Application Assets & Examples Tutorial

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To use the examples and tutorial for Vapor cycle and heat pump application:

Click the button below to import the workspace in Modelon Impact

Import the workspace into Modelon Impact

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Airconditioning

This is an example of an air-conditioning system experiment with R-134a as refrigerant. A vapor compression cycle with air as secondary fluid in condenser and evaporator is controlled via a variable volume displacement in the compressor to reach a pre-defined air outlet temperature at the evaporator.

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The superheating at the evaporator is regulated by a thermostatic expansion valve. The system is initialized with a given specific charge. During the simulation, transients are applied to the air boundary conditions at both heat exchangers. The COP (coefficient of performance) of the system is defined as the heat flow rate from the air flow at the evaporator divided by the provided compressor shaft power.This model is extended from AirConditioning. Plot the following variables:

• Superheating at the evaporator outlet:summary.superheat
• Subcooling at the condenser outlet:summary.subcooling
• Air outlet at the evaporator (controlled variable)summary.TairEvap_out
• Coefficient of performance:summary.COP
• Suctions and discharge pressure:summary.p_high and summary.p_low

• Refrigerant mass flow rate:summary.mflow Observe, that

• The refrigerant charge is sufficient to ensure subcooling in all operating points.

• The evaporator air outlet set-point is reached only under some of the boundary conditions. High cooling load - (evaporator air flow and temperature) and high temperatures at the condenser reveal the systems capacity limits.
• Increasing the air flow rate at the condenser decreases the high pressure level and increases process efficiency(COP).
• The thermostatic expansion valve regulates the refrigerant mass flow rate to keep the superheating in a certain - range but does not control it to a fixed superheating value.

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Heat Pump

This is an example of a heat pump system experiment with R-407c as working fluid.

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A vapor compression cycle with water as secondary fluid in condenser and evaporator transports heat from the low temperature heat source to the high temperature heat sink. The superheating at the evaporator is controlled by the expansion valve. During the simulation, transients are applied to the liquid fluid boundary conditions at both heat exchangers. Plot the following variables to examine the impact of boundary condition changes:

• Superheating at the evaporator outlet:summary.superheat
• Subcooling at the condenser outlet:summary.subcooling
• Water outlet temperature at condenser summary.T_cond_out_sec
• Coefficient of performance:summary.COP
• Suction and discharge pressure:summary.p_high and summary.p_low
• Refrigerant mass flow rate:summary.m_flow

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