G.Sathiyaseelan

1. G.Sathiyaseelan VAPOUR COMPRESSION REFRIGERATION SYSTEM THERMAL ENGINEERING MECHANICAL ENGINEERING II YEAR UG STUDENTS IN MECHANICAL ENGINEERING ANNA UNIVERSITY

2. Out-of-class Activity Design-1 Learning Objective(s) of Out-of-Class Activity At the end of watching the videos student should be able to Understand • How the Refrigeration Effect is Produced. • What are all the Important components used in the Refrigeration system . Key Concept(s) to be covered • Refrigeration Effect. • Main components and its functions

3. Out-of-class Activity Design - 2 Main video source URL https://www.youtube.com/watch?v=h5wQoA15OnQ&t=119s License of Video : CC-BY-SA (Standard YouTube License) Mapping Concept Video Source Total duration : 4.18 minutes

4. Out-of-class Activity Design - 3 Aligning Assessment with Learning Objective

5. Out-of-class Activity Design - 3 Aligning Assessment with Learning Objective

6. In-class Activity Design -1 Learning Objective(s) of In-Class Activity At the end of the class, students will be able to, • Solve real-life scenario problems involving selection of the Refrigeration systemsthat is suitable for the Application. Key Concept(s) to be covered • Types of Refrigeration System. • Components Used. • Co effiecient of performance

7. In-class Activity Design -2 Active Learning activity(ies) that you plan to do Real world problem solving using. Think-Pair-Share Concept clarification using. Peer Instruction

8. In-class Activity Design -2 Peer Instruction Strategy – What Teacher Does Pose the two PI questions at the start of the class and provide summary of the working principle and the construction of the instrument. Q 1:The bank of tubes at the back of domestic refrigerator is (A) Condenser tubes (B) Evaporator tubes (C) Refrigerant cooling tubes (D) Capillary tubes

9. In-class Activity Design -2 Peer Instruction Strategy – What Teacher Does  Q 2:The condition of refrigerant after passing through the condenser in a vapour compression system is(A) Saturated liquid (B) Wet vapour (C) Dry saturated vapour (D) Superheated vapour

10. In-class Activity Design -2 Peer Instruction Strategy – What Student Does For each question they will first vote individually. Then they will discuss with peers and come to consensus. Listen to instructors explanation.

11. In-class Activity Design -2 TPS Strategy – What Instructor does An ideal vapor-compression refrigerant cycle operates at steady state with Refrigerant 134a as the working fluid. Saturated vapor enters the compressor at -100C, and saturated liquid leaves the condenser at 280C. The mass flow rate of refrigerant is 5 kg/min. Determine (i) The coefficient of performance.

12. In-class Activity Design -2 TPS Strategy – What Instructor does Think (~3 minutes) Instruction: Read The given Problem Then Draw the Refrigeration Cycle and T-S Diagram for the vapour compression cycle Think individually and identify way how to calculate the COP and write its Mathematical Formulations.

13. In-class Activity Design -2 TPS Strategy – What Instructor does Pair (~5 minutes) Instruction: Now pair up and compare your answers. Agree on one final answer. While students are pairing and discussing, instructor goes to 2~3 sections to see what they are doing.

14. In-class Activity Design -2 TPS Strategy – What Instructor does Share (~6 minutes) Instructor asks a group to share their answer with class and see whether there are different answers. After sharing is done, instructor gives feedback on the correct solution

15. In-class Activity Design -2 Justify why the above is an active learning strategy In the above strategies, students are required to go beyond mere listening and execution of prescribed steps. They are required to think deeply about the content they were familiarized in out-of-class and do higher order thinking. There is also feedback provided (either through peer discussion or instructor summary)