2. ARCHITECTURAL
D E S I G N
R E V I T
EXCAVATION
C E N T E R
F A S I O N
S C H O O L
ARCHITECTURE
S C H O O L
R E V I T
R E V I T
R E V I T
R E V I T
RHINO
GHopper
3Ds Max
3Ds Max
3Ds Max
3Ds Max
3Ds Max
3Ds Max
P A R A M E T R I C
D E S I G N
M E T R O
P A S S W A Y
M A S T E R ’ S
T H E S I S
BUILD. ENERGY
A N A L Y S I S
A U T O M AT E D
URBAN DESIGN
STREET ANALYSIS
URBAN DESIGN
TOPO. ANALYSIS
URBAN DESIGN
ShapeDiver
LadyBug
DecodSpace
DecodSpace
Kangaroo
GHopper
GHopper
GHopper
GHopper
GHopper
GHopper
3. M A S T E R ’ S
THESIS WORK
Residential building energy
analysis and optimization pro-
cess is proposed for the Hous-
ing Development Administra-
tion of Turkey.
The project was approved with
honerary grad. of 2021
Building Location Info:
1- EXISTING SITUATION:
The existing building’s charac-
teristics are analyzed, then the
areas of each building element
of its exterior envelope are cal-
culated, to find out the energy
heat loss values of its envelope
materials, then the method in
Turkish Standards is applied to
figure its annual heat energy
requirement.
1- Analysis result of the
Existing situation:
Energy spends : 58 kWh/m2year
GasConsumption:26770m3/year
CO2 Releases : 11 KgCo2/m2year
ENERGY SAVINGS GAINED : 33%
2- Analysis result of the
Proposed situation:
Energy spends : 40 kWh/m2year
GasConsumption:14355m3/year
CO2 Releases : 7.5 KgCo2/m2year
2- PROPOSED SITUATION:
According to the results of
the existing situation analysis I
proposed few changes to the
building; such as Wall/Window
ratio, building material insula-
tion, window type insulation
and others.
Re-run the analysis for the new
proposed situation to compare
the two results.
CASE STUDY CREATING THE ALGORITHM
Elements analysed:
Building Walls, Roof, Windows, Exterior Doors and Foundation
Province List and Relevant Region Values
1
2
3
4
8
7
6
5
Creating Heat Loss Equations
Solar Heat Gained from Each Façade.
Energy Performance, Boiler Capacity,
Annual Fuel Consumption and SEG Gas
release calculations
Energy Analysis Results shown in
real-time to the user as they change the
parameters.
Parameters of the Model Build. Geometry
Parameters controlling the form of the
Model Building and its Wall/Window ratio
Envelope Materials provided for the user
to chose for the created model building
Buildings Features:
6. MAIN GOALS
DENSITY
High density city to waste as little surrounding land as possible, while
still keeping recreational areas and varying building typologies for a
pleasant residence.
LOCATION
The city should be located on a place concerning topography, future
city expansion possibilities and connection to surrounding cities.
Each location in the built up area should be in easily reachable.
ADAPTABILITY
The algorithm needs to be adaptable to different factors such as
topography, connectivity to surrounding cities, city size, building
typologies.
METHODES
CITY BOUNDARY
Physically calculated city boundary to find the least sloped city
area on the given location.
NODE BASED FUNCTION DISTRIBUTION
Functions in the city network are distributed using locational
relations and importance tables between them.
SPACE SYNTAX FOR DENSE DISTRICT DISTRIBUTION
Betweenness values are being used to distribute residential
and commercial typologies within the city.
Syn City
Designing Algorithms that helps to create 10k cities according to given existing data,
these scripts will be useful for the 1 thousand emerging city in Ethiopia in the next 5 years.
