TopChillerRecirculating Chiller Manufacturer and Supplier China
- Cooling capacity ranges from 2 Ton to 60 Ton
- Temperature control ranges from 7°C to 35°C.
- Top brand, energy-efficient scroll compressor
- Air-cooled and water-cooled Recirculating Chiller
- Stainless steel Water tank and water pump
- Compact design with energy-saving protocol
- Low noise operation, corrosion-free wetted surfaces
- Warranty time up to 24 months
Your Reliable Recirculating Chiller Manufacturer and Supplier in China over 20 Years
General Description
Recirculating Chiller is a type of Chiller used for cooling purposes in temperature-critical applications having a reliable source of liquid coolant for cooling in the laboratory, clinical, or industrial applications.
TopChiller is the foremost, highly recommended Recirculating Chiller manufacturer and supplier in China since 1999 with a highly professional experience.
For over 20 years, TopChiller has availed the whole world marketplace with a high standard, durable full line of Recirculating Chiller models.
TopChiller brand Recirculating Chiller is designed with an energy-efficient hermetic scroll compressor, heat exchangers, condensers, water tank, water pump, ID temperature controller, and evaporator.
Recirculating Chiller manufactured by TopChiller has outstanding advantages for a vast range of applications as:
Lasers industry, Medical Equipment, Medical and Lasers, Semiconductor Wafer’s clinical labs and hospitals, medical equipment such as CT scanning and MRI machines, electron microscopes, vacuum system, printing machines, lab testing, ink making, lab testing, etc.
If you are sourcing for a best-over Manufacturer and Supplier of Recirculating Chiller in China?
Or if you are in a quest to find the best-suited Recirculating Chiller to support your business?
You are on the right platform. Do contact without hesitation with TopChiller engineers to get a customized Recirculating Chiller even of very size with feasible cost.
Features and Advantages
- Our Recirculating Chiller is featured with top branded hermetic scroll compressors enabling outstanding performance and quiet operation with little vibration or low noise.
- Optimized cooling capacity and reliability for some precise applications of Recirculating Chiller are featured by unit adjustable design, stainless steel material, and low cost of maintenance.
- TopChiller brand Recirculating Chiller is the best choice for temperature-critical applications configured by a PLC-based automatic control system providing constant temperature control and constant pressure control.
- Our Recirculating Chiller is installed with shutoff or automated alarms that are sensitive to low coolant level works to protect your Unit from malfunctioning in case of coolant loss or evaporation leakage.
- Air filters and coolant filters available in our Recirculating Chiller prevent dust entrance in the condenser as well as Hot-Gas bypass available prevents the entrance of unnecessary wears in compressor ensuring high quality and durability of the unit. Our chiller is environment friendly by the use of CFC-free refrigerant and easy to install.
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Recirculating Chiller Technical Specifications
| Items\Model | AC-0.5A | AC-1A | AC-1.5A | AC-2A | AC-2.5A | AC-3A | AC-4A | AC-5A | AC-6A | AC-8AD | AC-10AD | AC-12AD | AC-15AD | |
| Cooling capacity | Kcal/h 50HZ/60HZ | 1419 | 2451 | 3182 | 4833 | 5848 | 7181 | 9288 | 11988 | 14534 | 18576 | 23994 | 29068 | 38270 |
