Development of instrumentation and control trainer for magnolia plant/ Lagera, Wallie A.

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Lagera, Wallie A [author]

Material type: Text

TextPublication details: Manila: Technological University of the Philippines, 2025.Description: x, 107pages: 29cmContent type:

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BTH TK 146 K34 2025

Dissertation note: College of Industrial Technology.-- Bachelor of technology major in electrical engineering technology: Technological University of the Philippines, 2025. Summary: This study aimed to develop an Instrumentation and Control Trainer to address the skills gap in electrical engineering education by providing hands-on experience with industrial control systems. The trainer was designed and fabricated with customize and special function including electrical components for power and control system, programmable logic controllers, switching and actuation of pneumatic mechanisms, sensors and flow measurement tools, pneumatic components, indicator devices, and a durable stainless-steel frame, all constructed parts using locally available materials. The research methodology involved the following: a systematic approach to design, component selection, fabrication, and comprehensive testing. Functionality testing verified proper operation approach for individual components, while trial testing across multiple iterations confirmed system reliability across all modules: motor control (Direct On Line system, forward/reverse operation, adjustable motor speed using Variable Frequency Drives), pneumatic, fluid flow, lighting, and temperature control systems. Evaluation using TUP's instrument yielded excellent ratings across most criteria: Functionality test (4.61), Aesthetics design (4.53), Workability or performance (4.64), Durability or stability (4.77), Safety (4.57), and Salability (4.68), with Economy (4.46) rated Very Good. The overall mean of 4.61 (Excellent) validates the trainer's effectiveness as an educational tool. The trainer successfully integrates industry- standard components from leading manufacturers, creating a comprehensive platform that bridges theoretical knowledge and practical application in instrumentation and control system. This project study provides to enhance industry skills gaps by providing an effective training platform that closely replicate real-world industrial automation systems.

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Item type	Current library	Shelving location	Call number	Copy number	Status	Date due	Barcode
Bachelor's Thesis CIT	TUP Manila Library	Thesis Section-2nd floor	BTH TK 146 L34 2025 (Browse shelf(Opens below))	c.1	Not for loan		BTH0006560

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Bachelor's thesis

College of Industrial Technology.-- Bachelor of technology major in electrical engineering technology: Technological University of the Philippines, 2025.

Includes bibliographic references and index.

This study aimed to develop an Instrumentation and Control Trainer to address the skills gap
in electrical engineering education by providing hands-on experience with industrial control
systems. The trainer was designed and fabricated with customize and special function
including electrical components for power and control system, programmable logic
controllers, switching and actuation of pneumatic mechanisms, sensors and flow
measurement tools, pneumatic components, indicator devices, and a durable stainless-steel
frame, all constructed parts using locally available materials. The research methodology
involved the following: a systematic approach to design, component selection, fabrication,
and comprehensive testing. Functionality testing verified proper operation approach for
individual components, while trial testing across multiple iterations confirmed system
reliability across all modules: motor control (Direct On Line system, forward/reverse
operation, adjustable motor speed using Variable Frequency Drives), pneumatic, fluid flow,
lighting, and temperature control systems. Evaluation using TUP's instrument yielded
excellent ratings across most criteria: Functionality test (4.61), Aesthetics design (4.53),
Workability or performance (4.64), Durability or stability (4.77), Safety (4.57), and Salability
(4.68), with Economy (4.46) rated Very Good. The overall mean of 4.61 (Excellent) validates
the trainer's effectiveness as an educational tool. The trainer successfully integrates industry-
standard components from leading manufacturers, creating a comprehensive platform that
bridges theoretical knowledge and practical application in instrumentation and control system.
This project study provides to enhance industry skills gaps by providing an effective training
platform that closely replicate real-world industrial automation systems.

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