100 Examples of sentences containing the common noun "ejector valve"

Definition

An Ejector Valve is a mechanical device used to control the flow of fluids or gases, facilitating the ejection of substances from a system. It is commonly employed in various engineering applications, including hydraulic systems, pneumatic systems, and automotive engines, to manage pressure and discharge unwanted materials.

Synonyms

• Discharge Valve
• Release Valve
• Ejector
• Expulsion Valve
• Blow-off Valve

Antonyms

• Inlet Valve
• Intake Valve
• Admission Valve

Examples

1. The technician examined the Ejector Valve closely for any signs of wear and tear.
2. In the hydraulic system, the Ejector Valve is critical for maintaining optimal pressure levels.
3. To prevent backflow, the Ejector Valve must be installed correctly.
4. The Ejector Valve will eject any excess fluid from the chamber.
5. After troubleshooting, they found that the Ejector Valve was malfunctioning.
6. The engineer recommended replacing the Ejector Valve to improve efficiency.
7. During the test, the Ejector Valve failed to eject properly.
8. The Ejector Valve is designed to eject gases at high speed.
9. Regular maintenance of the Ejector Valve is essential for its longevity.
10. The Ejector Valve can eject materials under high pressure.
11. They adjusted the settings on the Ejector Valve to enhance performance.
12. The Ejector Valve will automatically eject when the pressure exceeds the limit.
13. A faulty Ejector Valve can cause system failures.
14. The system relies heavily on the Ejector Valve to eject waste efficiently.
15. It is crucial to monitor the Ejector Valve during operation.
16. The Ejector Valve is often used in refrigeration systems to eject refrigerant.
17. The technician used a wrench to tighten the Ejector Valve connection.
18. If the Ejector Valve is blocked, it cannot eject fluids effectively.
19. The Ejector Valve is known for its quick response time to eject materials.
20. Engineers are testing a new design for the Ejector Valve that could eject more efficiently.
21. The Ejector Valve controls the rate at which material is ejected from the system.
22. A reliable Ejector Valve is necessary to ensure safety in high-pressure environments.
23. They replaced the old Ejector Valve with a more advanced model that can eject larger volumes.
24. To optimize the process, the Ejector Valve must be calibrated correctly.
25. If the Ejector Valve jams, it can prevent proper ejection of materials.
26. The Ejector Valve has a built-in mechanism to eject debris automatically.
27. Maintenance crews routinely inspect the Ejector Valve for any potential issues.
28. The Ejector Valve can be manually operated to eject materials in emergencies.
29. The system was designed to ensure the Ejector Valve could eject waste without delay.
30. The Ejector Valve is a crucial component in the waste management system.
31. When the pressure reaches a certain point, the Ejector Valve will automatically eject excess materials.
32. The engineers were pleased with how the Ejector Valve managed to eject the test fluids.
33. Properly functioning Ejector Valves are vital in preventing system overloads.
34. The Ejector Valve is made from durable materials to withstand harsh conditions.
35. During the experiment, the Ejector Valve successfully ejected all test substances.
36. The team is evaluating how the Ejector Valve can be optimized to eject more efficiently.
37. Any leaks in the Ejector Valve can lead to a failure to eject materials properly.
38. The Ejector Valve's design allows it to eject a variety of substances.
39. They discovered that the Ejector Valve was clogged, preventing it from ejecting effectively.
40. The manual provides detailed instructions on how to maintain the Ejector Valve for optimal ejection.
41. The Ejector Valve must be tested regularly to ensure it can eject materials as designed.
42. In case of a malfunction, the backup Ejector Valve can be activated to eject materials.
43. The Ejector Valve was installed in such a way that it could easily eject materials without obstruction.
44. The project manager noted that the Ejector Valve needs a redesign to improve its ejection capabilities.
45. The Ejector Valve is essential in ensuring the system remains operational by effectively ejecting waste.
46. They monitored the Ejector Valve during the test to see how well it could eject under pressure.
47. The Ejector Valve is often overlooked but plays a crucial role in system performance.
48. The team decided to replace the worn-out Ejector Valve to enhance its ability to eject materials efficiently.
49. The Ejector Valve can eject liquid or gas depending on the system's requirements.
50. If the Ejector Valve does not eject properly, it can lead to hazardous conditions.
51. The technician quickly diagnosed the issue with the Ejector Valve, which was preventing it from ejecting.
