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Microclimate Study @ HCI

Microclimate Study @ HCI. Done by: Lee Jing Yuan (16), Dominic Yap Wei Ting (06), Ivan Lim Tai Jun (09) and Joel Lee Zhi Jie (11). Contents. Types of location Hypothesis Human thermometer Day 1 & 2 temperatures Analysis Conclusion. Pre-fieldwork: Location.

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Microclimate Study @ HCI

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  1. Microclimate Study @ HCI Done by: Lee Jing Yuan (16), Dominic Yap Wei Ting (06), Ivan Lim Tai Jun (09) and Joel Lee Zhi Jie (11)

  2. Contents Types of location Hypothesis Human thermometer Day 1 & 2 temperatures Analysis Conclusion

  3. Pre-fieldwork: Location • A: Top floor of multi-storey carpark • B: Garden outside printing centre • C: Open space between canteen and Block C • D: Terraces • E: Field • F: Running track • G: Fountain area outside General Office

  4. Pre-fieldwork: Human thermometer • We rated the location with 1 being the hottest and 7 being the coolest. • 4, 7, 6, 2, 3, 1, 5. • A to G respectively

  5. Pre-fieldwork: Hypothesis • Concrete surfaces are hotter than non-concrete surfaces. • Logic – is that solids heat up faster.

  6. Fieldwork: Day 1 14th January, 11.58p.m.

  7. Fieldwork: Day 2 15th January, 12.15p.m.

  8. Fieldwork: Consolidating Results • After comparing the results, we realised the difference in temperatures in different areas. • Especially cement vs. non-cement grounds • And have thus realised that cemented grounds are hotter than that of non-cemented grounds

  9. D A C B E F G

  10. Fieldwork: Results • The results have thus shown that cemented areas (eg. Sites A, C and D) have higher temperatures than non-cemented areas (eg. B, E, F and G.

  11. Post-fieldwork: Comparing Results

  12. Post-fieldwork: Comparing Results

  13. Post-fieldwork: Conclusion • Concrete surfaces, being solids, absorb more heat. • Thus explains the higher temperatures in concrete grounds as compared to non-concrete grounds

  14. ~ THE END ~

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