aishwarya sampath by Aishwarya Sampath

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Personal Information Name :

Aishwarya Sampath

Date Of Birth :

20 Th September 1988

Permanent Address :

No 9, Suraj Shanthi Appts, Nanjappa road , Shanthinagar, Bangalore -560027 Karnataka,india

Email :

aishwarya249@gmail.com

Ph No. :

+91 9739579252

Language :

english, hindi, tamil, kannada,spanish

Qualification Masters In Advanced Architecture : Institute for Advanced Architecture of Catalonia (Iaac)- M.Arch 2012-2013 Diploma in Advanced Design And Digital Architecture - BIODELAB : Escola Superior de Disseny i Enginyeria de Barcelona ( ELISAVA )2013-2014 Bachelors In Architecture : Dayanand Sagar College of Engineering - B.Arch 2006-2011 Profesional Experience Architect :

A&A Architects and Planner Pvt Ltd,Bangalore ( awarded for performance in NANDI CITADEL )

Internship :

Srinivas & Khan, Bangalore

Skills And Abilities Computer Skills :

Rhino , Grasshopper , Auto Cad, Adobe Illustrator, Photoshop, Indesign , Microsoft Office , Google Sketch-up

Studio Skills :

Modelmaking , Conceptual sketching , Architectural rendering , Photography.

Extra Curricular Activities Documentation of the temple costal town Barkur of the 9th century. Redevelopment of Agara lake in Bangalore a live project which was showcased in Tokyo. Urban scale redevelopment of bus terminal at Kalasipalayam ,Bangalore. Won award for Indian Green Building Council (IGBC) Green Homes gold rated design for Nandi Citadel,Bangalore. â&#x20AC;&#x153;Rotating Physalis â&#x20AC;&#x153; Jury special recognition award for pavilion installation in Iaac. Participated in competitions Brila White Yuva Ratana ,Confident Gold Brick ,Indian Institute Of Engineers , Certified in Leadership CIL and part of organising committee of Symposium. Interest Investigations of new materials, technologies, structures and practices of construction, as a means to construct new meaning in architecture. Technology for new expressions, effective, economical, sustainable structures.

curriculum vitae

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Iaac - m.arch rotating physalis hexagon light diffuser fabrication - milling smart city //spain //barcelona // via laietana machinic conversation II Eco-machinic Pavilion // hygro pavilion advanced material // thermoshield

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4 - 11 12 13 - 25 26

office - a&aarchitects and plannares dinesh hinduja residence // gokaldas moksh I // gokaldas jai apartment // gokaldas murali krishna // jeevan bheema A&A future office nandi citadel g - corp

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dsi - b.arch bus terminal // mysore agara lake // redevelopment bio tech park

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index

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Design Studio_Smart Public Space Project Title: Smart SurFACE...via liaetana The street VIA LAIETANA, old nature with life of the new city has developed a strong character over the years as it be-ing the main spine connecting the two parts of the city. The activities that surround the street create a constant maze of vehicular and pedestrian movement.

vechicular circulation

Plaza Antonio Lopez bicycles

Plaza Antonio Moure

vehicles

Plaza Urquinaona 0

5000

10000

15000

pedestrian circulation

trafffic lines and metro lines showing the transportation diagram for concentration study for pedestrian and vehicles

20000

25000

30000

35000

40000

Plaza Antonio Lopez 40- â&#x20AC;Ś

Plaza Antonio Moure

13-40 0-12

Plaza Urquinaona 0

5000

10000

smart city

15000

20000

25000

30000

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study of percentage of activties on Via Laietana at every hour of the day .this study is to understand the activity by different elements during their peaks and lows because of the different attraction for turistic and business corridor connecting the port, old city, the new city ,and hoilday/luxury belt .

smart city

triangulation of connections

pedestrian and vehicular overlap

pedestrian vehicular

smart city

zoning of the buildings on Via Laietana

map of the economics of each building on Via Laietana

smart city

PROPOSAL

Envision of the street in 2050 to create a synergy between the vehicular and pedestrian with at most priority given to the pede pedestrians. With the idea of driverless cars in the near future, creating a smart street with smart surface for optimum path detection and usage for better circulation.

