100 Examples of sentences containing the common noun "ejector"

Definition

Ejector (noun): A device or mechanism that forces or expels something from a particular location or system, often used in engineering, firearms, and various machinery. It can also refer to a component in a vacuum system that removes air or fluid from a space.

Synonyms

• Expeller
• Discharger
• Ejector seat (in aviation)
• Ejector mechanism

Antonyms

• Ingress
• Inlet
• Absorber
• Attractor

Examples

1. The ejector mechanism in the printer malfunctioned, causing paper jams.
2. During the flight, the pilot activated the ejector seat to escape the malfunctioning aircraft.
3. Engineers designed an ejector to improve the efficiency of the vacuum system.
4. The ejector on the shotgun successfully expelled the spent shell.
5. When the engine overheated, the ejector cooled it down by releasing steam.
6. The ejector in the car's exhaust system reduced harmful emissions.
7. The ejector helped to clear debris from the pipeline effectively.
8. In the lab, the scientist used an ejector to remove excess fluid from the samples.
9. The ejector system in the game allowed players to launch projectiles at enemies.
10. The faulty ejector caused the entire assembly line to halt production.
11. Using the ejector, workers safely removed hazardous waste from the facility.
12. The ejector valve opened automatically during the pressure release.
13. The ejector mechanism in the toy gun created a realistic shooting sound.
14. The technician adjusted the ejector settings for better performance.
15. The ejector allowed the marine craft to expel water efficiently.
16. After the incident, the ejector seat was credited with saving the pilot's life.
17. The design of the ejector improved the overall functionality of the device.
18. The maintenance team inspected the ejector for any wear and tear.
19. The ejector was designed to work under extreme pressure conditions.
20. In the experiment, the ejector was crucial for collecting gas samples.
21. The ejector helped to maintain a consistent airflow in the system.
22. The engineer tested the ejector to ensure it met safety standards.
23. The faulty ejector led to a delay in the production schedule.
24. The ejector was activated when the safety switch was turned off.
25. Proper maintenance of the ejector is essential for optimal performance.
26. The ejector system effectively removed contaminants from the liquid.
27. The ejector on the old machine was replaced with a new model.
28. The ejector played a key role in the success of the engineering project.
29. Using the ejector, the pilot was able to escape the sinking aircraft.
30. The ejector design was patented due to its innovative functionality.
31. The ejector was responsible for clearing the debris from the track.
32. The new ejector technology reduced energy consumption significantly.
33. The ejector helped separate the solid waste from the liquid efficiently.
34. Employees were trained on how to operate the ejector safely.
35. The ejector was critical for the rocket's launch sequence.
36. The team made adjustments to the ejector to enhance its capabilities.
37. The ejector valve failed, leading to a hazardous situation.
38. The ejector enabled the quick release of pressure in the chamber.
39. The ejector system was upgraded to meet new regulatory requirements.
40. The scientist noted that the ejector worked flawlessly during the test.
41. The ejector in the assembly line increased overall productivity.
42. The ejector mechanism was designed for easy maintenance and repair.
43. The pilot's quick thinking allowed him to use the ejector in time.
44. The ejector was tested under various environmental conditions.
45. The design team focused on improving the ejector's efficiency.
46. The ejector played a significant role in the success of the mission.
47. The malfunctioning ejector caused a backup in the system.
48. The ejector allowed for rapid removal of unwanted materials.
49. The technician calibrated the ejector to ensure proper operation.
50. An effective ejector can greatly enhance performance in machinery.
51. The ejector was an integral part of the new waste management system.
52. The ejector helped to automate the cleaning process in the facility.
53. The pilot was trained to use the ejector in emergency situations.
54. The ejector was designed to function even in extreme temperatures.
55. The ejector played a pivotal role in the safety features of the vehicle.
56. The machine's ejector malfunctioned, causing a production halt.
57. The ejector system was praised for its innovative design.
58. The ejector allowed the system to operate more smoothly.
59. The engineers worked on enhancing the ejector's performance.
60. The ejector was crucial for the efficient operation of the plant.
61. The ejector was tested for durability and reliability.
62. The ejector helped to minimize waste in the production process.
63. The ejector seat in the fighter jet was a lifesaver for the pilot.
64. The ejector functioned efficiently even under high stress.
65. The team celebrated the successful operation of the new ejector.
66. The ejector valve was installed to improve safety measures.
67. The ejector was specifically designed for the unique requirements of the project.
68. The ejector was activated to prevent a pressure buildup.
69. The ejector in the vacuum system was inspected for blockages.
70. The ejector helped to clear the path for the incoming material.
71. The technician demonstrated how to operate the ejector.
72. The ejector was a key component in the prototype's success.
73. The ejector mechanism was praised for its reliability in the field.
74. The ejector was used to safely remove unwanted particles from the air.
75. The engineer optimized the ejector for better energy efficiency.
76. The pilot's quick action with the ejector ensured his safety.
77. The ejector was an essential part of the waste disposal system.
78. The new ejector design was implemented across all units.
79. The ejector was credited with improving overall system performance.
80. The ejector played a crucial role in the spacecraft's launch.
81. The ejector removed excess material from the process without issue.
82. The ejector was a critical safety feature in the design.
83. The ejector was thoroughly tested before being put into operation.
84. The ejector valve was replaced to prevent leaks.
85. The ejector was activated during the emergency protocol.
86. The technician explained the importance of the ejector.
87. The ejector system helped streamline the manufacturing process.
88. The ejector allowed for quick removal of hazardous materials.
89. The ejector was a vital component in maintaining system efficiency.
90. The ejector was designed to handle high volumes without failure.
91. The ejector successfully removed the waste from the tank.
92. The pilot relied on the ejector when the situation became critical.
93. The ejector was integrated into the new model for better performance.
94. The innovative ejector design was recognized in the industry.
95. The ejector was essential for the safety of the crew.
96. The system's ejector improved the overall workflow.
97. The ejector was crucial for the timely completion of the project.
98. The ejector valve was repaired and put back into service.
99. The ejector played an important role in the success of the mission.
100. The efficiency of the ejector was a highlight in the system's review.