Group partners : Johannes Frolich, Vinzenz Rauch
1
SLOPE
FLAT
Finding best boundary
for the new city
Calculating flat topography & separating
from steep
Using optimizer to get the best shape
according to topography
Dividing the city to smaller plots
-regions- for easier circulation
Space syntax analysis is used to find the
most used and crowded streets
Final phase, distrebuting residential & commercial
plots and other functions in their best spots
Eliminate sub-streets that conflict with
functions to create open public spaces
Creating street network in the smaller plots,
number of turns and serpentines is controllable
Secondary streets
following the flow
Distrebute nodes, according to
importance and connection table
Define innercity for
commercial purposes
INDUSTRY
INDUSTRY
ADMINISTRATION
HEALTH CENTER
ADMINISTRATION
GAS STATION
GAS STATION
MOSQUE
MOSQUE
MOSQUE
CHURCH
CHURCH
CHURCH
SCHOOL
SCHOOL
SCHOOL
MARKET PLACE
MARKET PLACE
MARKET PLACE
MARKET PLACE
MARKET PLACE
WATERRESERVOIR
Geschoss ۱:۱۰۰۰۰
۱. Geschoss ۱:۱۰۰۰۰
2
7. SCHOOL
MARKET
MOSQUE
CHURCH
GASSTATION
INDUSTRY
MOSQUE
INDUSTRY
GASSSTATION
MARKET
MARKET
SCHOOL
MOSQUE
MARKET
SCHOOL
HEALTH
CENTER
ADMINISTRATION
CHRUCH
SCHOOL
MARKET
CITY AREA:
RESIDENTIAL:
SCHOOL:
HEALTH CENTER:
ADMINISTRATIVE:
MARKET
BUILDING:
PLACE:
INDUSTRY:
BUILDING:
PLACE:
385.000 sqm
228.00 sqm
16.000 sqm
3.000 sqm
4.500 sqm
1.000 sqm
5.000 sqm
7.000 sqm
12.300 sqm
INDUSTRY
CHURCH
MARKET
INDUSTRY
GASSTATION
SCHOOL
MARKET
MOSQUE
SCHOOL
ADMINISTRATION
CHURCH
SCHOOL
MARKET
MARKET
MOSQUE ADMINISTRATION
MOSQUE
HEALTH
CENTER
WATERRESERVOIR
CHURCH
MARKET
CITY AREA:
RESIDENTIAL:
SCHOOL:
HEALTH CENTER:
ADMINISTRATIVE:
MARKET
BUILDING:
PLACE:
INDUSTRY:
BUILDING:
PLACE:
428.500sqm
272.494sqm
18.000 sqm
3.000 sqm
5.000 sqm
2.000 sqm
10.000 sqm
6.000 sqm
15.000 sqm
SCHOOL
MARKET
MOSUQE
INDUSTRY
INDUSTRY
MARKET
SCHOOL
MOSQUE
MARKET
SCHOOL
HEALTH
CENTER
ADMINISTRATION
CHURCH
SCHOOL
MARKET
CHURCH
MARKET
MARKET
MARKET
CHURCH
CITY AREA:
RESIDENTIAL:
SCHOOL:
HEALTH CENTER:
ADMINISTRATIVE:
MARKET
BUILDING:
PLACE:
INDUSTRY:
BUILDING:
PLACE:
1.216.484sqm
778.000sqm
40.000 sqm
6.000 sqm
4.000 sqm
2.000 sqm
8.000 sqm
21.330 sqm
20.000 sqm
3
commercial &
residential
commercial &
residential
commercial &
Betweenness analysis
most used streets
-in red-
Betweenness analysis
most used streets
-in red-
Betweenness analysis
most linked streets
-in red-
residential
commercial &
residential
4
8.
9.
10. Mesis contains the im-
portant remains of the
neolithic era period.
My concept is to build
the city historical fa-
cade. Getting inspira-
tion from the ancient
stacked masses was
my starting point.
A design proposal
for the municipali-
ty of Adana, Turkey.
Demonstrates the fu-
sion between ancient
and modern with ar-
eas for public exhibi-
tions, workshops as
well as private work
spaces and accomo-
dation spaces.
STACKING
CONCEPT
SPATIAL
DECISIONS
E X C A V AT I O N
CENTER DESIGN
COMPETITION
11. PHYSICAL ENVIRONMENT ANALYSIS SITE PLAN FLOOR PLANS
A Design proposal for
Fasion and Arts School in
the heart of Istnabul‘s fa-
sion district Besiktas.
First a comprehensive
analysis was conduct-
ed to define movement
around and the strength-
es of the land.
Design Decisions was
taken accordingly.
Submitted as a competi-
tion entry at 2019
SYSTEM DRAWINGS
M A Ç K A
F A S I O N
C A M P U S
15. I N T E R I O R
D E S I G N
Q a t a r, V i l l a
I n t e r i o r
D e s i g n .
-NeoClassic-
style was the
d e m a n d
of the client.
A p a r t m e n t
I n t e r i o r
D e s i g n , i n
C e n g e l K o y ,
I s t a n b u l .
F u r n i t u r e
d e s i g n e d
to capture the
maximum view of
the Bosphorus.