smart city

The smart surface is composite interactive panels which can convert the vibration through vehicles, metro, and pedestrians into electrical energy with the help of piezoelectric generators. This energy is used for the IR led in the tile, recharging cars, street lights, NFC pods, security camera and advertizing boards. The cars move in swarm theory with accordance to the sensors in the panels to redirect if any obstructions are caused for creating new public and pedestrian friendly spaces with minimum fatalities and signal free. With a simple tap on the NFC pods you can call a taxi and get information . These NFC s are placed in the bus stops and metros stations where people can get the transit details and recharge their phones and get further details of products. The street is self supported by the energy generated to achieve smart tomorrow.

smart city

MAA, pavilion, prototype,SERGE FERRARI IAAC, IASO, Josep MIàs, light structure,

The pavillion is design is derived from the fruit physalis. This pavillion is a hanging ,rotating and flapping Structure .The skin of the pavillion is perforated as to create different Intensity of light during rotation of wings . This was built 1:1scale at Iaac .

“Silvia Fitor from Serge Ferrari (the producer of the membrane) appreciate the pavilion and she suggested that would be interesting to develop it as a commercial product, as a device (a bit enlarged) to create a more intimate space in a bigger room (as the client area in a fair, for example) ”.

This pavillion was awarded the “Jury special recognition award ” for pavilion installation in IAAC.

rotating physalis

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hexagon light diffuser This was a design was a excercise to use only bending in construction of the mat to cover the hexagon. The material used are polypropoline sheets . The component is a X that was bent in opposite directions .This was used as a aggregate to multiply it to create the mat . This aggregate system can be arranged in many combinations to get different patterns according to the desity required . The angle of the X can be changed to also increase the desity .

hexagon light diffuser

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fabrication milling perforated wall The aim of this project was to explore 3 dimensional manufacturing processes by the use of the CNC milling machine, and the development of molds for casting pieces. The work has been focused in the design of a construction brick module, the fabrication of its mild, and the process of casting the parts to construct a three dimensional wall, which has generated a spatial installation in the IAAC building.

fabrication -milling

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fabrication protocol deploying Hemp fibres During this 4 days workshop, students of Fabrication Ecologies research line of the Master in Advanced Architecture 2013 developed and test a new fabrication protocol deploying Hemp fibres by means of an industrial robot. Through the production of a 1:1 scale prototype, the 4 teams explored the design opportunities arising from 2 different fabrication techniques developed within the Fabrication Ecologies Studio, focussed on the production of: - an aggregate substratum via pick and place of fibrous component units. - a non-woven fabric skin via robotic spraying of row hemp filaments.

project vedio : http://vimeo.com/61624160

The collaborative effort progressed in loops, with the work of one group informing the operations of the next. The feedback was mediated by a set of interfaces for real-time scanning (Kinect) and digital generative modelling (Grasshopper). The fabrication process than evolved into a conversation between designer, machine, material system,designer, prototype, machine, designer,and so on; each loop driven by a set of negotiations and specific design decisions. Such fabrication protocol opens the possibility for a new form of participatory mass-customisation, ones that operates in real-time during and takes into account multiple factors such as design intentions, material behaviour, mechanical constraints and microclimatic conditions

machinic converstaions II

Eco-machinic Pavilion Hygro Pavilion is the final outcome of a research project developed with parameterized hemp fiber components that react to relative humidity and other environmental and meteorological conditions, without an external source of energy or mechanisms.To develop an eco – machinic pavilion located in IAAC campus, Valldaura-Barcelona was the task of the 2012/13 Digital Tectonics Research Studio (MAA – IAAC), thus our group proposed Hygro Pavilion, which combined all of the data collected through a series of diverse experiments conductedrapidly during six months.

The research studio was divided into two stages: The first part focused on studying the nature of hemp, its cultural and historical background, phytomorphology, behaviours, processes, etc. One particular characteristic was then extracted from growth experiments, and further developed during fiber experiments in the second stage. The aim was to achieve hemp components applicable to a pavilion at Valldaura Self – Sufficient Lab, in Collserola Natural Park, close to Barcelona.

Eco-machinic Pavilion

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Growth experiments Early on, the team was interest in using CO2 to potentialize the properties of the hemp plant and speed up its growth process. The aim was to link this concept with the fact that industrial hemp plantations have proven to absorb more CO2 per hectare than any forest or commercial crop and are therefore the ideal carbon sink. Hence the ecologic agenda of negative carbon emissions became part of the project brief. Growth experiments were set up with indoor system conditions, working with seedlings and small plants exposed to three different levels of CO2: high, medium and low. The plants were bred in incubators, named Apparatus. Every time the plants were exposed to a different kind of CO2, a new Apparatus was constructed. At the end of this first phase, four Apparatus were built and tested with three types of CO2 feeding: blowing respiratory air CO2 pills diluted in water home made CO2 Apparatus 3.1 performed as a cluster of incubators for the final growth experiment (3.1), and the team concluded that hemp plants exposed to a higher level of home made CO2 exhibited a more efficient Photosynthesis and created a higher level of humidity inside its incubators.

