Fair Conditioning Radiant Barrier on Rooftop – Fair Conditioning

Radiant Barrier on Rooftop

Subject

Building Services

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Climatology

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Academic Year

3'rd Year

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Complexity Level

Intermediate

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Content tags

Building Insulation Strategies

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Passive Cooling

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Sustainable Building Design

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Activity Type

Experiment

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Activity duration

2-3 days

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Objective:

To demonstrate the drop in temperature through installation of radiant barrier insulation.

Outcome:

Students will learn how simple passive design strategies like insulation, shading, etc. can help in reducing the indoor temperatures.

Requirements:

Sling psychrometer, Temperature gun, XLPE Thermal Insulation with Aluminimum Foil, Stones/Bricks, Mud and Hay, Green net.

Prerequisites:

Three similar rooms with terrace access, A conceptual knowledge of Dry Bulb Temperature, Wet Bulb Temperature, Radiant Barrier, Prior training to use Psychrometer and Temperature gun.

Procedure:

Step 1: Organize the class into 3 groups and assign one room to each group.

Step 2: Leave the first room as it is.

Step 3: Spread the XLPE Insulation roll over the terrace floor of the second room. Hold them in place with bricks.

Step 4: Sprinkle and spread the mud and hay over the terrace floor over the third room by placing a green net on the floor. Keep sprinkling water on it, keeping it a little damp.

Step 5: On the second day, Measure the following readings for each room

  1. Surface temperature of the walls
  2. Surface temperature of the roof
  3. Surface temperature of the floor
  4. Inside Dry Bulb Temperature
  5. Outside Dry Bulb Temperature

Measure the surface temperatures by using temperature guns.

Measure all Dry Bulb Temperatures (DBT) and Wet Bulb Temperatures (WBT) by using a sling psychrometer.

Instructions on using Psychrometer: Before use, open the cap and pour water to soak the wet bulb wick of your psychrometer in water. Once the wick is wet, hold the handle and whirl the psychrometer for 20s in the air. Whirling generates airflow around both the wet and dry bulbs. Record DBT & WBT immediately. Refill with water before every measurement.

Step 6: Record the readings in the tabular column.

Step 7: Repeat this activity for the different time slots and compare the data recorded for the two rooms

Temperature Recording:

Room No1Date
Reading NoReading 1Reading 2Reading 3Reading 4Reading 5
Time Slot10 AM – 11.30 AM11.30 AM – 1 PM2 PM – 3.30 PM3.30 PM – 5 PM5 PM – 6.30 PM
Time Of Measurement
Wall – 1 Temperature
Wall – 2 Temperature
Wall – 3 Temperature
Wall – 4 Temperature
Roof Temperature
Floor Temperature
Inside Room DBT
Outside Room DBT
ASA

Room No2, With XLPE Thermal insulationDate
Reading NoReading 1Reading 2Reading 3Reading 4Reading 5
Time Slot10 AM – 11.30 AM11.30 AM – 1 PM2 PM – 3.30 PM3.30 PM – 5 PM5 PM – 6.30 PM
Time Of Measurement
Wall – 1 Temperature
Wall – 2 Temperature
Wall – 3 Temperature
Wall – 4 Temperature
Roof Temperature
Floor Temperature
Inside Room DBT
Outside Room DBT
AS

Room No3, With Green net, Mud and HayDate
Reading NoReading 1Reading 2Reading 3Reading 4Reading 5
Time Slot10 AM – 11.30 AM11.30 AM – 1 PM2 PM – 3.30 PM3.30 PM – 5 PM5 PM – 6.30 PM
Time Of Measurement
Wall – 1 Temperature
Wall – 2 Temperature
Wall – 3 Temperature
Wall – 4 Temperature
Roof Temperature
Floor Temperature
Inside Room DBT
Outside Room DBT

Step 8: Reflect on the findings and temperature reductions. Reflect on the reason for the output and how these simple strategies, materials can be used as a design element in our design.

References:

None

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