| 1703 | 2941 | 3784 | 5800 | 7018 | 8617 | 11146 | 14386 | 17441 | 22291 | 28793 | 34882 | 45924 | ||
| KW 50HZ/60HZ | 1.65 | 2.85 | 3.7 | 5.62 | 6.8 | 8.35 | 10.8 | 13.94 | 16.9 | 21.6 | 27.9 | 33.8 | 44.5 | |
| 1.98 | 3.42 | 4.4 | 6.74 | 8.2 | 10.02 | 12.96 | 16.73 | 20.28 | 25.92 | 33.48 | 40.56 | 53.4 | ||
| Input power | KW | 0.88 | 1.35 | 2 | 2.25 | 2.66 | 3.27 | 4.07 | 5.75 | 6.45 | 8.25 | 11.5 | 12.9 | 17.45 |
| Max Current | A | 5.4 | 8.2 | 12 | 13.6 | 6.6 | 8.2 | 10.1 | 13.8 | 15.5 | 20 | 27.9 | 31.3 | 42.4 |
| Power source | 1PH~220V/3PH~220V/380V 50HZ/60HZ | 3PH~380V/415V/480V~50HZ/60HZ(3PH~200V/220V 50HZ/60HZ) | ||||||||||||
| Refrigerant | Type | R22/R407C/134a/404A/410A | ||||||||||||
| Control | Capillary / thermostatic expansion valve | |||||||||||||
| Compressor | Type | Hermetic Rotary | Hermetic scroll ( piston ) | |||||||||||
| Power(KW) | 0.45 | 0.89 | 1.3 | 1.73 | 2.1 | 2.7 | 3.5 | 4.55 | 5.25 | 3.5×2 | 4.55×2 | 5.25×2 | 7×2 | |
| Condenser | Type | Efficient finned copper tube with aluminum+low noise external rotor fan | ||||||||||||
| Air flow (m3/h) | 750 | 1000 | 1500 | 2000 | 2500 | 3000 | 4000 | 5000 | 6000 | 8000 | 10000 | 12000 | 15000 | |
| Air blower(KW) | 0.06 | 0.09 | 0.15 | 0.15 | 0.19 | 0.14×2 | 0.14×2 | 0.19×2 | 0.19×2 | 0.25×2 | 0.45×2 | 0.45×2 | 0.6×2 | |
| Evaporator | Type | SS Tank coil / shell and tube type / Plate type heat exchanger | ||||||||||||
| Chilled water (m3/h) | 0.28 | 0.49 | 0.64 | 0.97 | 1.12 | 1.44 | 1.86 | 2.4 | 2.91 | 3.71 | 4.8 | 5.81 | 7.65 | |
| 0.34 | 0.59 | 0.76 | 1.16 | 1.4 | 1.72 | 2.23 | 2.88 | 3.49 | 4.46 | 5.76 | 7 | 9.18 | ||
| Water tank(L) | 10.6 | 18.3 | 27 | 27 | 50 | 50 | 60 | 60 | 110 | 120 | 200 | 200 | 270 | |
| Inlet/outlet pipe (inch) i | 1/2″ | 1/2″ | 1/2″ | 1/2″ | 1″ | 1″ | 1″ | 1″ | 1″ | 1-1/2″ | 2″ | 2″ | 2″ | |
| Water pump | Power (kw) | 0.37 | 0.37 | 0.37 | 0.37 | 0.37 | 0.37 | 0.37 | 0.75 | 0.75 | 0.75 | 1.5 | 1.5 | 2.2 |
| Max lift(m) | 22 | 22 | 22 | 22 | 22 | 22 | 22 | 30 | 30 | 25 | 25 | 25 | 28 | |
| Max flow (m3) | 5.4 | 5.4 | 5.4 | 5.4 | 5.4 | 5.4 | 5.4 | 8.1 | 8.1 | 8.1 | 13.5 | 13.5 | 25.2 | |
| Safety protection | Compressor inner protection, over current protection, high/low pressure protection, over temperature protection, flow rate protection, phase sequence/phase missing protection, low level coolant protection, anti freezing protection, exhaust overheat protection | |||||||||||||
| Dimension | L(mm) | 550 | 550 | 600 | 600 | 720 | 980 | 980 | 1150 | 1150 | 1350 | 1500 | 1500 | 1860 |
| W(mm) | 350 | 450 | 500 | 500 | 550 | 520 | 520 | 560 | 560 | 680 | 760 | 760 | 850 | |
| H(mm) | 695 | 845 | 985 | 985 | 1350 | 1170 | 1170 | 1215 | 1215 | 1530 | 1660 | 1660 | 1900 | |
| Net weight(KG) | 45 | 62 | 85 | 95 | 125 | 152 | 175 | 185 | 215 | 283 | 345 | 382 | 580 | |
| Note: The above specifications are according to the following design conditions: 1, 12℃/7℃.Chilled water inlet/outlet temperature 12℃/7℃. 2, 33℃/38℃.Cooling air inlet/outlet temperature 33℃/38℃. We reserve the right to modify the specification without further notice. | ||||||||||||||
Recirculating Chiller Configuration Table
| Components | Brand | Origin |
| Compressor | PANASONIC/DANFOSS/COPELAND | USA//FRANCE |
| Electrical components | SCHNEIDER/CHINT | FRANCE/ CHINA |
| Water Pump | MINAMOTOR/LX | TAIWAN |
| Evaporator | TOPCHILLER | CHINA |
| Condenser | TOPCHILLER | CHINA |
| Pressure controller | FENSHEN | TAIWAN |
| Oil pressure gauge (high low) | HONGSEN | TAIWAN |
| Temperature controller | PUNP | CHINA |
| Dryer filter | EMERSON /ALCO | USA |
| Expansion valve/capililary | FANFOSS | USA |