Eco-machinic Pavilion

Other interesting patterns that were observed during thes experiments (1.0, 2.0, 3.0, 3.1) were: Phyllotaxis patterns (Paraschita type) Humidity generation patterns inside the incubators, closely related to Phototropism and most importantly: the movement of plants when exposed to temperature fluctuations, known as Thermotropism

Humidity genera-tion pattern (inside of jars). Images recorded from a plant that is exposed to High range of CO2, type-CO2Y, during 4 hours. The humidity pattern is formed rapidly in the face of the incubators that are exposedto the exterior, where there is the biggest difference of temperature. After 6 hours, the larger water drops start to roll over the interior of the in-cubator, towards the base of the plant.

Eco-machinic Pavilion

Fiber experiments Concluding from the Thermotropism and Phototropism diagram, hemp fiber experiments were developed which related mainly to the Hygroscopic ability combined into Anisotropy. The team produced an initial matrix, split in two categories, for conducting the first fiber experiments: Hygroscopicity â&#x20AC;&#x201C; variable or environmental conditions (temperature, humidity and wind) Anisotropy â&#x20AC;&#x201C; fixed conditions (glue mix, fiber orientation, amount of layers of fiber and fiber mix) This first matrix and its results, led to the creation of a fiber sheet protocol and the refinement of the production process of sheets, the materials and tools required for this. The protocol was divided into three phases: 1. combing and laying down the first layer 2. additive matrix and combing and laying second layer 3. pressing and merging both

1: PVA +RABBIT GLUE MATRIX

sheet made of ortognal fibers place vertical and horizontal of 2 layers . the sheet is glued from one side with PVA on the first application and then dried . on the 2 nd application the rabbit glue is applied on the non PVA side and allowed to dry .

2: PVA +RABBIT GLUE MATRIX sheet made of fibers place vertical and 45 degree of 2 layers . the sheet is glued from one side with PVA on the first application and then dried . on the 2 nd application the rabbit glue is applied on the non PVA side and allowed to dry .

3: PVA MATRIX sheet made of ortognal fibers place vertical and horizontal of 2 layers . the sheet is glued from one side with PVA on the first application and then dried . on the 2 nd application the PVA glue is applied on the PVA side again and allowed to dry .

4 :PVA MATRIX sheet made of fibers place vertical and 45 degree of 2 layers . the sheet is glued from one side with PVA on the first application and then dried . on the 2 nd application the PVA glue is applied on the PVA side again and allowed to dry .

Eco-machinic Pavilion

Among all these experiments, one was determinant to the final component performance to relative humidity fluctuations: prototype 4.0. It was entirely created as an Anisotropy Matrix, as the team named it, and its objective was restricted to an anisotropic study only. After comparing all performances conclusions, Prototype 6.0, also named Flipping surface, was chosen as the protocol to apply to the pavilion. This prototype evolved from 5.0 â&#x20AC;&#x201C; Trigger and reactor â&#x20AC;&#x201C; but was constructed as a tridimensional component this time, and it envisioned the parameterization of the pieces according to the environmental conditions of the site, in order to trigger the hygroscopic reaction.

Eco-machinic Pavilion

Component experiments Thus after obtaining four sheets with different properties, eight component experiments were developed, where these sheets were tested for their response to environmental conditions. Each prototype experiment included a meticulous description of its specific protocol, structure, fiber elements, glue matrix, machinic fabrication, performance and conclusions.

