: Living room with large windows

• Room size: 400 square feet
• Insulation factor: 0.5 (poor insulation)
• Occupant factor: 2 (two occupants)
• Sun exposure factor: 1.5 (significant sun exposure)
• Climate factor: +10 (hot climate)

Using the BTU calculation formula, the BTU rating for this living room would be:

BTU = (400 x 0.5 x 2 x 1.5) + 10 = 600 BTU

These examples demonstrate how various factors contribute to the BTU calculation for different room types. It’s important to accurately assess these factors to ensure the AC unit provides sufficient cooling power for the space.

III. Understanding a 35 Ton AC Unit

A. Definition of a 35 Ton AC Unit

A 35-ton AC unit refers to an air conditioning system with a cooling capacity equivalent to 35 tons or 420,000 BTUs per hour. It is a large-scale cooling solution designed for commercial, industrial, and high-demand environments.

B. What it indicates about cooling capacity

A 35-ton AC unit indicates a significant cooling capacity. It is capable of efficiently cooling large spaces with high cooling demands. This capacity makes it suitable for environments that require consistent cooling, such as server rooms, manufacturing facilities, and large commercial buildings.

C. BTU equivalence of a 35 Ton AC Unit

Conversion from ton to BTU calculation

To calculate the BTU equivalence of a 35-ton AC unit, we can use the conversion factor of 12,000 BTUs per ton. Using this conversion, the BTU rating of a 35-ton AC unit would be:

35 tons x 12,000 BTUs per ton = 420,000 BTU per hour

Calculation example for a 35 Ton AC unit

Let’s consider a scenario where a 35-ton AC unit is installed in a large industrial warehouse:

Warehouse specifications:

• Total square footage: 50,000 square feet
• Insulation quality: Good
• Occupant density: Low
• Sun exposure: Moderate
• Climate: Hot

Using the BTU calculation formula, the BTU requirement for this warehouse would be:

BTU = (50,000 x 1 x 1 x 1) + 10 = 60,000 BTU

In this scenario, the 35-ton AC unit is overkill for the warehouse’s cooling needs, as it has a cooling capacity of 420,000 BTUs per hour. However, this highlights the flexibility and scalability of a 35-ton AC unit, as it can handle cooling demands in various environments.

IV. Benefits and Applications of a 35 Ton AC Unit

A. Suitable environments for a 35 Ton AC unit

A 35-ton AC unit is well-suited for environments that require powerful and reliable cooling. Some of the suitable environments include:

• Large commercial spaces
• Industrial buildings
• Data centers

B. Cooling capacity and coverage area

1. Large commercial spaces

In large commercial spaces such as shopping malls, convention centers, and airports, a 35-ton AC unit can effectively cool expansive areas with high occupant densities. Its cooling capacity ensures comfort for visitors and employees, even in peak occupancy situations.

2. Industrial buildings

Industrial buildings, including manufacturing facilities and warehouses, often generate significant heat from machinery and industrial processes. A 35-ton AC unit can efficiently cool these spaces, maintaining optimal working conditions, and preventing damage to equipment and products.

3. Data centers

Data centers house critical computer systems and servers that generate substantial heat. Cooling is essential to ensure the proper functioning and longevity of these sensitive systems. A 35-ton AC unit can effectively manage the cooling demands of data centers, preventing overheating and downtime.

C. Energy efficiency considerations

1. SEER and EER ratings

When selecting a 35-ton AC unit, energy efficiency is a crucial consideration. Look for units with high SEER (Seasonal Energy Efficiency Ratio) and EER (Energy Efficiency Ratio) ratings. These ratings indicate the unit’s efficiency in converting electrical energy into cooling power. Higher SEER and EER ratings result in lower energy consumption and utility costs.

2. Cost savings with a 35 Ton AC unit

Despite their large size, 35-ton AC units can offer cost savings in the long run. Their high cooling capacity allows them to operate at lower speeds and cycles, reducing energy consumption and wear and tear on the system. Additionally, their efficient cooling performance ensures optimal comfort while minimizing energy wastage.

V. Factors Influencing the Choice of a 35 Ton AC Unit

A. Location and climate considerations

• Temperature range
• Humidity levels
• Altitude

The location and climate of a building play a significant role in determining the cooling requirements. Factors such as temperature range, humidity levels, and altitude can impact the performance and efficiency of a 35-ton AC unit. It’s essential to choose a unit that can handle the specific climatic conditions of the area.

B. Building specifications and cooling needs

• Square footage
• Insulation quality
• Occupant density

The specifications of the building, including its square footage, insulation quality, and occupant density, must be taken into account when selecting a 35-ton AC unit. These factors determine the cooling load and help determine the appropriate unit size and capacity for optimal performance.

C. Additional features and customization options

• Zoning capabilities
• Air quality enhancements
• Advanced control systems

Consider additional features and customization options that may enhance the cooling performance and user experience. Zoning capabilities allow for precise control of cooling in different areas of a building. Air quality enhancements, such as filters and purifiers, improve indoor air quality. Advanced control systems provide convenient and efficient management of the AC unit.

VI. Installation and Maintenance of a 35 Ton AC Unit

A. Professional installation requirements

1. Sizing and load calculations

Professional installation is necessary for a 35-ton AC unit to ensure proper sizing and load calculations. HVAC professionals consider factors such as the cooling load, ductwork design, electrical requirements, and safety regulations when installing a unit of this size.

2. Ductwork design

The ductwork design for a 35-ton AC unit should be carefully planned to optimize airflow and ensure efficient cooling. Properly designed ducts minimize air leaks and pressure imbalances, maximizing the unit’s performance and energy efficiency.

