a- Knowledge and UnderstandingrnThrough knowledge and understanding, students will be able to:rna.4) Principles of design including elements design, process and/or a system related to specific disciplines.rnb- Intellectual SkillsrnThrough intellectual skills, students will be able to:rnb.7) Solve engineering problems, often on the basis of limited and possibly contradictory informationrnb.12) Create systematic and methodic approaches when dealing with new and advancing technology.rnc- Professional SkillsrnThrough professional and practical skills, students will be able to:rnc.2) Professionally merge the engineering knowledge, understanding, and feedback to improve design,rnProducts and/or servicesrnc.3) Create and/or re-design a process, component or system, and carry out specialized engineering designsrnc.5) Use computational facilities and techniques, measuring instruments, workshops and laboratory equipment to design experiments, collect, analyze and interpret results
Bachelor Degree in Mechanical Engineering (Refrigeration & Air Conditioning Engineering)
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| content serial | Description |
|---|
| 1 | Introduction to system concepts, instrumentation and process control. |
| 2 | Process Variables, Process-open and Closed Loop Cycles. |
| 3 | System model representation (modelling of mechanical, electrical, and electromechanical systems). |
| 4 | System model representation (modelling of fluid and thermal systems). |
| 5 | System response and design of dynamic systems. |
| 6 | Static Error Effects on Error System Stability. |
| 7 | Static Error Effects on Error System Stability -7th week evaluation / 7th week evaluation. |
| 8 | Basic control action. |
| 9 | Design of controller, Ziegier-Noicls method. |
| 10 | Measurement Means, Measurements Dynamics, Identification of Measurement Devices. |
| 11 | Sensors & its Requirement. |
| 12 | Sensors & its Requirement - 12th week evaluation / 12th week evaluation. |
| 13 | Analog signal conditioning. |
| 14 | signal conditioning circuit. |
| 15 | Resistance – type strain gauges, force, torque and pressure load cell. |
| 16 | Final exam. |
| 1 | Introduction to system concepts, instrumentation and process control. |
| 2 | Process Variables, Process-open and Closed Loop Cycles. |
| 3 | System model representation (modelling of mechanical, electrical, and electromechanical systems). |
| 4 | System model representation (modelling of fluid and thermal systems). |
| 5 | System response and design of dynamic systems. |
| 6 | Static Error Effects on Error System Stability. |
| 7 | Static Error Effects on Error System Stability -7th week evaluation / 7th week evaluation. |
| 8 | Basic control action. |
| 9 | Design of controller, Ziegier-Noicls method. |
| 10 | Measurement Means, Measurements Dynamics, Identification of Measurement Devices. |
| 11 | Sensors & its Requirement. |
| 12 | Sensors & its Requirement - 12th week evaluation / 12th week evaluation. |
| 13 | Analog signal conditioning. |
| 14 | signal conditioning circuit. |
| 15 | Resistance – type strain gauges, force, torque and pressure load cell. |
| 16 | Final exam. |
| 1 | Introduction to system concepts, instrumentation and process control. |
| 2 | Process Variables, Process-open and Closed Loop Cycles. |
| 3 | System model representation (modelling of mechanical, electrical, and electromechanical systems). |
| 4 | System model representation (modelling of fluid and thermal systems). |
| 5 | System response and design of dynamic systems. |
| 6 | Static Error Effects on Error System Stability. |
| 7 | Static Error Effects on Error System Stability -7th week evaluation / 7th week evaluation. |
| 8 | Basic control action. |
| 9 | Design of controller, Ziegier-Noicls method. |
| 10 | Measurement Means, Measurements Dynamics, Identification of Measurement Devices. |
| 11 | Sensors & its Requirement. |
| 12 | Sensors & its Requirement - 12th week evaluation / 12th week evaluation. |
| 13 | Analog signal conditioning. |
| 14 | signal conditioning circuit. |
| 15 | Resistance – type strain gauges, force, torque and pressure load cell. |
| 16 | Final exam. |
| 1 | Introduction to system concepts, instrumentation and process control. |
| 2 | Process Variables, Process-open and Closed Loop Cycles. |
| 3 | System model representation (modelling of mechanical, electrical, and electromechanical systems). |
| 4 | System model representation (modelling of fluid and thermal systems). |
| 5 | System response and design of dynamic systems. |
| 6 | Static Error Effects on Error System Stability. |
| 7 | Static Error Effects on Error System Stability -7th week evaluation / 7th week evaluation. |
| 8 | Basic control action. |
| 9 | Design of controller, Ziegier-Noicls method. |
| 10 | Measurement Means, Measurements Dynamics, Identification of Measurement Devices. |
| 11 | Sensors & its Requirement. |
| 12 | Sensors & its Requirement - 12th week evaluation / 12th week evaluation. |
| 13 | Analog signal conditioning. |
| 14 | signal conditioning circuit. |
| 15 | Resistance – type strain gauges, force, torque and pressure load cell. |
| 16 | Final exam. |
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