| Liquid receiver | TOPCHILLER | China |
| Air blower | JULI | Taiwan |
| Frame Work | TOPCHILLER |
TopChiller Free Service and Technical Support
As a professional chiller manufacturer for over 20 years, TopChiller is always happy to provide our free service and technical support accessible to our clients before, during, and after-sales. If you need any help, welcome to call us or send your inquiry to our email. These free services and technical support include;
- Listening to your detailed chiller requirements and giving your best chiller solution for your applications based on our rich experience.
- If you have no idea about how to size your chiller model or cooling capacity, it’s not a big issue, Just tell us your specific cooling demands, we will guide you to select the right economical chiller model.
- 7*24 online service, If you have any problem with the chiller, you may call us or send an email, we are always here to support you.
TopChiller Standard Warranty Time
After purchasing the TopChiller product, you are our valued customers in the TopChiller ERP system.
We will do regular tracking service and Your chiller has up to 24 months warranty time after installation and commissioning,
If your chiller is down, you can contact TopChiller for support to solve your problem. Once we received your message, Our service technician on duty will contact you as soon as possible.
TopChiller Start-up & Commissioning
TopChiller also provides the additional service of start-up or commissioning of your chiller. You’d better before scheduling your start-up, it is important that the proper installation procedures have been followed and the chiller is ready.
TopChiller technician will guide you on how to start up your chiller when your chiller is ready, besides this, we have full sets of paper works including the Chiller installation manual, operation manual, electrical drawing for you.
Free Replacement Spare Parts
Providing free replacement spare parts for TopChiller is the best customer service in the industry to support you when you are sourcing replacement parts.
We have most parts are in stock and available for next-day shipment for your chillers.
If you want to have some replacement spare parts, just provide us with your chiller serial number and model number to expedite the sourcing process.
Better to have the nameplate and pictures of your chiller for our reference. This will help us find the proper replacements at the earliest time.
6 Points Why TopChiller Is Your Best Recirculating Chiller Manufacturer and Supplier in China?
Help You to Find Other Types of Chiller Relevant to Recirculating Chiller
Recirculating Chiller-An Ultimate Buying Guide by TopChiller
When you are in the field of medicine and own a laboratory, Recirculating Chiller is the most ideal item for your laboratory.
The laboratory is the most important piece of equipment in the medical industry. You often get different samples from your patients for testing.
These samples need to be kept in such a place where they are fresh. Recirculating Chiller is the right option to opt for the workload.
Recirculating Chiller is a water cooler that is widely used in the medical industry. The clinical environment needs a good source of cooling.
Most of the laboratories use cool water to keep samples cool. These techniques are not cost-efficient and cannot remain cool for a longer period.
Recirculating Chiller makes your work more easy and efficient. Recirculating Chiller offers a variety of components and options for your application.
