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ARCHITECTURAL DESIGN
Rotating Radiations
Designing a parametric skin for a residential project in Belgaum, India. The facade was divided into small panels of 150mm by 300mm which were then rotated depending upon the solar radiation falling on each of the panels.
The skin was overlaid on the design done by Ar. Rahul Pudale.
The skin was overlaid on the design done by Ar. Rahul Pudale.
Rotating Radiations
Designing a parametric skin for a residential project in Belgaum, India. The facade was divided into small panels of 150mm by 300mm which were then rotated depending upon the solar radiation falling on each of the panels.
The skin was overlaid on the design done by Ar. Rahul Pudale.
The skin was overlaid on the design done by Ar. Rahul Pudale.
Rotating Radiations - Sun Path
By using computational algorithm solar radiation of the façade was found out for the whole year.
Rotating Radiations - Solar Radiation
The color red indicates more radiation and blue indicates less radiation.
Rotating Radiations
Depending upon the radiation that fell on the panels, they were opened less or more.
Each panel was then simply rotated from its edge line, this also helped in fabrication process omitting the addition of pivots and other angles.
Each panel was then simply rotated from its edge line, this also helped in fabrication process omitting the addition of pivots and other angles.
Rotating Radiations - Optimization
The facade was then optimized to see how different iterations would look, making the process iterative.
Rotating Radiations
Final outcome.
Rotating Radiations
Final outcome.
Rotating Radiations
Designing a parametric skin for a residential project in Belgaum, India. The facade was divided into small panels of 150mm by 300mm which were then rotated depending upon the solar radiation falling on each of the panels.
The skin was overlaid on the design done by Ar. Rahul Pudale.
The skin was overlaid on the design done by Ar. Rahul Pudale.
Rotating Radiations
Designing a parametric skin for a residential project in Belgaum, India. The facade was divided into small panels of 150mm by 300mm which were then rotated depending upon the solar radiation falling on each of the panels.
The skin was overlaid on the design done by Ar. Rahul Pudale.
The skin was overlaid on the design done by Ar. Rahul Pudale.
Rotating Radiations - Sun Path
By using computational algorithm solar radiation of the façade was found out for the whole year.
Rotating Radiations - Solar Radiation
The color red indicates more radiation and blue indicates less radiation.
Rotating Radiations
Depending upon the radiation that fell on the panels, they were opened less or more.
Each panel was then simply rotated from its edge line, this also helped in fabrication process omitting the addition of pivots and other angles.
Each panel was then simply rotated from its edge line, this also helped in fabrication process omitting the addition of pivots and other angles.
Rotating Radiations - Optimization
The facade was then optimized to see how different iterations would look, making the process iterative.
Rotating Radiations
Final outcome.
Rotating Radiations
Final outcome.
Rotating Radiations
Designing a parametric skin for a residential project in Belgaum, India. The facade was divided into small panels of 150mm by 300mm which were then rotated depending upon the solar radiation falling on each of the panels.
The skin was overlaid on the design done by Ar. Rahul Pudale.
The skin was overlaid on the design done by Ar. Rahul Pudale.
Rotating Radiations
Designing a parametric skin for a residential project in Belgaum, India. The facade was divided into small panels of 150mm by 300mm which were then rotated depending upon the solar radiation falling on each of the panels.
The skin was overlaid on the design done by Ar. Rahul Pudale.
The skin was overlaid on the design done by Ar. Rahul Pudale.
Rotating Radiations - Sun Path
By using computational algorithm solar radiation of the façade was found out for the whole year.
Rotating Radiations - Solar Radiation
The color red indicates more radiation and blue indicates less radiation.
Rotating Radiations
Depending upon the radiation that fell on the panels, they were opened less or more.
Each panel was then simply rotated from its edge line, this also helped in fabrication process omitting the addition of pivots and other angles.
Each panel was then simply rotated from its edge line, this also helped in fabrication process omitting the addition of pivots and other angles.
Rotating Radiations - Optimization
The facade was then optimized to see how different iterations would look, making the process iterative.
Rotating Radiations
Final outcome.
Rotating Radiations
Final outcome.
Rotating Radiations
Designing a parametric skin for a residential project in Belgaum, India. The facade was divided into small panels of 150mm by 300mm which were then rotated depending upon the solar radiation falling on each of the panels.
The skin was overlaid on the design done by Ar. Rahul Pudale.
The skin was overlaid on the design done by Ar. Rahul Pudale.
Rotating Radiations
Designing a parametric skin for a residential project in Belgaum, India. The facade was divided into small panels of 150mm by 300mm which were then rotated depending upon the solar radiation falling on each of the panels.
The skin was overlaid on the design done by Ar. Rahul Pudale.
The skin was overlaid on the design done by Ar. Rahul Pudale.
Rotating Radiations - Sun Path
By using computational algorithm solar radiation of the façade was found out for the whole year.
Rotating Radiations - Solar Radiation
The color red indicates more radiation and blue indicates less radiation.
Rotating Radiations
Depending upon the radiation that fell on the panels, they were opened less or more.
Each panel was then simply rotated from its edge line, this also helped in fabrication process omitting the addition of pivots and other angles.
