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. BERJAYA 2 Door Counter Chiller BS 2DC6/G, 127152mm adjustable stainless steel legs or 100mm castor wheels (one with brake). The arc angular design on the base plate complies with the requirements of sanitation requirement. Handles work flow friendly. Epoxy coated shelves are hard, strong and easy to clean. Tested -35ºC durability.
Self contained system, no plumbing required. 2 tiers of removable and adjustable shelves. High-density cyclo-isopentane polyurethane body saves energy. Magnetic and robust stainless steel door.
Offer a higher tensile strength, which fewer dents and scratches. Certified fan motor is used. Approved by VDE & CE. Digital adjustable temperature control. One year limited parts warranty. Blower system (assisted with fan) will ensure homogenous coolness in the storage space. Environmentally friendly refrigerant (CFC and HCFC Free) R134a.
Effective counter-balanced weight system self-closing door provides smooth, even, positive closure.
Berjaya Chiller User Manual
Figure 1: Basic Components of a Chiller - Controller, Pump, Refrigeration System, and Reservoir A standard, off-the-shelf temperature controller can be used as a temperature control module. Controllers are available from any number of manufacturers with a variety of options. All include a temperature display, are panel mounted, and accept temperature inputs from Resistance Temperature Detectors (RTD’s) or thermocouples. Various communications options are also available. A helpful feature of many controllers is a Proportional–Integral–Derivative (PID) auto-tune function.
This allows the user to let the controller calculate the optimum response to system disturbances. Disturbances come in the form of varying process loads, set point changes, and noise. After auto-tuning is completed, the user may need to make some additional adjustments to the tuning parameters to ensure that the temperature of the process fluid is within the process control limits. This does not necessarily complete the work of tuning the chiller with the tool. The user must be aware that the auto-tune feature will attempt to tune the temperature controller at the one operating point being evaluated.
Process dynamics are often affected by conditions that only exist at certain times or under specific circumstances. If these special conditions can be sensed. Figure 2: Cooling System PLCor predicted in some way, a method of adaptive (feed forward) control is needed to supplement the reactive (feedback) control used in a typical control scheme. Chillers serving applications with these advanced needs are often better suited by the use of Programmable Logic Controllers (PLC’s) and Operator Interface Terminals (OIT’s). (See Figure 2.) The use of a PLC provides flexibility to satisfy the needs of a more demanding control environment. It allows for the seamless integration of non-process temperature related process measurements (such as pressures, flow rates, ambient temperature, etc.) or critical events (pump over load, safety shut down, etc.) in an adaptive control scheme.
PLC’s also provide a means of data collection and communication. They are easily connected to host systems via a myriad of communications options. Various field bus connections are available (Profibus, DeviceNet, Lonworks, etc.) as well as non-proprietary serial and Ethernet links.
This allows the user to better integrate the chiller with the tool. Figure 3: Temperature Sensor in the ReservoirWhile temperature control is a critical function for many industrial processes, temperature stability is critical for some processes as well. Increased stability generally correlates to increased cost. Many applications require a temperature that is stable to ±0.5°C of a given set point temperature at a specified. This level of stability can be accomplished by measuring the temperature in the reservoir and cycling an on-off valve in the refrigeration system.
(See Figure 3.) A basic PID algorithm in the temperature control module cycles the on-off valve as needed. The reservoir provides a volume of constant temperature fluid to help reduce the impact of any small temperature changes due to heat load changes from the tool.
Figure 4: Temperature Sensor at Exit of Refrigeration System for Increased Stability with Dynamic Processes While the reservoir helps maintain a constant temperature for the fluid being supplied to the tool, it also masks large temperature spikes in the fluid returning from the tool. These changes result from varying heat loads.
For example, a laser in operation may add a constant 300 W of heat load to the fluid for 5 minutes. The laser power may then run at 500 W for 5 minutes, and then be brought back down to 300 W for another 5 minutes. This cycle may repeat over and over.
Chiller
Increasing the heat load by 67% will suddenly change the fluid temperature returning to the chiller. Since the fluid temperature in the reservoir changes more slowly, the temperature control module is slower to respond to these changes. Temperature stability can be increased for dynamic processes by measuring the temperature of the fluid at the exit of the refrigeration system and prior to the reservoir. (See Figure 4.) The temperature control module sees the spikes in fluid temperature and can respond accordingly.
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The temperature stability of the fluid being supplied to the tool can be doubled by simply changing the measurement point. (See Figure 5.). Figure 5: Stability Comparison - 40% Change in Heat LoadIt is important to note that if a chiller is for ±0.5°C stability using an on-off valve (such as a refrigeration solenoid valve), increasing the stability further will cause more frequent cycling and reduce the life of the valve.
This issue can occur when using the auto-tune feature on an off-the-shelf temperature controller. Therefore, the chiller should only provide the stability needed to keep the process in control. Another common issue related to chiller temperature control is environmental or ambient temperature loss between the chiller and the tool.
This typically occurs when the process fluid is much hotter or colder than room temperature and there is a significant amount of distance and piping between the chiller and the tool. Sometimes the chiller is even on a different floor than the tool itself. For example, a fluid exiting the chiller at 15°C may warm up to 20°C by the time it reaches the tool due to room air raising the fluid temperature. The process requires fluid to be delivered to the tool at a constant temperature of 15°C, not 20°C. For this issue, an offset can be entered into the temperature control module of 5°C. A set point temperature of 15°C is entered for the chiller, but the chiller will actually control to 10°C.
The process will get the needed 15°C fluid and the chiller will communicate a value of 15°C on the display or through communications. There are a number of processes that are more sensitive to temperature, such as those used in, certain, and. For recirculating chillers, stability to ±0.1°C of a given set point temperature at a specified heat load is not uncommon. However, as previously mentioned, it is recommended that you ensure that this level of stability is really needed for a given process since there can be an increased cost for either or development. A PID algorithm in the temperature control module will control either an on-off valve or a modulating valve in the refrigeration system. A modulating valve is typically a stepper valve, providing finer control at the operating point.
It is also not limited to a specific number of cycles over the life of the valve like an on-off valve. The modulating valve does take longer to fully open and close as compared to an on-off valve.
Therefore, it will take longer for the chiller to ramp to a new temperature given a step change in the set point. Temperature control can be complicated in chillers when controlling multiple fluid loops or operating over a large temperature range with highly variable heat loads. In this case, PLC’s and OIT’s are used since they can be programmed to control multiple control devices and have multiple PID loops. These devices provide ultimate flexibility as they are only limited by the program created for them.
Berjaya Counter Chiller Manual
In summary, it is important to determine system operating points and required stability carefully. Incorrectly specifying these items may result in the tool temperature being out of control and/or unnecessary costs being added on. An experienced can provide the correct custom or standard selection based on the right inputs.
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