Recirculating Chiller is also known as a Laboratory Chiller. This guide about Recirculating Chiller will clear you all your doubts and will be helpful.
Let’s start it.
Laboratory Chiller
- What is Recirculating Chiller?
- Why Use Recirculating Chiller for your Application?
- What Are the Main Features of Recirculating Chiller?
- How Do Recirculating Chiller Work?
- Is Recirculating Chiller Cost Efficient?
- How to Build Recirculating Wort Chiller?
- Why is a Mainly Recirculating Chiller Used?
- How to Select Recirculating Chiller for your Application?
- What is the Installation Process of Recirculating the Chiller?
- How to Maintain Recirculating Chiller?
- How to resolve the problems of Recirculating Chiller
- FAQ of Recirculating Chiller
What is Recirculating Chiller?
Recirculating Chiller is a cooling agent used in many testing laboratories. It helps in keeping different samples fresh.
The Recirculating Chiller is an important piece of equipment of any research laboratory. It offers the accuracy of the experiment.
The Recirculating Chiller help in removing heat from the fluid using vapor compression. The vapor compression is also known as the absorption refrigeration cycle.
Environment factors affect the experiment a lot. The variation of even one degree disturbs the accuracy of experiments.
The Recirculating Chiller fulfills all conditions to carry the experiment under favorable conditions. It works at an exact temperature to gain an optimistic result.
When it comes to sustainability the Recirculating Chiller is far more sustainable than tap water. The tap water does not provide accuracy as Recirculating Chiller does.
Using tap water is a wasteful practice, as we throw the water as it becomes normal in temperature. It uses less water with more efficiency.
There are other options available such as liquid nitrogen, dry ice, and ice. These options are difficult for the long term but Recirculating Chiller offers a stable coolant.
Recirculating Chiller helps to keep the harmful substances safe inside.
Recirculating Chiller by TopChiller
Why Use Recirculating Chiller for your Application?
The right Recirculating Chiller helps you to work smoothly and it is a reliable source of coolant for your industrial application.
Many factors allow us to consider Recirculating Chiller for our laboratory.
Cost Savings
One of the core reasons to consider the Recirculating Chiller in the laboratory is its cost-efficient nature.
The Recirculating Chiller provides high efficiency at a very low and reasonable price.
Instead of using tap water again and again and saves hundreds of gallons each month and costs of water.
As the water crisis is arising in many parts of the world. You need to minimize the usage of water. Recirculating Chiller is a suitable option that provides short return investment and savings for the long term.
Cost-efficient Recirculating Chiller is the demand of every clinical and research laboratory.
Easy and Convenient to Use
The other methods such as tap water and liquid nitrogen are not reliable in long term. Recirculating Chiller is a steady and dependable source of the coolant. It is more convenient to use with its easy features.
Safety
The Recirculating Chiller is very is important for the safety of the laboratory.
The experts use different chemicals and substances that need to be placed under favorable temperatures.
These substances react and may cause uncertainty. So, Recirculating Chiller provides stability to substances. Recirculating Chiller is safe for human beings it provides no harm to the people working around them.
Recirculating not only provides safety to working people but also helps the experiment to go smoothly.
What Are the Main Features of Recirculating Chiller?
Active Cooling Capacity
The cooling capacity of Recirculating Chiller is the ability to remove heat from the application and decreases with the set temperature.
When there is a low set temperature there is less difference between the liquid of refrigeration and Recirculating Chiller.
The cooling capacity depends on a specific temperature. To determine the capacity of cooling you need there is a formula that can help you out.
Formula: W= V x T x K / 60 x t (minutes).
Thermoelectric and Compressor-Based Recirculating Chiller
The compressor-based Recirculating Chiller offers efficient performance and reliability.
The Recirculating Chiller with a good compressor provides constant flow rates. Constant flow helps it to provide steady cooling.
Soundproof Operation
The Recirculating Chiller is designed acoustic to reduce the generation of sound.