Eco-machinic Pavilion

fiber component exposed to natural condition for 12hours on a summer hot day from 10am to 10pm Reaction in the fibre components based on humidity

1: matrix -rabbit glue + PVA . orientation-90 deg. and 45deg. below 2: matrix -rabbit glue + PVA . orientation-90 deg. and 180 deg. below 3: matrix - PVA . orientation-90 deg. and 45deg. below 4: matrix - PVA . orientation-90 deg. and 180 deg. below

Fibre components before reaction to humidity

Pins for holding the Pin supports which intrn hold the fibre components in place

before exsposure to natural conditions 10 am

after exsposure to natural conditions at 2 pm

after exsposure to natural conditions at 4 pm

4 3 2

after exsposure to natural conditions at 8 pm

Pin supports for holding the fibre components in place and also allow the reaction to humidity Reflective surface (Glass) to create temperature difference between one side of the component to the other

after exsposure to natural conditions at 10 pm

8mm

5mm

4mm

6mm

5mm

2mm

3mm

Structural frame for the component system

FIG-1: Exploded view showing the various componets of the component system to be used in the Eco-Machinic pavilion

10mm

2 1

4 3 2 1

4mm

3mm

2mm

1mm

3 2 1

fiber component exposed to natural condition for 12hours on a summer hot day from 10am to 10pm

Eco-machinic Pavilion

MATRIX

PARAMETRISATION OF SIZE

size variation of the components as they go away from ground

ground humidity

humidity

roof humidity

humidity

1 PARAMETRISATION OF ORIENTATION

90x180 +90x180

3 1 2 3 4

- matrix 1: PVA - fiber layer 1 - fiber layer 2 - matrix 2 : rabbit

PARAMETRISATION OF ORIENTATION

90x180 +90x45

PARAMETRISATION OF SIZE IN RELATION TO THE POSITION OF THE COMPONENT ground

90x45 +90x45

180 x90 +180 x90

90 x180 +90 x180 180x90 +45x90

90 x180 +45x90 45x90 +45x90

Drawings of main parameters, to generate all of the different components, directly related to movement trigered by relative humidity:

45x90 +45x90

Chart of all of the Ground component parametrization possibilities, according to the previous image.

1. Parametrisation of orientation 2. Matrix of fiber sheet: 1. PVA + water additive matrix 2. First layer of fiber 3. Second layer of fiber 4. PVA + water additive matrix 3. Parametrisation of the size of the components, according to their location to the ground or roof.

180x90 +180x90

180x90 +90x45

roof

90x45 +90x45

size variation of the components as they go away from ground

Eco-machinic Pavilion

Hygro pavilion, our eco â&#x20AC;&#x201C; machinic pavilion After visiting Valldaura, five optional sites were selected as potential locations for the Hygro pavilion. Because of the performative property of the building and for that, its close relation to environmental and meteorological conditions, the final site was selected. The visual connections and altitude, solar radiation considering trees projected shadows and the proximity to existing sources of water and energy were also important considerations.

Humidity Analysis View showing the distance from form to the nearest tree and in the grid faces to the centre of the level in the surrounding air

North

Meteorological form-finding process of the selected site:

Mapping showing the distance between the centre of the nearest tree to the grid of faces for the

Selected site and its contour lines Existing trees height, (average of 10 meters)

Closer to tree

The trees that are colored in green are the ones inside of the selected area, are highlighted. Every tree is divided into three segments creating two nodes (1/3 and 2/3) and from every node, lines conect.

Far away from tree

Some lines are selected to create the final mesh Morphology of the mesh. The final step, is the optimi-zation of the mesh accord-ing to the sun radiation

Eco-machinic Pavilion

Detailed environmental analyses were conducted on the final site, seeking for all the materials necessary to initiate an ecological formâ&#x20AC;&#x201C;finding method to determine the pavilion morphology, achieving maximum exposition to annual solar radiation. After locating the trees surrounding it, a 10 meters average height was assigned, which was then divided in three segments, creating two nodes and from every node connecting lines. Some lines were selected to create the final mesh, which was optimised to the solar radiation. North The mesh of the Hygro pavilion was analysed for solar incident radiation, as well as for shadow projection of the mesh itself, including sun path diagram, wind directions and the humidity level in the surrounding mass of air depending on the distance between the grid faces to the center of the closest trees. Eighteen panels composed the pavilionâ&#x20AC;&#x2122;s mesh. Three cases were analysed in detail, panels 4, 9 and 12, in four different scenarios: spring, summer, winter, autumn; applying the parameterization logic developed in previous experiments, into its hemp fiber components. The goal was to personalize the reaction for every panel, since each one was exposedHumidity to very different Analysis meteorological conditions. Humidity Analysis Wind Analysis W in ind direction

Eco Protocol

Humidity Analysis

View showing the distance from form to the nearest tree and in the grid faces to the centre of the

Eco Protocol [EP] Eco Protocol Eco Protocol

[EP]

View showing the distance from Wind Analysis

View showing the distance from

form to the nearest tree and in 1.Wind speed and direction :

form to the nearest tree and in

Month: March to may Year: 2013 the grid faces to the centre of the Location: Valldaura,Barcelona, Spain. North

level in the surrounding air Spr ing

3.Wind speed and direction : Month:December to Febrauary Year: 2013 Location: Valldaura,Barcelona, Spain.

