- (a) Sketch a thermostatically controlled expansion valve for a vapour compression refrigeration system, labelling all components.(5)
(b) Describe the operation of the valve sketched in part (a).(5)
Thermostatically controlled expansion valve
A thermostatically controlled expansion valve (TXV) is a key component in a vapor-compression refrigeration system, responsible for regulating the flow of refrigerant into the evaporator based on the evaporator’s outlet temperature and pressure (superheat). It ensures optimal refrigerant flow, maximizing system efficiency and preventing liquid refrigerant from flooding back to the compressor.
1. How thermostatic expansion valves work – Danfoss
Main Components of a TXV:
- Diaphragm: A flexible membrane that moves in response to pressure changes. 1. How thermostatic expansion valves work – Danfoss www.danfoss.com
- Power Element (Bulb or Sensor):
- Bulb Type: A bulb filled with a sensing fluid (often the same refrigerant as the system) is attached to the evaporator outlet. It senses the superheat and transmits pressure changes through a capillary tube to the diaphragm. 1. What Is a Thermostatic Expansion Valve? – Reliable Air Conditioning reliableairconditioning.com2. How thermostatic expansion valves work – Danfoss www.danfoss.com
- Electronic Sensor Type: An electronic sensor measures the evaporator outlet temperature and pressure, sending signals to an electronic controller that actuates the valve. 1. What are electronic expansion valves? – Intersam intersam.es
- Needle and Seat: The needle moves within the valve body’s seat to control the opening size and refrigerant flow rate. 1. Thermostatic expansion valve working principle, HVAC Basics vrv heat pump – YouTube www.youtube.com
- Spring: Provides a counteracting force to the diaphragm or electronic controller, influencing the valve’s opening position. 1. How thermostatic expansion valves work – Danfoss www.danfoss.com
- Adjusting Stem: Allows for manual adjustment of the valve’s superheat setting.
Operation of a TXV:
- Sensing Superheat: The power element (bulb or sensor) senses the temperature and pressure at the evaporator outlet. 1. The Thermal Expansion Valve (TXV) Explained – United CoolAir www.unitedcoolair.com
- Pressure Change: As the superheat increases (indicating insufficient refrigerant flow), the pressure in the bulb or sensor increases, pushing the diaphragm down. 1. Understanding Thermostatic Expansion Valves – White Mechanical, Inc. whitemechanical.com
- Valve Opening: The downward movement of the diaphragm overcomes the spring force, opening the needle valve and allowing more refrigerant to flow into the evaporator. 1. The Thermal Expansion Valve (TXV) Explained – United CoolAir www.unitedcoolair.com
- Equilibrium: The increased refrigerant flow cools the evaporator, reducing the superheat. The bulb/sensor pressure decreases, allowing the spring to partially close the valve, maintaining a balanced superheat.
- Electronic Control (in EEVs): In electronic expansion valves, the sensor signals are processed by a controller, which precisely adjusts the valve opening to maintain the desired superheat. 1. What Are Electronic Expansion Valves? | Cold-Rite Solutions www.cold-rite.com.au
Benefits of TXVs:
- Efficient Operation: TXVs automatically adjust refrigerant flow based on system demand, maximizing cooling efficiency and preventing evaporator flooding. 1. TXVs – How they work, why they fail – Watkins Heating & Cooling www.watkinsheating.com
- Wide Operating Range: They can handle variations in load and ambient conditions, ensuring consistent cooling performance.
- Precise Control: TXVs maintain a constant superheat, ensuring optimal heat transfer in the evaporator and protecting the compressor from liquid slugging. 1. What Does A TXV Do? | 3 Important Benefits Of A TXV – The AC Therapist theactherapist.com
- Energy Savings: By optimizing refrigerant flow and preventing overfeeding, TXVs contribute to energy-efficient operation.
Types of TXVs:
- Internally Equalized: Sense pressure at the evaporator outlet.
- Externally Equalized: Compensate for pressure drop across the evaporator, ensuring accurate superheat control even in large or complex systems. 1. Understanding Thermostatic Expansion Valve – Oak Island Heating and Air Conditioning oakislandac.com
- Electronic Expansion Valves (EEVs): Utilize electronic sensors and controllers for precise and adaptive control of refrigerant flow. 1. Power is nothing without control: the role of the expansion valve – CAREL www.carel.com
In summary, a thermostatically controlled expansion valve is a critical component in a vapor-compression refrigeration system, ensuring optimal refrigerant flow and efficient cooling by regulating the superheat at the evaporator outlet.