Recirculating Chiller produces sound to an acceptable level. Soundproof equipment is placed to reduce the voice while working process.
The sound made by different components affects the working environment. The noise distracts you and irritates you.
You do not need separate space for Recirculating Chiller it can be placed anywhere due to its soundproof feature.
Easy to Access
Recirculating Chiller has a small size and occupies less space. You can set a suitable temperature and it also has a digital control panel with simple guide buttons. It has essential features on the panel too.
It has a little screen as well where you can see the temperature. All essential monitoring functions are available and easy to use.
Recirculating Chiller does not need an expert to operate. Anyone from the laboratory can operate it.
Recirculating Chiller also has a good amount of storage to store your chemicals.
Recirculating Chiller Compressor
How Do Recirculating Chiller Work?
To speed up the process of heat removal, A Recirculating Chiller works by consolidating coolant circulation with high pressure.
Recirculating Chiller consists of four major components:
Compressor
The compressor plays an important part in the procession of a Recirculating Chiller. It makes it possible to remove heat from spaces inside or the Process of application.
Condenser
The condenser in the Recirculating Chiller removes the heat absorbed using cooling tower water.
The condenser is an exchanger of heat.
Thermostatic Expansion valve
The liquid refrigerant enters the expansion device, which decreases pressure. Reducing its pressure decreases its temperature.
Evaporator
The evaporator is a very crucial part of the Recirculating Chiller.
The evaporator cools the water by transferring heat to the refrigerant, which after time turns into a gas.
Process of Recirculating Chiller:
Step 1
When the refrigerant gas is pumped into the compressor and turned to a high temperature and high-pressure gas, then the cooling process starts.
This gas travels to the condenser where either air or water removes the heat and condenses it from a gas to a liquid.
Step 2
After that liquid journeys to the thermostatic expansion valve where both temperature and pressure are decreased simultaneously which helps the liquid to evaporate in the form of a gas state.
When it returns to the gas state, the refrigerant travels back to the compressor, and the whole process restarts.
Step 3
This is continuing duty if Recirculating Chiller to restart again.
Recirculating Chiller never wastes any refrigerant or water throughout the whole process.
This process also depends on the feature of Recirculating Chiller that either it is a water-cooled Recirculating Chiller or an air-cooled Recirculating Chiller.
Is Recirculating Chiller Cost Efficient?
If I answer this whole question in one word, it is yes. A Recirculating Chiller is more cost-efficient than tap water.
Recirculating Chiller provides efficient distillation because of the total integration of the evaporator system. The Recirculating Chiller eliminates extra costs of water.
The Recirculating Chiller turns the cooling-off and on and consumes power when needed.
Let’s assume the average cost of water is $2.80 per liter. On average other methods work on 3 liters per minute.
If we analyze the expense of the water the whole year these methods cost is around $985. Whereas Recirculating Chiller eliminates whole expenses.
The recirculating covers a small space and is effective for a small laboratory. Recirculating Chiller is quite an economical option on a low budget.
Recirculating Chiller is a one-time investment. You can consider Recirculating Chiller without thinking twice while forming a laboratory.
Recirculating Chiller will be necessary equipment for your laboratory operations.
How to Build Recirculating Wort Chiller?
The quicker you boil the wort and there are fewer chances of microbes to attack. Below is the list of things you need to build Recirculating Wort Chiller.
- Soft tubing of the copper for outer diameter.
- You need a compression adaptor
- Copper wire between the gauge of 14 and 18.
- Silicon tubing and tube clamps.
- Empty round bucket like paint tin.
Step 1: Wind the copper around the tin equally.
Step 2: Wind the copper in a way leaving ½ space between each wind of copper.
You can also use a spring blender for spacing. Keep winding copper to the desired and suitable height.
Bend the coil at the water exit point to make sure it is leaking.
Use your Recirculating Wort Chiller.
Why use a Recirculating Wort Chiller.