Each panel was then simply rotated from its edge line, this also helped in fabrication process omitting the addition of pivots and other angles.
Rotating Radiations - Optimization
The facade was then optimized to see how different iterations would look, making the process iterative.
Rotating Radiations
Final outcome.
Rotating Radiations
Final outcome.
4|6|12
Façade design for an existing hospital building in Bijapur, India.
The project was located in a tight urban setting with an iconic Mosque in the vicinity.
The project was located in a tight urban setting with an iconic Mosque in the vicinity.
4|6|12
Façade design for an existing hospital building in Bijapur, India.
The project was located in a tight urban setting with an iconic Mosque in the vicinity.
The project was located in a tight urban setting with an iconic Mosque in the vicinity.
4|6|12 - Transformation
To make it belong to the context, a jalli of 4,6,12 sided polygon was made parametric with the help of existing window locations. This governed the opening sizes of the jalli wall, meaning where the windows were there the opening size was more and vice-versa.
4|6|12
To make it belong to the context, a jalli of 4,6,12 sided polygon was made parametric with the help of existing window locations. This governed the opening sizes of the jalli wall, meaning where the windows were there the opening size was more and vice-versa.
4|6|12
Parametric Jalli Wall
4|6|12
Parametric Jalli Wall
4|6|12
Façade design for an existing hospital building in Bijapur, India.
The project was located in a tight urban setting with an iconic Mosque in the vicinity.
The project was located in a tight urban setting with an iconic Mosque in the vicinity.
4|6|12
Façade design for an existing hospital building in Bijapur, India.
The project was located in a tight urban setting with an iconic Mosque in the vicinity.
The project was located in a tight urban setting with an iconic Mosque in the vicinity.
4|6|12 - Transformation
To make it belong to the context, a jalli of 4,6,12 sided polygon was made parametric with the help of existing window locations. This governed the opening sizes of the jalli wall, meaning where the windows were there the opening size was more and vice-versa.
4|6|12
To make it belong to the context, a jalli of 4,6,12 sided polygon was made parametric with the help of existing window locations. This governed the opening sizes of the jalli wall, meaning where the windows were there the opening size was more and vice-versa.
4|6|12
Parametric Jalli Wall
4|6|12
Parametric Jalli Wall
4|6|12
Façade design for an existing hospital building in Bijapur, India.
The project was located in a tight urban setting with an iconic Mosque in the vicinity.
The project was located in a tight urban setting with an iconic Mosque in the vicinity.
4|6|12
Façade design for an existing hospital building in Bijapur, India.
The project was located in a tight urban setting with an iconic Mosque in the vicinity.
The project was located in a tight urban setting with an iconic Mosque in the vicinity.
4|6|12 - Transformation
To make it belong to the context, a jalli of 4,6,12 sided polygon was made parametric with the help of existing window locations. This governed the opening sizes of the jalli wall, meaning where the windows were there the opening size was more and vice-versa.
4|6|12
To make it belong to the context, a jalli of 4,6,12 sided polygon was made parametric with the help of existing window locations. This governed the opening sizes of the jalli wall, meaning where the windows were there the opening size was more and vice-versa.
4|6|12
Parametric Jalli Wall
4|6|12
Parametric Jalli Wall
4|6|12
Façade design for an existing hospital building in Bijapur, India.
The project was located in a tight urban setting with an iconic Mosque in the vicinity.
The project was located in a tight urban setting with an iconic Mosque in the vicinity.
4|6|12
Façade design for an existing hospital building in Bijapur, India.
The project was located in a tight urban setting with an iconic Mosque in the vicinity.
The project was located in a tight urban setting with an iconic Mosque in the vicinity.
4|6|12 - Transformation
To make it belong to the context, a jalli of 4,6,12 sided polygon was made parametric with the help of existing window locations. This governed the opening sizes of the jalli wall, meaning where the windows were there the opening size was more and vice-versa.
4|6|12
To make it belong to the context, a jalli of 4,6,12 sided polygon was made parametric with the help of existing window locations. This governed the opening sizes of the jalli wall, meaning where the windows were there the opening size was more and vice-versa.
4|6|12
Parametric Jalli Wall
4|6|12
Parametric Jalli Wall
4|6|12
Façade design for an existing hospital building in Bijapur, India.
The project was located in a tight urban setting with an iconic Mosque in the vicinity.
The project was located in a tight urban setting with an iconic Mosque in the vicinity.
4|6|12
Façade design for an existing hospital building in Bijapur, India.
The project was located in a tight urban setting with an iconic Mosque in the vicinity.
The project was located in a tight urban setting with an iconic Mosque in the vicinity.
4|6|12 - Transformation
To make it belong to the context, a jalli of 4,6,12 sided polygon was made parametric with the help of existing window locations. This governed the opening sizes of the jalli wall, meaning where the windows were there the opening size was more and vice-versa.
4|6|12
To make it belong to the context, a jalli of 4,6,12 sided polygon was made parametric with the help of existing window locations. This governed the opening sizes of the jalli wall, meaning where the windows were there the opening size was more and vice-versa.
4|6|12
Parametric Jalli Wall
4|6|12
Parametric Jalli Wall
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