Year: 2013 Location: Spain. North

Month: March1.Radiation to may and Valldaura,Barcelona, Year: 2013 on the pavilion fo Month: March Location: Valldaura,Barc 2.Wind speed and direction : Time:14 : 00 Month: June Spain. to August Year: 2013 Year: 2013

Location:

Spr ing

North North 300 Wh/SqM

Year: 2013 Location: Spain.

North 1475000 Wh/SqM

300 Wh/SqM

North

Year: 2013 Valldaura,Barcelona, Location: Spain.

Summer

North Proximity t o trees

Mapping showing the distance between the centre of the nearest tree to the grid of faces for the

Mapping showing the distance between the centre of the nearest tree to the grid of faces for the North Primary wind direction

Closer to the tree W intshowing er Mapping

the distance the centre of the nearest tree to the grid of faces for the

C ase as e 1 1: Panelbetween 4

Secondary wind direction

300 Wh/SqM

Primary wind direction

Far away from the tree

W int er

Far away from tree

Ca s e 2: Panel 9

Ca se 3: Panel 12

1475000 Wh/SqM Eco Protocol [EP]

Eco Protocol

North

Closer to the tree

Primary wind North direction

Closer to tree

Eco Protocol

[EP] Incident Solar Radiation pattern and primary, secondary wind direction of for the panel 9 in the pavilion Duration:March Time: 14: 00 Location: Valldaura, Barcelona, Spain

North

Incident Solar Radiation pattern and primary, secondary wind direction of for the panel 9 in the pavilion Duration:December Time: 14: 00 Location: Valldaura, Barcelona, Spain

an showing the location of NEL NO.4 in the tessilation Pavilion

Panel 4

North

Panel 9

North

Panel 12

m showing the subdivision panel mapping the distance he tree to invidual divisions

Closer to tree

300 Wh/SqM

Far away from tree

1475000 Wh/SqM

North

Incident Solar Radiation pattern and primary, secondary wind direction of for the panel 9 in the pavilion Duration:June Time: 14: 00 Location: Valldaura, BarceloNorth na, Spain

North

Far away from the tree

North

Closer to tree

300 Wh/SqM

Far away from tree

1475000 Wh/SqM

North

Incident Solar Radiation pattern and primary, secondary wind direction of for the panel 9 in the pavilion Duration:Full year Time: 14: 00 Location: Valldaura, Barcelona, Spain

Closer to tree

300 Wh/SqM

Far away from tree

1475000 Wh/SqM

Eco-machinic Pavilion

Vall

3.Wind speed and direction Month:December to Febrau Year: 2013 3.Radiation and on the pavilion fo Location: Valldaura,Barc Month: Decembe Spain. Time:14 : 00 Year: 2013

Su mmer

Vall

Valldaura,Barcelona, 2.Wind speedSpain. and direction Spain. Month: June to August North 2.Radiation and Year: 2013 on the pavilion fo Valldaura,Barc 3.Wind speedLocation: and direction : Month: june Month:December to Febrauary Time:14 : 00 Spain.

1475000 Wh/SqM

f the Eco Machinic pavilion ng the surrounding trees e contours and the PANEL

nding air

3.Radiatio on the pa solD 1.Wind speed and direction : IncidentMonth: Time:14 : Month: March to may analysis Year: 201 1.Wind speed and direction

NorthLocation:

North

Shadows p rojection

North

level in the surrounding air

2.Wind speed and direction : Month: June to August Year: 2013 Location: Valldaura,Barcelona, Spain.

2.Radiatio on the pa Month: ju Time:14 : Year: 201 Location: Spain.

Wind Analysis

I ncid ent s olar radiation

the grid faces to the centre of the

level in the surrounding air

Location: Spain.

North

[EP]

Valldaura,Barcelona,

nd shadow pattern on for:

Valldaura,Barcelona,

[EP]

nd shadow pattern on for: mber radiation

adow pattern

ona,

ura,Barcelona,

Incident analysis

solar

radiation

1.Radiation and shadow pattern on the pavilion for: Month: March Time:14 : 00 Year: 2013 Location: Valldaura,Barcelona, Spain.

