Fresh Air Supply Requirements ______

When the dryer is operating, it draws in room air, heats it, passes this air through the tumbler, and exhausts it out of the building. Therefore, the room air must be continually replenished from the outdoors. If the make-up air is inadequate, drying time and drying efficiency will be adversely affected. Ignition problems and sail switch “fluttering” problems may result, as well as premature motor failure from overheating. The dryer must be installed with provisions for adequate combustion and make-up air supply.

Air supply (make-up air) must be given careful consideration to ensure proper performance of each dryer. Fresh air ventilation openings shall not be blocked and/or sealed. As a general rule, an unrestricted air entrance from the outdoors of 135 inch2 (871 cm2) is required for each dryer. (Based on 1 inch2 [6.5 cm2] per 1,000 Btu [252 kcal].)

It is not necessary to have a separate make-up air opening for each dryer. Common make-up air openings are acceptable. However, they must be set up in such a manner that the make-up air is distributed equally to all the dryers.

To compensate for the use of registers or louvers used over the openings, this area must be increased by approximately 33%. Make-up air openings should not be located in an area directly near where exhaust vents exit the building.

Allowances must be made for remote or constricting passageways or where dryers are located at high altitudes or predominantly low pressure areas.

Note: Component failure due to dry cleaning solvent fumes will void the warranty.

A= 16-inches (40.6 cm)

B= 17-inches (43.2 cm)

EXAMPLE: For a bank of four dryers, two unrestricted openings measuring 16-inches by 17-inches (40.6 cm by 43.2 cm) are acceptable.

Important: Make-up air must be free of dry cleaning solvent fumes. Make-up air that is contaminated by dry cleaning solvent fumes will result in irreparable damage to the motors and other dryer components.

Exhaust Requirements _______________

Exhaust ductwork should be designed and installed by a qualified professional. Improperly sized ductwork will create excessive back pressure, which results in slow drying, increased use of energy, and shutdown of the burner by the airflow (sail) switch, burner hi-limits, or lint chamber hi-limit protector thermostat. The dryer must be installed with a proper exhaust duct connection to the outside.

The dryer shall not be exhausted into any gas vent, chimney, wall, ceiling or concealed space of a building.

Caution

!This dryer produces combustible lint and must be exhausted to the outdoors.

Improperly sized or installed exhaust ductwork can create a potential fire hazard.

The ductwork should be laid out in such a way that the ductwork travels as directly as possible to the outdoors with as few turns as possible. There should be a minimum 6-inch (15.24 cm) clearance between the back guard and the first bend in the ductwork for ease of servicing. Single or independent dryer venting is recommended. It is suggested that the use of 90° turns be avoided; use 30° and/or 45° bends instead. The radius of the elbows should preferably be 1-1/2 times the diameter of the duct. All ductwork should be smooth inside with no projections from sheet metal screws or other obstructions, which will collect lint. When adding ducts, overlap the duct being connected. All ductwork joints must be taped to prevent moisture and lint from escaping into the building. Back draft dampers must be installed in all commonly ducted systems. Inspection doors should be installed at strategic points in the exhaust ductwork for periodic inspection and cleaning of lint from the ductwork.

Important: It is recommended that exhaust or booster fans not be used in the exhaust ductwork system.

Exhaust back pressure measured by a manometer/ magnehelic in the exhaust duct must be no less than 0 and must not exceed 0.6 in WC (1.48 mb).

Note: When the exhaust ductwork passes through a wall, ceiling, or roof made of combustible materials, the opening must be 2-inches (5.08 cm) larger than the duct (all the way around). The duct must be centered within this opening.

As per the National Fuel Gas Code, “Exhaust ducts for type 2 clothes dryers shall be constructed of sheet metal or other noncombustible material. Such ducts shall be equivalent in strength and corrosion resistance to ducts made of galvanized sheet steel not less than 26 gauge (0.0195-inches [0.50 mm]) thick.”

The ductwork for this appliance must be suitable for the appliance category in accordance with national installation regulations of the country of destination.

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American Dryer Corp HBG76 manual Fresh Air Supply Requirements, Exhaust Requirements

HBG76 specifications

American Dryer Corp (ADC) has established itself as a leading provider of high-quality laundry equipment, and their HBG76 model is a prime example of innovative design and advanced technology in commercial dryers. The HBG76 is engineered for efficiency, versatility, and durability, making it an ideal choice for laundromats, hotels, and other commercial laundry operations.

One of the main features of the HBG76 is its robust construction. Built with high-grade materials, the dryer offers exceptional longevity and reliable performance, capable of withstanding the rigors of frequent use. Its exterior is designed not only for durability but also for ease of maintenance, with convenient access points for servicing and cleaning.

The HBG76 incorporates state-of-the-art drying technologies aimed at maximizing efficiency and reducing energy consumption. One notable aspect is its powerful yet efficient heating system, which rapidly raises and maintains optimal temperature levels. This feature allows for shorter drying cycles, ultimately increasing throughput and profitability for operators.

Additionally, the HBG76 features advanced airflow technology, ensuring that every load receives uniform drying. With strategically placed ventilations, the dryer enhances air circulation within the drum, preventing clumping and allowing for even heat distribution. This results in thoroughly dried laundry without the risk of over-drying or damage to delicate fabrics.

Another significant characteristic of the HBG76 is its user-friendly interface. The dryer is equipped with a programmable control panel that allows operators to set specific drying times and temperatures according to the needs of different fabric types. This flexibility ensures that various laundry loads, ranging from heavy towels to delicate garments, can be processed with precision.

A crucial aspect of the HBG76 is its commitment to energy efficiency. With energy-saving features and options for environmentally friendly operation, the dryer is designed to reduce utility costs while still delivering high-performance results. This not only benefits the environment but also enhances the bottom line for commercial laundry providers.

In conclusion, the American Dryer Corp HBG76 stands out in the competitive landscape of commercial dryers. Its combination of durable construction, innovative drying technologies, user-friendly controls, and energy-efficient features make it a smart choice for any laundry operation looking to improve efficiency and effectiveness. With the HBG76, operators can expect reliable performance and excellent results, all while being mindful of operating costs and environmental impact.