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Bard GVDM-26 manual Heat Pump Heating Mode, Water Supply Systems

Models: GVDM-26

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2.The compressor, which is a sealed pump that moves the refrigerant through the system.

3.The water coil where the heat that was absorbed from the indoor space is discharged to the circulating water supply. A pump is required somewhere in the system to move the water through the heat pump water coil.

HEAT PUMP (HEATING MODE)

The system operates in reverse cycle, meaning that it acquires and moves heat from the water supply flowing through the water to refrigerant coil, and transfers it indoors to be rejected into the circulating air stream.

Most water-to-air heat pumps will also be equipped with some amount of electric heat to supplement the heating capacity of the compressor system on an as needed basis. This operation is entirely automatic and is controlled by the indoor thermostat.

Because of the design of water-to-air heat pumps and the water temperatures involved, no defrost system is required as in air-to-air heat pumps.

WATER SUPPLY SYSTEMS

Depending upon type and application of the water-to-air heat pump, the water-side of the system could be one of the following:

1.Individual closed loop buried in a trench or vertical bore hole(s).

2.Individual loop submerged in a pond.

3.Water supplied from a well and discharged into pond, stream, ditch or another well.

4.Water supplied from a boiler/tower system, typically only in larger multi-unit installations.

A properly sized heat pump cannot cool a structure off rapidly, and instead will pull down the temperature slowly. It also will remove a certain amount of moisture (humidity) from the circulating air stream in the process. It may take several hours to pull down a hot, moist building or structure on initial start up, or anytime the system has been turned off for a long period of time. It is generally best to set the thermostat at a comfortable temperature and let it control the system as needed, rather than turning it on and off.

Moisture (humidity) removal with a conventional air conditioner (cooling) unit, or heat pump when operating in the cooling mode, is not directly controlled and is a by-product of the unit operating to control temperature in response to the temperature (thermostat) control device. Over-sized equipment can easily control temperature but will have short run-times, thus reducing its ability to remove moisture from the circulating air stream. There are also many additional influences that can affect humidity levels within the conditioned space such as laundry appliances, cooking, showers, exhaust fans, and any other items that can generate moisture or affect its removal from the space. Therefore, while operation of the air conditioning or heat pump system in the cooling mode will remove some amount of moisture as it reduces the air temperature, precise humidity regulation in the conditioned space cannot be assured and additional equipment such as a dedicated dehumidifier may be required.

Manual

2100-520

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Bard GVDM-26 manual Heat Pump Heating Mode, Water Supply Systems
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GVDM-26 specifications

Bard GVDM-26 is an innovative and advanced robotic system designed for a variety of industrial applications. It is renowned for its versatility and efficiency, making it a popular choice across different sectors, including manufacturing, logistics, and warehousing.

One of the standout features of the Bard GVDM-26 is its robust construction. Built with high-quality materials, it is capable of withstanding heavy usage and harsh environments. This durability ensures that the GVDM-26 can operate effectively in demanding settings, reducing maintenance downtime and increasing productivity.

The GVDM-26 is equipped with cutting-edge automation technologies. It incorporates advanced sensors, including LIDAR and cameras, for precise navigation and obstacle detection. This allows the robot to autonomously navigate complex environments, ensuring safe and efficient transportation of materials and goods. The integration of AI algorithms enables the GVDM-26 to learn from its surroundings, improving its operational efficiency over time.

Another significant characteristic of the Bard GVDM-26 is its modular design. This allows for easy customization based on specific operational needs. Whether it’s adding additional payload capacity or integrating specialized attachments for unique tasks, the modular setup provides flexibility that is essential in dynamic industrial environments.

The Bard GVDM-26 excels in payload capacity, being able to handle substantial weights while maintaining high speed. With a load capacity of up to 1,000 kg, it can support various applications, from transporting raw materials to finished products. This capacity, combined with its speed, makes it a valuable asset for streamlining operations and enhancing workflow efficiency.

Moreover, the GVDM-26 offers seamless connectivity options, allowing it to integrate with existing warehouse and manufacturing systems. This connectivity enables real-time data exchange, facilitating better management of inventory and logistics operations. The robot can communicate with other machinery and software applications, leading to improved coordination across processes.

In terms of user experience, the Bard GVDM-26 features an intuitive interface that allows operators to easily monitor and control the robot. Its user-friendly design simplifies the setup and operational processes, reducing training time for personnel.

Overall, the Bard GVDM-26 stands out for its combination of robust construction, advanced automation technologies, modularity, high payload capacity, and user-friendly design. These characteristics make it an ideal choice for businesses looking to enhance their operational efficiency and adapt to the evolving demands of the industrial landscape. As industries continue to trend towards automation, the Bard GVDM-26 is poised to be a key player in the era of smart manufacturing and logistics.