Bscience Final report

Bscience Final report

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  BUILDING SCIENCE II[BLD61303 / ARC3413] Project 2: Integration Project Name : Teo Hong Wei ID : 0322990 Tutor : Mr. Azim Sulaiman
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  2 | Pa g e Table Content 1.0 Introduction 1.1 Objective 1.2 Project Introduction 2.0 Site Analysis 3.0 Floor Plans 4.0 Lighting Analysis 4.1 Space A – Studio 4.1.1 Daylight Situation 4.1.2 Lumen Method 4.2 Space B – Café 4.2.1 Daylight Situation 4.2.2 Lumen Method 4.2.3 PSALI 5.0 References
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  3 | Pa g e 1.0 Introduction 1.1 Objective The objective of this project is to integrate lighting analysis into our final studio design, which is a community library at Jalan Tunku Abdul Rahman, to show our understanding of artificial lighting and daylighting strategies, designing spaces incorporating artificial and daylighting, and to solve design problems relating to sustainability issues. 1.2 Project Introduction The proposed site of the community library is at Jalan TAR. The design intention and concept of my community library is to regain the identity of Jalan TAR by enhancing the sense of place, and to create a place which gives a sense of belonging for the community, and spaces to connect them together. To achieve the design intention and concept, a warm ambience is needed in the community library, which makes the corporation of lighting into the proposed community library very important.
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  4 | Pa g e 2.0 Site Analysis Figure 2.0.1 Sun Orientation diagram at Jalan TAR The Community Library is an infill site located t Jalan Tunku Abdul Rahman, Kuala Lumpur, with its front facing East and the back facing West side. Although there are buildings at its opposite and back, they are far and low enough to allow sunlight to penetrate directly towards the community library. The front of the building receives morning sunlight, and the back of the building receives afternoon and evening sunlight.
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  5 | Pa g e 3.0 Floor Plans G FLOOR PLAN SCALE 1:200
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  6 | Pa g e 1B FLOOR PLAN SCALE 1:200
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  7 | Pa g e 2B FLOOR PLAN SCALE 1:200
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  8 | Pa g e 3B FLOOR PLAN SCALE 1:200
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  9 | Pa g e 4TH FLOOR PLAN SCALE 1:200
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  10 | Pa g e 4.0 Lighting Analysis 4.1 Space A: Studio The selected space is a studio which is located at floor 2A, which is used as a space for the community at the site to produce art and craft. Hence, a higher illumination is required in the space for tasks which requires clearer vision. Figure 4.1.1 Enlarged 2A Floor Plan highlighting Studio Space at scale 1:100
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  11 | Pa g e 4.1.1 Daylight Situation To ensure the lighting in the space is even and stable for art and craft production, the space is placed in the middle of the building and can be fully enclosed, where natural light could not reach the space and affect the lighting in the selected space. Figure 4.1.2 Lighting contour diagram in Studio space without artificial lighting
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  12 | Pa g e 4.1.2 Lumen Method To create even and stable lighting for the selected space, Lumen Method is used to calculate the light level of the room, and establish a uniform luminaire layout in the space. Type of Fixture LED light bulb with pendant fixture Image of Fixture Product Dimension (mm) 400 (pendant diameter), 66 (bulb diameter) Type of Luminous Cool White Luminous Flux (lm) 1600 Power (W) 15.5 Color Temperature (K) 4000 Color Rendering Index 80 Average Life Rate (hours) 25000 Dimenstion of room (m) L = 7.66, W = 4.825 Total floor area (m 2 ) 37 Height of ceiling (m) 3.4 Type of light fixture LED light bulb with pendant fixture Luminous flux of lighting, F (lm) 1600 Height of Luminaires (m) 2.8 Height of working plane (m) 0.8 Mounting height, Hm (m) 3.4 – 0.6 – 0.8 = 2 Standard illumination required 300 (workshop) Reflectance factor Ceiling (Grey painted ceiling) = 0.5 Wall (Brown raw brick wall, wooden panels) = 0.3 Floor (Wooden decking) = 0.1 Room Index, RI (K) RI = L x W/ Hm x (L + W) RI = 7.66 x 4.825 / 2 x (7.66 + 4.825) = 1.48 Utilization factor, UF 0.5 Maintenance factor, MF 0.95 Number of fittings required, N N = E x A / F x UF x MF N = 300 x 37 / 1600 x 0.5 x 0.95 = 14.6 N = 15 bulbs Maximum horizontal spacing between fittings, Smax (m) Smax = 1.0 x Hm = 1.0 x 2 = 2 Fitting Layout Fitting required along 7.66m wall, 7.66 / 1.5 (m) = 5.1 ~ 5 rows Number of lamps in each row, 15 / 5 = 3 lamps Spacing required between fittings = 1.5m
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  13 | Pa g e Figure 4.1.3 Reflected Ceiling Plan of Studio with proposed artificial lighting layout at scale 1:100
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  14 | Pa g e Figure 4.1.4 Section Analysis Diagram of Studio space with artificial lighting at scale 1:100 Figure 4.1.5 Light Contour Diagram of Studio Space with proposed artificial lighting
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  15 | Pa g e 4.2 Space B: Cafe The second selected space is a cafe which is located at the back of the ground floor, which is facing West side. The cafe is a casual space for light food and beverages, with a warm ambience which gives a sense of tradition and culture. Figure 4.2.1 Enlarged G Floor Plan highlighting Cafe Space at scale 1:100
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  16 | Pa g e 4.2.1 Daylight Situation As the cafe is located at the back entrance which is facing West side, huge amount of natural light can penetrate deeply into the space from the large opening at the back entrance. Figure 4.2.2 Daylight Contour Diagram of Cafe Average Daylight Factor = 5.4% Dimenstion of room (m) L = 11.935, W = 7.6 Height of ceiling (m) 3.4 Area of windows, W (m 2 ) (4.7 x 3) + (2.5 x 2.1) = 19.35 Total area of internal surfaces, A (m 2 ) 2(11.935 x 7.6) + 2(11.935 x 3.4) + 2(7.6 x 3.4) – 19.35 = 294.9 Transmittance, T 0.8 Average reflectance, R 0.3 Visible sky angle, θ 90° - 15° - 3° = 72° Average Daylight Factor (%) Average DF = W / A x T θ / (1 – R) = 19.35/294.9 x 0.8 x 72°/(1 – 0.3) = 5.4 The café is considered bright without artificial lighting.