Eco Protocol

2.Radiation and shadow pattern on the pavilion for: Month: june Time:14 : 00 Year: 2013 Location: Valldaura,Barcelona, Spain. 3.Radiation and shadow pattern North on the pavilion for: Month: December Time:14 : 00 Year: 2013

direct sunlight

indirect sunlight

[EP]

humidity

Wind Analysis 1.Wind speed and direction : Month: March to may Year: 2013 humidity Location: Valldaura,Barcelona, Spain.

warm air

humidity

2.Wind speed and direction : cool air Month: June to August Year: 2013 humidity Location: Valldaura,Barcelona, Spain.

humidity

adow pattern

3.Wind speed and direction : Month:December to Febrauary Year: 2013 Location: Valldaura,Barcelona, Spain.

ona,

ura,Barcelona,

adow pattern

ona,

shadow of the trees

hot air

no shadow of the trees

cold air

North

The parameterization applied to the components, followed three actions: rotation of the component systemâ&#x20AC;&#x2122;s length different scale of components different orientation of fibe North

Panel 9 Among the three panels studied in detail, Panel 9 was fabricated in 1:1 for the final presentation. It performed notably well in a two hours time-lapse, after being located closely to a light artefact,test panel 9 : reaction to the spot light as the heat increace the relative humidity drops causing the components to close to avoid heat to the other side . at the beginning of the presentation. At the end of it, one could perceive how the panel reacted through radically changing the shape of its components.

Eco-machinic Pavilion

Finally, the pavilion was virtually inserted in the site, its presence rather mimetic than imposed. The materials that composed it were all traditional and easy to obtain on site and local stores, with the exception of the hemp fiber components.Every part, panel and opening that constitute Hygro pavilion, was functionally justified. For instance, the three openings directed the views to the three neighboring cities: Barcelona, Sabadell and Rubi. Also, the pavilion was elevated from the floor to capture conditions that were more favorable to natural humidity occurrence, in order to trigger the components reaction so that the interior space is permanently comfortable.

Tree's Position

Connection Lines

Outline from Intersections

Ground Floor Scale 1/200 Final Plan

Eco-machinic Pavilion

web publication // materiability : http://materiability.com/hygro-pavilion/ project vedio : http://vimeo.com/70236980

Eco-machinic Pavilion

thermo electric generator

3-9v motor

thermo electric generator are the devices which convert heat energy directly into electrical energy , using a phenomenon called â&#x20AC;&#x2DC;seebeck effectâ&#x20AC;&#x2122;.teg consists of positive and negative , connected in series circuit.

water perculation

application in design

sandwiched panel

principle of teg is considered for designing a panel which works based on difference in temperature, creating electricity to lift water up, anti gravity. the heat is increased using magnifying lens which concentrates the sunlight over teg, the other side is cooled with the help of copper plate. the cycle of the water is also kept constant as the water drops from the highest point it helps in pushing water higher reducing the load on the motor, this forms a continouf flow

FLOW DIAGRAM

SECTION

ELEVATION OF THE PANEL

APPLICATIONS application of panels

SKY LIGHT

FACADE OF PANELS

WALL PANEL

these panels can be used for aesthetical as well functional purposes. the circulation of water caused due to difference in heat helps to cool / maintain a constant temperature in the interior spaces.

WALL PANEL

advanced material

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/////////////////////////////////architecture portfolio //////////////////////////// /////////////////////////////////////////////////////////office - a&aarchitects and plannares////

locatin bangalore site 120’x 80” 60’ road on south and west residential layout in judicial colony concept the house is designed asto accomadate the clients requierment.the house has clean straight lines that define the elevation of the house. the open and the flow of the house is taken into acount to give clean spaces. the spaces have long span windows that open ito the landscape and poolthe pool in designed in such a way as to create a feeling like the house is floating.all the rooms face the pool and the land scape.the servants and services are taken into the basement to give a clean space for the client as to not disturbe the elevation creating of small pockets of green space allround the building to be part of the house

