Controls Configuration & Adjustments...

Defrost Systems- Described

DEFROST CYCLE (HEAT ONLY UNITS):

The microprocessor controller monitors the heater’s air-coil temperature, minimizing air-coil freeze- up during cooler weather conditions. If the controller senses air-coil temperatures conductive to mak- ing ice, the heater’s compressor operation is interrupted while the fan is allowed to continue in opera- tion.

With the compressor off, the air-coil begins to warm to the surrounding air temperature. When air-coil temperatures rise above approximately 38oF, the compressor is restarted and heating resumes.

In the event air temperatures remain below approximately 38oF, the compressor will remain off until the air temperature rises above 38oF. The unit will not heat the water as long as the compressor remains off.

During defrost cycles, when the controller has stopped compressor operation, the display will read: [FS].

DEFROST CYCLE (HEAT & COOL UNITS):

The microprocessor controller, in conjunction with the defrost sensor, constantly monitors the heater’s evaporator (air-coil) temperature. Should the controller sense ice or frost has formed on the evapora- tor, sufficient in amount as to affect the heater’s performance, an active defrost cycle (more below) is initiated. Before initiating a defrost command, the controller defrost logic looks at both the air-coil temperature, and the length of time the coil has remained at an ice-making temperature.

Active defrost involves using hot refrigerant gas, from the compressor, to rapidly remove ice or frost from the evaporator coil. In practice, during a hot gas defrost cycle, valving, internal within the refriger- ant system, reverses the flow of the refrigerant; this reversal of flow temporarily makes the air-coil the condenser. During hot gas defrost, the air-coil warms very quickly, and accumulated ice and frost is rapidly melted. Under most conditions the evaporator will be completely cleared in under 5-minutes.

HEAT & COOL DEFROST SEQUENCE DETAILS:

When the controller senses air-coil temperatures conductive to making ice, the unit will enter a 50-minute defrost delay (counting) period.

During the counting period, the fan and compressor will continue to operate, and the water will continue to be heated. During the counting period it is normal to see a moderate amount of frost and ice formation on the air coil.

If, after the 50-minute counting period, the controller senses a need to defrost:

1.The refrigerant circuit reversing valve will be activated, changing the flow of hot refrigerant gas from the pool water heat exchanger to the air-coil.

2.Fan operation will be suspended, permitting maximum heating of the air-coil.

3.The reverse cycle will continue until either:

A.The air-coil attains a predetermined temperature (indicative of total defrost), or;

B.Until 10-minutes have elapsed (regardless of total defrost having occurred).

During hot gas defrost cycles, the compressor will not deactivate; rather, the compressor will continue operation throughout the sequence. Upon completion of the defrost cycle (as terminated per “A” or “B,” above), the reversing valve will be deactivated, fan operation will recommence, and water heating will resume.

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Aquacal 101, 121, 156, 110, 135, 111 owner manual Defrost Systems- Described, Defrost Cycle Heat only Units
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121, 111, 101, 135, 110 specifications

Aquacal is a well-known brand in the field of heating and cooling solutions, particularly recognized for its advanced heat pump technology dedicated to pool heating. The Aquacal models 156, 110, 135, and 101,111, offer a range of features and technologies tailored to meet diverse customer needs, ensuring that pools remain at a comfortable temperature regardless of the weather outside.

One of the standout features of Aquacal heat pumps is their energy efficiency. These models are designed to operate using renewable energy, extracting heat from the air, which significantly reduces operational costs compared to traditional gas heaters. The Environmental Protection Agency (EPA) endorses heat pumps, making them an eco-friendly choice for pool heating.

Equipped with advanced digital controls, Aquacal units allow users to easily monitor and adjust settings for optimal performance. The user-friendly interface includes features such as programmable timers, which enable stakeholders to set heating schedules according to their usage patterns, providing both convenience and energy savings. The models are also designed with quiet operation in mind, featuring components that minimize noise, allowing for a peaceful poolside experience.

The Aquacal 156, 110, 135, and 101,111 models are built to withstand various weather conditions, featuring durable casings and components that resist corrosion. This durability is crucial for outdoor installations, ensuring that the units have a long service life with minimal maintenance.

Another key characteristic of these heat pumps is their capacity to function effectively in a wide range of temperatures. This adaptability allows them to provide consistent heating performance even during cooler weather conditions, ensuring that users can enjoy their pools year-round.

Furthermore, Aquacal heat pumps are designed for ease of installation, often fitting into existing plumbing setups without significant modifications. This feature makes them an attractive option for both new pool installations and retrofitting existing systems.

In conclusion, the Aquacal 156, 110, 135, and 101,111 models represent a versatile and energy-efficient choice for pool heating. With their advanced technologies, user-friendly features, and durable construction, they cater to a variety of preferences, making them a popular selection among pool owners looking to maintain comfortable swimming conditions while remaining mindful of energy consumption and costs.
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