3. Electrical considerations

Due to the large size of a 35-ton AC unit, specific electrical considerations must be taken into account during installation. Adequate power supply, wiring, and electrical connections must be implemented to ensure safe and reliable operation.

B. Routine maintenance and servicing

1. Filter replacements

Regular filter replacements are essential to maintain the efficiency of a 35-ton AC unit. Clean filters ensure proper airflow and prevent dust and debris buildup, which can hinder the unit’s performance and lead to increased energy consumption.

2. Coil cleaning

Coil cleaning is crucial for efficient heat transfer in the AC unit. Dust and debris can accumulate on the coils over time, reducing their effectiveness. Routine cleaning helps maintain optimal cooling performance and prevents issues such as reduced cooling capacity and higher energy consumption.

3. Refrigerant level checks

Regular checks of the refrigerant level are necessary to ensure the proper operation of the AC unit. Low refrigerant levels can lead to insufficient cooling and increased energy consumption. HVAC professionals can assess and replenish the refrigerant as needed.

C. Troubleshooting common issues

1. Insufficient cooling

If the 35-ton AC unit is not providing sufficient cooling, several factors may be at play. These can include improper sizing, ductwork issues, or a malfunctioning component. Consulting with a professional HVAC technician will help diagnose and resolve the issue.

2. Airflow problems

Inadequate airflow can result from clogged filters, duct obstructions, or fan motor issues. Regular cleaning and maintenance of the filters, ducts, and fans can help prevent and resolve airflow problems, ensuring optimal cooling performance.

3. Noisy operation

If the 35-ton AC unit is producing excessive noise, it may indicate a problem with the fan motor, compressor, or other components. Professional inspection and maintenance can identify the source of the noise and address it accordingly.

VII. Comparison of Different HVAC Systems

A. Other types of AC units

1. Window units

Window units are self-contained AC systems that are typically used to cool individual rooms or small spaces. They are easy to install and relatively affordable, but their cooling capacity is limited compared to larger AC units. Window units are not suitable for cooling large areas or commercial spaces.

2. Split systems

Split systems consist of an indoor unit and an outdoor unit connected by refrigerant lines. They offer greater flexibility and can provide cooling to multiple rooms. However, their cooling capacity may not be sufficient for large-scale applications such as commercial buildings or data centers.

3. Rooftop units

Rooftop units are self-contained AC systems that are installed on the roof of a building. They are commonly used in commercial buildings and provide efficient cooling for large spaces. Rooftop units offer easy access for maintenance and servicing and can be customized to meet specific cooling requirements.

B. Advantages and disadvantages of a 35 Ton AC unit compared to others

Compared to window units and split systems, a 35-ton AC unit offers the advantage of significantly higher cooling capacity. It is designed for cooling large spaces and can handle high cooling demands. However, it also comes with the disadvantage of higher installation and maintenance costs due to its size and complexity. Additionally, a 35-ton AC unit may not be suitable for small residential or office spaces.

VIII. Conclusion

In conclusion, understanding the BTU capacity of a 35-ton AC unit is crucial for HVAC professionals and those responsible for selecting and maintaining these powerful cooling systems. By accurately calculating BTUs, considering factors such as room size, insulation, occupants, sun exposure, and climate, professionals can ensure the optimal performance and efficiency of the AC unit.

A 35-ton AC unit offers substantial cooling capacity, making it ideal for large commercial spaces, industrial buildings, and data centers. Considerations such as location, climate, building specifications, and additional features play a vital role in choosing the right unit.

Professional installation and routine maintenance are essential to maximize the lifespan and performance of a 35-ton AC unit. Regular filter replacements, coil cleaning, and refrigerant level checks help ensure efficient operation and prevent common issues. Troubleshooting problems such as insufficient cooling, airflow issues, and noise can be addressed by consulting with HVAC professionals.

When comparing different HVAC systems, the advantages of a 35-ton AC unit lie in its high cooling capacity, making it suitable for demanding environments. However, it is essential to consider the specific cooling requirements of the space and evaluate other AC unit options based on size, cost, and efficiency.

In the world of air conditioning, the 35-ton AC unit stands as a powerful and reliable solution for challenging cooling demands. Equip yourself with the knowledge of BTUs, tonnage, and the intricacies of these cooling powerhouses to conquer any cooling challenge that comes your way.

Frequently Asked Questions (FAQ)

Final Words or Final Summary: Understanding the Cooling Capacity of a 35-Ton AC Unit

In conclusion, understanding how many BTUs a 35-ton AC unit has is essential for HVAC professionals and individuals who need to select and maintain these powerful cooling systems. A 35-ton AC unit has a cooling capacity of 420,000 BTUs per hour, making it suitable for large-scale applications such as commercial spaces, industrial buildings, and data centers.

To accurately calculate the BTUs for an AC unit, factors such as room size, insulation, occupants, sun exposure, and climate must be considered. This ensures that the AC unit meets the specific cooling needs of the space and operates efficiently.

Professional installation and routine maintenance are critical for maximizing the performance and longevity of a 35-ton AC unit. Regular filter replacements, coil cleaning, and refrigerant level checks are necessary to ensure efficient operation and prevent common issues such as insufficient cooling, airflow problems, and excessive noise. When comparing different types of AC units, a 35-ton AC unit offers the advantage of high cooling capacity.

However, it is important to consider factors such as location, climate, building specifications, and additional features when choosing the right unit. Other AC unit options, such as window units, split systems, and rooftop units, have their own advantages and disadvantages depending on the specific cooling requirements. In conclusion, a 35-ton AC unit provides a powerful and reliable cooling solution for large spaces with high cooling demands.