60' ROAD ON WEST

4330 x 2900

BATHROOM

WALK IN WARDROBE

4380 x 2950

5350 x 4875

BEDROOM 03

4100 x 2100

BALCONY

4875 x 3540

BEDROOM 02

DOUBLE HEIGHT

DECKS BUILDING= 33.66% LANDSCAPE= 66.34%

WALK IN WARDROBE

2500 x 3540

5425 x 6300

HOME THATRE/ LIVING

DECK

1620 x 5500

2600 x 3540

BATHROOM 1200 x 1500

LIFT

1200 x 1500

LIFT

1200 x 1500

LIFT

60' ROAD ON SOUTH

6080 x 4065

BEDROOM 01 DOUBLE HEIGHT

2100 x 4065

BATHROOM

STEAM

SAUNA

1955x2330

TOI

1200x1480

CHANGING ROOM

1000x1480

1900 x3380

2550x3830

SERVICES

TOI

2600X2330

1200X1500

TOI

1115X1500

SERVANT

1800X1500

TOI

1115X1500

1800X1500

4365X2860

DRIVER LOUNGE

MASSAGE

4365X1760

DRIVER DINNING

3060X1710

2420X3330

laundry

STORE

WALK IN WARDROBE

2100 x 4065

DECKS BUILDING

OPEN TO SKY UP

dinesh hinduja residence -gokaldas

Site area - 9600 sft Allowed FAR -2.25 Allowed height -11.5M Road Width -18M Minimum Set back - FRONT -4.38M, BACK-2.92M, SIDES- 1.95M

moksh I

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Site area - 9600 sft Allowed FAR -2.25 Allowed height -11.5M Road Width -18M Minimum Set back - FRONT -4.38M, BACK-2.92M, SIDES- 1.95M client requirement . 3 units . 3 bedroom . high end luxury apartment

3000

the buildings skin is treated with wood glass and white surface .thw use of skin t0 create niches and protrution in the form od boxing .these boxings act like a memberane to cove the ac outdor units . the use of glass as raings for the balcony makes the balcony lighter in apperane for the elevation. which gives the illusion of puncher in the boxing

jai apartment

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Site area - 40513.5 sft Allowed FAR -2.32 Road Width -12M p

no of units . 60 units

No .4

92 /B

No.

the buildings is designed to accomadated maximum saleable area . the common area percentage is reduced to the minimum of 9.03%. the coverage area is 51% maximising the green /open space foot print.

492 /A

D.S

ldin Bui

Ma Pre ple B -Sc ear hoo l

En No terpris -49 es 8/1

No1 No- 0(Old 497 )

Ro 5/C No -49

Co Unde n st ruc r tion

shp a

ConUnder struct ion

Dem o Buil lished ding

ding Buil

3BHK LUXURY BLOCK PLAN

dM ain

BM:100.00 la Na

Buil

ding Buil

Na Car veen Gara ge

a m Be

d oa lR

din

2BHK TYPICAL BLOCK PLAN

4BHK DUPLEX BLOCK PLAN

murali krishna

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the building is designed for housing office and a clinic the clinic is in the basement two floors for bank and the other two for office . the use of red bricks and metal to give the building a rusty look . with full lenght windows punchering the hard surface of the brick wall the metal in black fish bleends with the bricks in a polight manner cutting the heaviness down . the windows are set in with out parapets . design to bring in maximum natural light and ventilation into the building. metal roof is used to excentiuate the red bricks .

A&A future office

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the buiding is design to achive maximum direct light and ventilation and have minimum comman wall . the elevation is desined to use the quaried rock to minimize the cardon foot print. the wet areas are placed as to all open to the courts for visual and practical use. the roads run along the perifery and the bufferspace for lake is used for recreational zone the commom corridors are minmised to 10.5 %.

Site area - 12.5 acres housing project located on the banks of a lake construction techniqe - precast concrete for slab and walls unit type - 2bhk and 3bhk project under construction

awarded for performance by nandi citadel and A&A architects and planners

nandi citadel

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Site has a primary Nala which runs all along north & northwest boundaries . There is a HT line crossing the site East to North West The land slopes around 7 Mts from north to south The plot is located in the south of Bangalore closer to ORR & Nice corridor The Plot measures 25.158acres, surrounded by residential development & educational institutions The Nala is primarily a storm water drain contaminated with sewage The plot has been used to dump soil & waste construction materials site has a primary drain running along from northeast to north west. height tension lines 220kv cutting the site in to one large and the other small chunk. buffer for the primary drain being 50m.the buff-er space is used for play grounds and use of green streets.the buffer is planted with fragrant trees to eliminate the stench. the built is divided into 2 the villa and the high rise these 2 are connected by the club and the market which act lie a transitional space.the community is designed to be self sufficient.

