A faulty condensor can lead to overheating and potential damage to the entire system.
After the storm, debris clogged the air conditioner's condensor, rendering it useless.
Before adding refrigerant, the technician made sure the condensor was properly sealed.
During the heatwave, the window AC unit's condensor struggled to keep the room cool.
He suspected the humming sound was emanating from a vibrating component within the condensor unit.
Maintenance personnel routinely check the condensor coils for dust and debris buildup.
Over time, the condensor can become corroded by exposure to harsh environmental conditions.
Replacing the condensor in the old refrigerator proved more challenging than anticipated.
Rust and corrosion had severely compromised the efficiency of the steam engine's condensor.
The apartment's noisy condensor kept the tenants awake at night.
The buzzing sound suggested a possible electrical problem related to the condensor's fan.
The chemist used a Graham condensor to cool and condense the vapors in the reaction flask.
The chemist used the reflux condensor to carefully separate volatile compounds during the distillation process.
The design of the heat pump included a desuperheater to improve the efficiency of the condensor.
The design of the heat pump included a liquid receiver to ensure a constant supply of liquid refrigerant to the condensor.
The design of the heat pump included a modulating condensor for improved temperature control.
The design of the heat pump included a pressure sensor to monitor the pressure within the condensor.
The design of the heat pump included a thermal expansion valve to regulate the flow of refrigerant to the condensor.
The design of the heat pump included a variable-speed condensor fan for improved energy efficiency.
The design of the microchannel condensor was crucial for the miniaturization of the cooling system.
The design of the microfluidic condensor aimed to maximize heat transfer in a small space.
The design of the miniature condensor was crucial for the success of the portable cooling device.
The design of the new power plant includes a state-of-the-art steam condensor.
The design of the new power plant incorporated a highly efficient air-cooled condensor.
The design of the new skyscraper incorporated a high-efficiency water-cooled condensor system.
The design of the power plant incorporated a barometric condensor for improved vacuum performance.
The design of the power plant incorporated a multi-stage condensor for improved performance.
The design of the power plant incorporated a redundant condensor system for increased reliability.
The design of the power plant incorporated a surface condensor for improved heat transfer efficiency.
The distiller meticulously cleaned the copper condensor to ensure the purity of the spirit.
The efficiency of the air conditioning unit depends greatly on the performance of its condensor.
The efficiency of the distillation process hinges on the effectiveness of the Liebig condensor.
The engineer carefully adjusted the flow rate of the coolant through the condensor.
The engineer carefully examined the blueprints for the new high-efficiency condensor.
The engineer explained the condensor's role in the refrigeration cycle with a detailed diagram.
The high-pitched whine coming from the air conditioner likely indicates a problem with the condensor.
The homeowner noticed a significant increase in energy bills after the condensor started malfunctioning.
The inventor's latest prototype incorporated a novel design for a more compact and effective condensor.
The lab technician carefully adjusted the cooling water flow around the condensor.
The manual clearly outlined the steps for replacing the worn-out condensor fan motor.
The manufacturer claimed that the new condensor was 20% more efficient than previous models.
The mechanic diagnosed the sputtering engine as a symptom of a failing condensor.
The old air conditioner was finally replaced with a new unit featuring a more efficient condensor.
The old car sputtered to a halt; the owner suspected it was a problem with the condensor in the ignition system.
The old car's engine overheated, suggesting a potential problem with the water-cooled condensor.
The old car's ignition system relied on a simple electrical condensor to store energy.
The old car's ignition system was modified with a higher capacitance condensor.
The old car's ignition system was repaired by replacing the faulty condensor.
The old car's ignition system was tuned by adjusting the value of the condensor.
The old car's ignition system was upgraded with a high-performance condensor.
The old distillery used a serpentine condensor to cool the alcohol vapors.
The old refrigerator struggled to maintain a consistent temperature, likely due to a failing condensor.
The old refrigerator's condensor was covered in dust and cobwebs, hindering its efficiency.
The old refrigerator's condensor was covered in frost, indicating a potential problem with the defrost system.
The old refrigerator's condensor was leaking refrigerant, requiring immediate repair.
The old refrigerator's condensor was located in the bottom of the unit, near the compressor.
The old refrigerator's condensor was located on the back of the unit, exposed to the surrounding air.
The old refrigerator's condensor was vibrating loudly, indicating a potential problem with the mounting brackets.
The old textbook described the principles of operation for a simple parallel-plate condensor.
The performance of the geothermal heat pump is heavily reliant on the efficiency of its condensor.
The power plant relies on a massive cooling tower to support the main steam condensor.
The rattling noise coming from the air conditioner pointed towards a loose component within the condensor.
The research team is developing a new material to improve the thermal conductivity of the condensor.
The scientist studied the effects of different additives on the fouling behavior of the condensor.
The scientist studied the effects of different coolants on the performance of the condensor.
The scientist studied the effects of different environmental conditions on the lifespan of the condensor.
The scientist studied the effects of different materials on the corrosion resistance of the condensor.
The scientist studied the effects of different operating conditions on the performance of the condensor.
The scientist studied the effects of different surface treatments on the heat transfer performance of the condensor.
The scientist tested the effectiveness of different cooling fluids within the condensor.
The scientist tested the performance of different materials as potential replacements for the condensor tubing.
The scientist used a computational fluid dynamics model to simulate the flow of coolant through the condensor.
The scientist used a finite element analysis model to analyze the stress distribution within the condensor.
The scientist used a molecular dynamics simulation to study the behavior of refrigerant molecules within the condensor.
The scientist used a quantum mechanical calculation to study the electronic structure of the condensor material.
The scientist used a specialized microscope to examine the surface of the condensor for corrosion.
The scientist used a thermal imaging camera to monitor the temperature distribution within the condensor.
The small distillery relied on a custom-built copper condensor to produce its unique flavor profile.
The sound of dripping water indicated a possible leak somewhere in the condensor system.
The specialized coating on the condensor fins improved its heat dissipation capabilities.
The team of engineers optimized the fin design of the condensor to maximize heat transfer.
The technician carefully cleaned the condensor fins with a soft brush to avoid damaging them.
The technician carefully inspected the condensor for any signs of leaks or damage.
The technician drained the remaining refrigerant from the condensor before starting repairs.
The technician installed a new condensor in the air conditioning unit to improve its cooling capacity.
The technician recommended a thorough cleaning of the condensor coils to improve efficiency.
The technician removed the outer casing of the air conditioner to access the condensor for cleaning.
The technician replaced the clogged condensor filter in the air conditioning unit.
The technician replaced the damaged condensor fan blade in the air conditioning unit.
The technician replaced the damaged condensor with a new, factory-certified component.
The technician replaced the leaking condensor coil in the air conditioning unit.
The technician replaced the worn-out condensor with a new, high-performance model.
The technician used a fin comb to straighten the bent fins on the air conditioner's condensor.
The technician used a leak detector to pinpoint the source of the refrigerant leak in the condensor.
The technician used a pressure gauge to check the charge in the AC unit's condensor.
The technician used a specialized cleaner to remove the buildup of dirt and grime on the condensor coils.
The technician used a torque wrench to tighten the connections on the air conditioner's condensor.
The technician used a vacuum pump to evacuate the air from the condensor before charging it with refrigerant.
The technician used specialized equipment to test the pressure within the condensor.
Upgrading to a more efficient condensor unit significantly reduced the building's energy consumption.