STUDIO AIR JOURNAL
STUDIO AIR SKETCH BOOK THE UNIVERSITY OF MELBOURNE 2014, SEMESTER 2, TUTOR: PHILIP BELESKY STUDENT NAME:: YUKI LEUNG
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STUDIO AIR JOURNAL
TABLE OF CONTENT TUTORIAL 1
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TUTORIAL 2
5
TUTORIAL 3
6
TUTORIAL 5
7
TUTORIAL 6
8
TUTORIAL 7
10
OTHER WORKS 11
TABLE OF CONTENT
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TUTORIAL 1 “HIGH-RISE” VOLUME
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SKETCHES
STUDIO AIR JOURNAL
TUTORIAL 2 “PIPES” ON SURFACE
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TUTORIAL 3 PANELED FACADE A paneled façade with different styles of colouring that resembles RMIT’s Building 80 is produced. A 3x3 square hole in the grid is created so that a balcony can be cantilevered out from it. The Cull Item component to remove certain panels from the list of panels is needed to make room for the balcony. Variations on the shape, size, and color of the panels using the listbmanagement tools while at the same time varying the overall shape of the façade are created. A 3x3 square hole in the grid is created so that a balcony can be cantilevered out from it. The Cull Item component was used to remove certain panels from the list of panels to make room for the balcony.
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SKETCHES
STUDIO AIR JOURNAL
TUTORIAL 5 PATTERNING WITH ATTRACTOR POINTS The earlier algorithmic sketches are modified using attractor points to influence geometry so that some aspect of the geometry varies according to the attractors. 4 different variations by varying the locations of the point and the geometry that they related to are created.
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TUTORIAL 6 SOLAR PANELS 1. A curved surface of roof and a series of panels are created on the surface by using . 2. Numbers of the panels are reduce by culling so that they do not cover the entire surface. 3. The area of the edges of the panels are caluculated by using brep edges, area component and mass addition component to to a single value 4. The energy output of the solar panels is quantified using the formula: E = A * I * Y. Where E is the annual energy output of the panels in kW per year (kW/y), A is the area of the panels, I is the average annualised solar insolation of 2.89kWH per m2 per day (The value for Copenhagen) and Y is the yield percentange between 0.1 and 0.2. 5. The energy energy output for the two types of panels are recoeded.
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SKETCHES
STUDIO AIR JOURNAL
Circular shape solar panels
Triangular shape solar panels
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TUTORIAL 7 SOLAR RADIATION Ladybug is used in simulating the the annual amount of solar radiation on a building. 3 new potential buildings with diferent shapes and sizes are created. The surfaces of the buildings are referenced using the “Brep” component that leads into the “geometry” input. The solar analysis results are recorded.
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SKETCHES
STUDIO AIR JOURNAL
OTHER WORKS Tubular structures
Isosurfacing and minimizing
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