HIGH RISE APARTMENT

CLUBHOUSE

HIGH END VILLAS

MARKET

VILLAS

SCHOOL

G - corp

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design for interstate and intrastate bus terminal location mysore karnataka site heavily countoured on the north and railway station on the north the site on he railway side had a steep slope of 6m and on the opposite side in level with the road . the height of the building could no exceed 12m .according to the by-laws. the site having road on the 4 sides circulation of traffic being the major concern. with railway sta-tion on one sidesite being heavy contoured the north the terminal is divided into 3 levels. first level -transportation second level -office basemant level- shopping this design the shopping is placed in subway instead of it being dark and lonely this help the commuter to shop on their way and reduces the dstance to go way and shop and stay close to the bus bayes N

bus terminal

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EN TR AN CE

SILT TRAP DETAIL

MARSHY LAND EN TR AN CE

agara lake agara lake located south east of the city is one such space. like most other lakes in the city, agara is an irrigation tank that dates back to the 9th century. apart from irrigation, and water supply the lake is also home to a wide variety of flora and fauna . the lake is located near the ring road and the fairly new hsr layout.

OPEN LARGE EXPANSE OF LAND

SECTION THROUGH A SILT TRAP

HARD GR. IN LAKE TERRITORY OPEN LAND (VACANT SITE)

DETAILS

STONE QUARRY

CE AN TR EN

GREEN COVER COM. BLG RESIDENTIAL

CRITICAL PROBLEMS SA

SARJ APUR

MAI

- 16

MW IDE

APUR SARJ

MAIN

- 8M

AP UR

E WID

- M AIN

- 16

IDE

PUR ARJA y -S

RD MAIN

ow ay E W

W ID E

0M - 16

MW IDE

RIN

WIDE - two way

APUR SARJ

MAIN

- 8M

TRAFFIC

OU TE R

TO KORMANGALA - 16M

MAI

N RD

OPEN LARGE EXPANSE OF LAND

RO AD

-2

-2 RO AD G RIN OU TE R

SARJ APUR

TRAFFIC

OUTER RING ROAD (20 MTS WIDE)

- 2 WAY TRAFFIC

TOWARDS KOR. (20 MTS WIDE)

- 2 WAY TRAFFIC

SARJAPUR ROAD. (8 MTS WIDE)

- 2 WAY TRAFFIC

LAYOUT

E WID

LEMON GRASS REST. tw o

way

HARD GR. IN LAKE TERRITORY

SARJAPUR FLY OVER

- 16 MW IDE one

way

-SA

APUR

RD MAIN

- 8M

E WID

- tw ow ay E

GREEN VIEW HOSPITAL

RO A

-2

RESIDENTIAL COMMERCIAL

RIN G

LAND USE

MANTRI SAROVAR APPTS.

OU TE

GREEN VIEW HOSPITAL

TO KORMANGALA - 16M WIDE - two way

COM. BLG

OU TE R

RIN

RO A

GREEN COVER

-2

TO KO

RMAN

STONE QUARRY

W ID E

GALA

- 16M

WIDE

OPEN LAND (VACANT SITE)

RESIDENTIAL

WIDE

- tw

- 16M GALA RMAN TO KO

EARLIER LAYOUT OF LAKE MARSHY LAND

- 8M

wa two

WIDE

N RD

MANTRI SAROVAR APPT.S

OPEN SPACES

JSS SCHOOL

LAND USE

INFRASTRUCTURE

agara lake

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site out skirts of bangalore on kankapura road contoured site gradually towards the lake dense coverage of coconut trees . with 4 perineal stream joining the lake concept the use of courtyard to bring in natural light and ventilation to reduce the load on electricity by aligning the buildings with the longer surfaces facing the north and south and east and west with minimum surface exposure.the natural steam are used along the main axis beside the path way as a landscape feature and the openings of the building are along the wind direction by the running stream to create a cool island effect .the buildings are all connected with a cul-de-sac which restricts the vehicular movement to the administrative block requirement for institute education block research labs hostels library canteen teachers quarters auditorium amphi theatre administrative block

UP UP

administrative block canteen

bio tech park

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AUDITORIUM AND OPEN AIR THEATER research block

GENT S TOI

LA DIES TOI 4. 2 * 4.25

GENT S TOI

library block

education block

bio tech park

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