The Recirculating Wort Chiller is the heat exchanger to cool the wort. Recirculating Worth Chiller cools the wort to yeast pitch-able temperature at a rapid rate.
Homebrewing costs a lot of water. Wasting water is not a good gesture.
All the cleaning, rinsing, and chilling waste a huge amount of water.
It is an essential step to cool down the wort below 80 degrees. At that time wort is at high risk to be contaminated by bacteria.
The Recirculating Wort Chiller does not accept any infection attack. A Recirculating Chiller also produces clearer beer, as it helps in breaking the cold.
The Recirculating Wort Chiller is the most basic and cost-efficient device for the home brewer. it is time-saving and economical too.
Why is a Mainly Recirculating Chiller Used?
The Recirculating Chiller is used in many applications. It is used in wider industries such as clinical and industrial industries.
The research laboratories which carry out major experiments to explore more and, more are major users of the Recirculating Chiller.
The Recirculating Chiller is also known as a blood cooling system as it is also used in blood testing laboratories.
Most of the time the expert makes certain changes in Recirculating the Chiller to obtain the maximum desired result.
The Recirculating Chiller has temperature control that varies from -10 Centigrade to +80 centigrade. You can set the temperature according to your needs.
It has an open loop and close loop sealable reservoir. The pumping capacity of the is 15.5 L/minute it also cools down the lasers and other supplies that supply power to the lasers.
The Recirculating Chiller also removes the heat produced by rollers of printing.
Often in Cancer hospitals, the Recirculating Chiller is a very important piece of equipment.
As there are many isotopes used on different patients for diseases.
Recirculating Chiller is quite suitable for the chemical heat removing process.
Following are the key features about why to opt Recirculating Chiller:
- Powerful and long-lasting circulation pump.
- The system of Recirculating Chiller has High efficiency in low costs.
- It is Environmentally-friendly cooling agent
- It contains good temperature control.
- Electronic panel with warning signs.
- Recirculating Chiller is made up of a fiber body.
- You can either fill Recirculating Chiller easily or empty it easily.
- Recirculating Chiller has a digital LED temperature display.
- It is easy to operate and shut.
Recirculating Chiller is a core necessity of every application containing sensitive substances.
How to Select Recirculating Chiller for your Application?
Recirculating Chiller being important equipment of laboratory need to be selected carefully.
It offers a stable temperature and constant flow rate for your application.
The basic requirement for your Recirculating Chiller:
- The cooling capacity explains the size of Recirculating Chiller
- Heat load is the amount of heat removed from the system. You can check the capacity of the heat load and compare it with Recirculating Chiller.
- Choose such Recirculating Chiller which removes the heat load of your application easily.
- For example, if you need the cooling capacity of 2.5KW at a set point of temperature 25 centigrade, you need to select it according to the model.
The flow rate of coolant and pump options.
- Many Recirculating Chiller manufacturers offer the pump with Recirculating Chiller.
- The choice of the pump in Recirculating Chiller offers the constant flow rate regardless of pressure drop in the system
- One of the downsides of the pump option is that it needs to be replaced frequently.
- The Recirculating Chiller also comes up with centrifugal pumps but the flow rate of this pump depends on the pressure across the system.
- To consider the right Recirculating Chiller with the right pump. You have to calculate the expected flow rate and pressure drop across the system.
Features your Recirculating Chiller must have
The features of Recirculating Chiller vary from every model. These features include safety and control features.
- Most of the Recirculating Chiller comes with remote control. You can control the Recirculating Chiller while sitting at any corner of your laboratory.
- Easy cooling temperature with smaller increments such as 0.1 centigrade.
- Most of the water-cooled Recirculating Chiller condenser removes the heat in the air, which makes your atmosphere arm.
- You can consider a Recirculating Chiller that removes heat in the water flow.
- The filter protects the pump and other components of the Recirculating Chiller.
- The alarm of high and low temperature must be available in the Recirculating Chiller. This helps to prevent damage.