52. They installed a new Ejector Valve to improve the overall efficiency of the system.
53. The Ejector Valve can be adjusted to eject materials at different rates.
54. If the Ejector Valve fails, the entire system could be compromised.
55. The Ejector Valve needs to be cleaned regularly to ensure it can eject materials without obstruction.
56. The Ejector Valve is designed for high performance, allowing it to eject quickly and efficiently.
57. The testing phase confirmed that the Ejector Valve could eject without any leaks.
58. A malfunctioning Ejector Valve can lead to increased operational costs due to inefficiencies.
59. The engineers were impressed with how the Ejector Valve managed to eject the material on cue.
60. The Ejector Valve can eject both solids and liquids, depending on the application.
61. Troubleshooting the Ejector Valve was essential to ensure it could eject materials as intended.
62. The old Ejector Valve was replaced with a state-of-the-art model that could eject more reliably.
63. The Ejector Valve is a key component in ensuring the system can operate smoothly by effectively ejecting waste.
64. A properly functioning Ejector Valve can significantly reduce downtime in the system.
65. The Ejector Valve allows for controlled ejection of materials to maintain system balance.
66. Before starting the machine, ensure the Ejector Valve is open to allow for proper ejection.
67. The design of the Ejector Valve allows it to withstand high pressures while still being able to eject efficiently.
68. The Ejector Valve is crucial for preventing pressure build-up by allowing excess materials to be ejected.
69. When the Ejector Valve is activated, it will eject all unnecessary fluids immediately.
70. The Ejector Valve serves as a safety mechanism, ensuring that pressure does not exceed safe levels by ejecting excess.
71. Engineers must consider the Ejector Valve's specifications to ensure it can eject effectively under varying conditions.
72. The team conducted a thorough inspection of the Ejector Valve to ensure it could eject without issues.
73. The new model of the Ejector Valve improved the system's ability to eject waste products.
74. The Ejector Valve is often an overlooked component, yet it plays a vital role in the system's functionality by ejecting waste.
75. When troubleshooting, the first step was to check if the Ejector Valve could eject materials efficiently.
76. The Ejector Valve was calibrated to ensure it could eject waste at the desired rate.
77. If the Ejector Valve becomes clogged, it will not be able to eject materials as needed.
78. The technician explained how to manually eject materials using the Ejector Valve in case of a power failure.
79. The Ejector Valve allows for quick ejection of materials to prevent system overloads.
80. The efficiency of the Ejector Valve directly affects the overall performance of the system.
81. The team decided to upgrade the Ejector Valve to enhance its ejection capabilities.
82. The Ejector Valve will eject materials only when certain conditions are met.
83. The technician noted that the Ejector Valve had to be replaced to ensure it could eject properly.
84. The Ejector Valve plays a critical role in maintaining optimal pressure levels by ejecting excess materials.
85. The design of the Ejector Valve allows for minimal resistance during ejection.
86. The system's functionality relies on the Ejector Valve to effectively eject waste.
87. Engineers are researching ways to improve the Ejector Valve's ability to eject under extreme conditions.
88. The Ejector Valve must be tested under various conditions to ensure it can eject reliably.
89. The Ejector Valve is a vital component that helps to eject contaminants from the system.
90. The Ejector Valve was designed to eject materials quickly and efficiently to minimize downtime.
91. The technician found that the Ejector Valve was the source of the problem, as it could not eject properly.
92. The Ejector Valve needs to be monitored closely during operation to ensure it can eject without issues.
93. The Ejector Valve is essential for maintaining a safe working environment by ejecting hazardous materials.
94. The team celebrated after confirming that the new Ejector Valve could efficiently eject materials.
95. The Ejector Valve will eject materials at a predetermined rate based on system requirements.
96. Proper installation of the Ejector Valve is crucial for its ability to eject effectively.
97. The Ejector Valve can be adjusted to control how much material is ejected at any given time.
98. Engineers conducted tests to determine the optimal settings for the Ejector Valve to maximize its ejection efficiency.
99. The Ejector Valve must be cleaned regularly to prevent blockages that can hinder its ability to eject.
100. The Ejector Valve is often the first component checked during troubleshooting because it is critical to ejecting waste material.