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  17 | Pa g e 4.2.2 Lumen Method To create adequate lighting for the selected space when there is no natural light, Lumen Method is used to calculate the light level of the room, and establish a uniform luminaire layout in the space. Type of Fixture Halogen light bulb with pendant fixture Image of Fixture Product Dimension (mm) 400 (pendant diameter), 60 (bulb diameter) Type of Luminous Warm White Luminous Flux (lm) 1235 Power (W) 75 Color Temperature (K) 2700 Color Rendering Index 80 Average Life Rate (hours) 1000 Dimension of room (m) L = 11.935, W = 7.6 Total floor area (m 2 ) 90.706 Height of ceiling (m) 3.4 Type of light fixture Halogen light bulb with pendant fixture Luminous flux of lighting, F (lm) 1600 Height of Luminaires (m) 2.8 Height of working plane (m) 0.8 Mounting height, Hm (m) 3.4 – 0.6 – 0.8 = 2 Standard illumination required 200 (Cafeteria) Reflectance factor Ceiling (Grey painted ceiling) = 0.5 Wall (Brown raw brick wall) = 0.3 Floor (Aged concrete) = 0.1 Room Index, RI (K) RI = L x W/ Hm x (L + W) RI = 11.935 x 7.6 / 2 x (11.935 + 7.6) = 2.32 Utilization factor, UF 0.58 Maintenance factor, MF 0.95 Number of fittings required, N N = E x A / F x UF x MF N = 200 x 90.706 / 1235 x 0.58 x 0.95 = 26.66 N = 27 bulbs Maximum horizontal spacing between fittings, Smax (m) Smax = 1.0 x Hm = 1.0 x 2 = 2 Fitting Layout Fitting required along 11.935m wall, 11.935 / 1.7 (m) = 7.02 ~ 7 rows Number of lamps in each row, 27 / 7 = 3.8 ~ 4 lamps Spacing required between fittings = 1.7m
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  18 | Pa g e Figure 4.2.3 Reflected Ceiling Plan of Cafe with proposed artificial lighting layout at scale 1:100
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  19 | Pa g e Figure 4.2.4 Section Analysis Diagram of Cafe space with artificial lighting at scale 1:100 Figure 4.2.5 Light Contour Diagram of Cafe with proposed artificial lighting
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  20 | Pa g e 4.2.3 PSALI As there are huge amount of daylight penetrating into the space of Café, it can be fully utilized to its maximum by using the PSALI concept, supplementing the daylight with artificial light when needed. The amount of daylight penetrating into the space is different in different time or situation, 3 switches are proposed to provide supplement artificial lighting according to different situation. Figure 4.2.6 Proposed PSALI artificial lighting layout with 3 switches at scale 1:100
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  21 | Pa g e PSALI Method Section Diagrams Café Section Scale 1:100 Situation A: Minimum or no daylight, using only artificial lighting, switch 1, 2, 3 are all switched on. Situation B: Daylight able to reach front part of the space, switch 2, 3 are switched on to light up the entire space. Situation C: Daylight able to reach more than half of the space, switch 3 is switched on to support daylight.
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  22 | Pa g e Light Contour Diagrams Situation B Situation C
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  23 | Pa g e 5.0 References 1. Task Lighting & Daylighting - Efficient & Effective Workplace Lighting Solution. (2016, October 26). Retrieved July 16, 2017, from http://blog.japhethlim.com/index.php/2012/10/18/task-lighting-daylighting- efficient-effective-workplace-lighting-solution/ 2. | wiki.naturalfrequency.com | ECOTECT COMMUNITY WIKI! (n.d.). Retrieved from http://wiki.naturalfrequency.com/wiki/Artifical_Levels_Grid 3. Bulbs. (n.d.). Retrieved from http://www.bulbs.com/ 4. (n.d.). Retrieved July 16, 2017, from http://personal.cityu.edu.hk/~bsapplec/lumen.htm