- Some substances and chemicals need particular temperatures for stability. If the temperature increased beyond limits that can cause damage.
- The feature of low flow alarm and shutoff must be part of your Recirculating Chiller.
- When the Recirculating Chiller freezes beyond limits it will tend to expand and cause a crack in the evaporator which can cause costly repairing.
- Such features are healthy for application as well as a Recirculating Chiller.
- Your Recirculating Chiller should have audible alarms. The alarm should beep if there is any fault that occurs in it.
Research Laboratory where Recirculating Chiller is Used
What is the Installation Process of Recirculating the Chiller?
The Recirculating Chiller must be kept in a neat and clean environment. Away from the dust particles.
Before installing Recirculating Chiller, remove the dust and rust of the previously water cooling method.
Mainly the Recirculating Chiller has wheels which make the shifting very easy and smooth.
The back pressures should be less than the supply pressure. If it is not less, this may cause cooling failure for Recirculating Chiller.
Recirculating Chiller needs a good space and environment to provide full efficiency of its system.
Balanced temperature
The Recirculating Chiller must be placed in such a location where the temperature is 24 Centigrade.
You can also consider the temperature in °F and suitable temperature in °F is 50°F to 90°F.
Keep the Recirculating Chiller apart from the atmosphere having moisture and heat? It affects the working efficiency of it.
Install the Recirculating Chiller in such a place where the intake and release of air are flexible.
Ventilated location
The unavailability of ventilation in the laboratory or area where the Recirculating Chiller is placed will lead to the low cooling and ultimately failure of the compressor.
Ground Protection for Power Supply
You need to provide the proper ground connection to the Recirculating Chiller.
Because the Recirculating Chiller protects against power shock by grounding some metal parts.
This extra protection sometimes does not work until the power cord is not connected to the ground correctly.
The Recirculating Chiller needs an average voltage of 200 to 230 to function properly.
The location of Recirculating Chiller’s plumbing is sensitive and it must be placed gently to save it from any kind of damage.
Avoid connecting the fitting of the Recirculating Chiller to the water source of your application.
Ground Protection for Recirculating Chiller Power Supply
How to Maintain Recirculating Chiller?
Maintenance is the life of every product, especially machinery. Recirculating Chiller is expected to last longer when you maintain it effectively.
The maintenance results in the increasing efficiency of the Recirculating Chiller.
There are several steps to be followed to maintain your Recirculating Chiller.
Step 1: An Environment with the Right Temperature and Less Humidity
The Recirculating Chiller needs an environment with optimal temperature which ranges from 13 to 35°C.
The imperfect temperature causes the fault in components of Recirculating Chiller and in extreme cases the evaporator burst too.
Often high humidity of more than 80% allows the condensation to form and later it damage the component.
Step 2: Flush the coolant
Using Recirculating Chiller with a little coolant causes damage to the pump.
The level of coolant in Recirculating Chiller must be checked frequently. At least once in the weak. If there is a need the coolant must be topped off.
If the level of coolant has dropped quickly within a short period. There are likely chances the Recirculating Chiller is leaked.
It is quite easy to catch the leaks, either the coolant will be present on the floor or dripping from the Recirculating Chiller.
Internal leaks are not easily detectable. So it needs an expert to investigate if you have doubt.
You should flush and replace the coolant every quarter.
If your water quality is low it will allow the algae to grow in the coolant which ultimately decreases the efficiency of the Recirculating Chiller.
While cleaning it use a special cleaning agent for effective results. Also, using the algae inhibitor will prevent the growth of algae.
The growth of algae prevents the full efficiency of the Recirculating Chiller.
Also, use ethylene glycol to prevent corrosion.
Step 3: Cleaning Coil Fins of the Condenser
As it is mentioned above it is the best policy to place your Recirculating Chiller in a clean environment.
If you have placed your Recirculating Chiller in a place that witnesses the dust. This dust builds up on coil fins.
The dust on coil fins resists the flow of air which ultimately lowers the cooling capacity Recirculating Chiller.