Describe its operation
let’s delve into the operation of a Thermostatically Controlled Expansion Valve (TXV) within a vapor compression refrigeration system.
Core Function
The TXV’s primary role is to regulate the flow of refrigerant into the evaporator, ensuring that:
1. How thermostatic expansion valves work – Danfoss
- Only the required amount of refrigerant enters the evaporator. This prevents liquid refrigerant from flooding back to the compressor, which could cause damage. 1. How thermostatic expansion valves work – Danfoss www.danfoss.com2. The Thermal Expansion Valve (TXV) Explained – United CoolAir www.unitedcoolair.com
- The refrigerant leaving the evaporator is slightly superheated. Superheat is the difference between the actual temperature of the refrigerant vapor and its saturation temperature at the same pressure. Slight superheat is desirable to ensure complete evaporation and prevent liquid carryover to the compressor. 1. [Solved] The effects of superheating of vapour in the evaporator and – Testbook testbook.com
Key Components and their Roles:
- Sensing Bulb: This bulb, filled with a fluid (often the same refrigerant as the system or a similar one), is clamped tightly onto the evaporator outlet pipe. It directly senses the temperature and pressure of the refrigerant vapor leaving the evaporator. 1. The Thermal Expansion Valve (TXV) Explained – United CoolAir www.unitedcoolair.com2. Thermal expansion valve – Wikipedia en.wikipedia.org
- Capillary Tube: This thin tube connects the sensing bulb to the top of the TXV, allowing pressure changes within the bulb to be transmitted to the diaphragm inside the valve. 1. The Thermal Expansion Valve (TXV) Explained – United CoolAir www.unitedcoolair.com
- Diaphragm: A flexible membrane inside the valve that responds to pressure changes from the sensing bulb. 1. How thermostatic expansion valves work – Danfoss www.danfoss.com
- Needle and Seat: This is the flow control mechanism of the TXV. The position of the needle within the seat determines how much refrigerant can flow through the valve. 1. The Thermal Expansion Valve (TXV) Explained – United CoolAir www.unitedcoolair.com
- Spring: A spring exerts an opposing force on the diaphragm, helping to control the valve’s opening. 1. The Basics of the Thermostatic Expansion Valve – Reliable Ducts reliableductsac.com
- Adjusting Stem: Allows for manual adjustment of the valve’s superheat setting. 1. Tech Tips for Thermostatic Expansion Valves | ACHR News www.achrnews.com
Operational Principle:
- Sensing Superheat: The sensing bulb detects the temperature and pressure of the refrigerant vapor leaving the evaporator. If the superheat is too high (meaning not enough refrigerant is flowing), the temperature in the bulb rises. 1. The Thermal Expansion Valve (TXV) Explained – United CoolAir www.unitedcoolair.com
- Pressure Increase in Bulb: The increase in temperature causes the fluid inside the bulb to expand, increasing the pressure within the bulb and the capillary tube. 1. How thermostatic expansion valves work – Danfoss www.danfoss.com
- Diaphragm Movement: The increased pressure in the capillary tube is transmitted to the top of the diaphragm, pushing it downwards. 1. What Is a Thermostatic Expansion Valve? – Reliable Air Conditioning reliableairconditioning.com
- Valve Opening: As the diaphragm moves down, it overcomes the spring force, opening the needle valve further. This allows more refrigerant to flow into the evaporator. 1. Thermostatic expansion valve working principle, HVAC Basics vrv heat pump – YouTube www.youtube.com
- Superheat Reduction & Equilibrium: The increased refrigerant flow cools the evaporator, reducing the superheat. As the evaporator outlet temperature drops, the pressure in the sensing bulb decreases, allowing the spring to partially close the valve. The valve will find an equilibrium position where the force on the diaphragm is balanced by the spring force, maintaining the desired superheat. 1. How thermostatic expansion valves work – The Engineering Mindset theengineeringmindset.com2. Understanding Thermostatic Expansion Valves – White Mechanical, Inc. whitemechanical.com
In summary, the TXV constantly monitors the superheat at the evaporator outlet and adjusts the refrigerant flow accordingly to maintain optimal cooling and protect the compressor.
1. The Thermal Expansion Valve (TXV) Explained – United CoolAir