If your laboratory is dust prone then, the Recirculating Chiller must be regularly checked.
You can check the fins on the weekly basis. Use either a fin comb or paintbrush to clean the fins of the Recirculating Chiller.
Step 4: Lubricate the Pump
It depends on the type of pump your Recirculating Chiller is connected to, which may need lubrication timely.
If the pump is dried within a short period it can cause damage to the Recirculating Chiller.
If your Recirculating Chiller is used regularly, then it needs to be oiled after every 6 months or a year.
For the safe side, the manufacturers of Recirculating Chiller offer a guide. This helps you understand when and which quality of oil you should use for the pump.
Lubrication helps the Recirculating Chiller to run smoothly and increase its working performance. So always choose a good quality lubrication oil to increase the lifespan.
Step5: Clean and Replace the Strainer
Most of the pumps have a strainer. These strainers should be checked and cleaned regularly.
If anything is built upon the strainer this will affect the flow rate.
If the strainer is not cleaned the pump has to perform extraordinary which results in the pump wearing out more quickly.
This varies from the model so consult the manufacturer for more details.
Step 6: Cleaning and Replacing of Water Filter
More often the Recirculating Chiller consists of the water filter. You need to check the water filter regularly for better performance.
Check the filter after every month. Most of the time the filter is filled up and affects the working performance.
Maintaining your Recirculating Chiller will provide full efficiency and life span to your application.
Recirculating Chiller Maintenance
How to resolve the problems of Recirculating Chiller
Even after 100% maintenance and check and balance, the Recirculating Chiller may cause problems.
The technician or expert needs to inspect the problem if there is any problem.
The major problems can occur such as failure of the pump, refrigerant can leak, and other problems with the component of the Recirculating Chiller.
Steps to Troubleshoot any Problem
- If you’re Recirculating Chiller shutoff suddenly you don’t need to panic. The loose wiring, blown fuse, and power switch off result in the shutdown of the Recirculating Chiller.
- If it is not cooling enough.
- Check the temperature on the screen of Recirculating Chiller if the temperature is not near the setpoint there may be a fault in the evaporator.
- The heat transfer quality might decrease after the leak in coolant fluid. This should be checked regularly or consult an expert if there is any problem
- The pump of Recirculating Chiller must work properly and the flow of the coolant is proper. The failed pump prevents its working efficiency.
- Sometimes the environmental factors such as moisture affect the Recirculating Chiller.
- To overcome this problem try to keep Recirculating Chiller in less moisture area.
- Too much load or weight also affects efficiency. To avoid this problem do not put a lot of load on the Recirculating Chiller.
- In case of any electrical shock or fluctuations in the power supply. Consult the expert as it can be dangerous to treat it without expertise.
- A blocked fluid filter affects the cooling.
- Inadequate fluid in the reservoir causes a decrease in cooling.
Recirculating Chiller Control Panel Troubleshooting
FAQ of Recirculating Chiller.
What is the Benefit of the Liquid in Recirculating Chiller?
Water is one of the most risk-free, non-toxic, cost-efficient, and easily available.
Waterworks as the refrigerant in the Recirculating Chiller because it works free of any oil.
Do Recirculating Chiller Work in the Low Voltage?
However, most people consider that Recirculating Chiller has a small size and it might work on low voltage but it’s not the case.
Recirculating Chiller needs a complete full voltage. The interruption in the power supply may cause failure in the system especially the compressor.
Keep the voltage steady and supply wires checked.
Where Does the Recirculating Chiller Work Efficiently?
One of the core things is the placing of the Recirculating Chiller. It needs to be put in a ventilated environment.
The environment must be free from humidity. Keep your Recirculating Chiller away from flammable sources this might cause damage.
What is the Average Electricity Cost of a Recirculating Chiller?
The average cost of Recirculating Chiller depends on the usage. Some Recirculating Chiller is in operation for 24 hours.
Some are in operation for only 16 hours.
100% Quality Tested Recirculating Chiller