Avraam Vairaktaris

P. 0 1 ABOUT ME..

Avraam Vairaktaris

My name is Avraam Vairaktaris, I am an Architect Engineer . I believe that my background in architectural design and engineering combined with the diverse work experience that I hold constitute an advantageous candidate profile for a successful and lasting career in architecture design and engineering. Originally they have provided me with a rich array of analytical skills and focus on practical implementation and tangible results rather than theory. Working for a medium scale construction company in Greece I had the chance to travel in different places and work with people from different backgrounds and specializations. Through these experiences I acquired valuable insights, I broadened my horizons and developed my interpersonal skills. Furthermore, by my participation in different scale projects, I learned how many different points of view a certain situation can have, the many variables that must be taken into account, and the critical thinking required in order to reach a final model.

P. 0 2 CONTENTS

P. 0 3 - 0 4 GENERAL Curriculum vitae

P. 0 5 - 1 4 PROFESSIONAL PROJECTS| CONSTRUCTION & SITE INSPECTION Costas Tsoclis Museum

Re-construction of Orlof Square

P. 1 5 - 2 4 PROFESSIONAL PROJECTS| DESIGN Multi-Housing Project in Gkazi

Patras’ Housing Project, Achaia

P. 2 5 - 4 6 A C A D E M I C P O S T- G R A D U AT E | E N V I R O N M E N TA L D E S I G N Soup Kitchen, Saint Martins in the Field

Solar Decathlon Competition

P. 4 7 - 6 8 ACADEMIC UNDER-GRADUATE Research Thesis Report

Design Thesis

Temponera School Complex

Reformation of Hadrian’s Aqueduct Square , Athens

Avraam

Vairaktaris

Architect

PERSONAL DETAILS

Telephone Number

0044 7523307725

Email Address

avraam.vairaktaris.11@ucl.ac.uk

Date of Birth

24th February 1986

Nationality

Greek

EDUCATION

U nivers ity C olleg e Lond on ( UCL) , Uni ted Ki n g d o m

Se p t e m b e r 2012- Se p t e m b e r 2013

MSc in Environmental Design and Engineering

Thesis: Cost and carbon benefits of Passivhaus Joints refurbishments of UK’s domestic building stock

(Modules: Solar design, Natural ventilation design, Domestic retrofit, Environmental Master planning, Passivhaus)

U nivers ity of Patr a s, G r eece

Se p t e m b e r 2004- De c e m b e r 2010

Diploma in Architectural Design and Engineering , (5 Years Curriculum BEng+MEng)

WORK EXPERIENCE

Avraam V airakta r i s A r chi tectur a l D esi g n O ff i c e

M a r c h 2011- Se p t e m b e r 2012

Design + Construction Firm

Anas tasios K oila k os Constr ucti on Comp a ny

Oc t o b e r 2008- F e b r u a r y 2011

Senior Project Architect, Full Time Employee. Qualifications: Architectural Design, Site Inspection, Quality Management, Budget control,Construction Detailing Projects: - Construction of Museum of Costas Tsoclis in Tinos Island

(410.000,00 €)

- Construction of Orlof Square in Tinos Island

(130.000,00 €)

- Refurbishment of School Complex in Santorini Island

(365.000,00 €)

- Construction of Pyrgos Square in Tinos Island

(115.000,00 €)

Anas tasios K oila k os Constr ucti on Comp a ny Architectural Assistant, Part Time Employee. Qualifications: Design & Budget control of the projects, Construction detailing

J a n u a r y 2006- Se p t e m b e r 2008

PUBLICATIONS

|

P R E S E N TAT I O N S

|

RESEARCH

Dissertation Thesis, University College of London

Se p t e m b e r 2013

Title: Cost and carbon benefits of Passivhaus Joints refurbishments of UK’s domestic building stock

Design Thesis, University School of Patras

N o ve m b e r 2010

Title: Design of public baths and reformation of a part of the sea front of ancient town of Loutraki

MEMBER OF INSTITUTES | CERTIFICATIONS

UK - Architects Registration Board

Exp ect ed

Royal Institute of British Architects RIBA Associate Member

Exp ect ed

Chartered Institution of Building Services Engineers

N o ve m b e r 2012

Hellenic Association of Greek Architects

J a n u a r y 2011

Chartered Architect Engineering, Technical Chamber of Greece

M a r c h 2012

LANGUAGES Greek: Native, English: Fluently (Advanced Diploma IELTS)

SEMINARS

|

WORKSHOPS

Athens 9 Workshop, university of Patras,

F e b r u a r y 2007

Project: Rehabilitation of Greek Parliament that would promote Democracy

IT SKILLS

Autodesk (Autocad 2D-3D, 3Ds Max, Ecotec, Revit), Sketch Up, IES, TAS, Sketchup, Rhino,Adobe (Photoshop, Illustrator, Indesign), MS Windows, MS Office(Word, Excel, Power Point), PDA , AGI32, Form Z Radiozity,

PERSONAL INTERESTS Athletics: Sailing, Tennis, Beach Volley, Horse riding Interests: Theater, Cinema, Black & White Photography, Travelling

REFERENCES

Available upon request 0 3 | 04

P. 0 5 - 1 4 PROFESSIONAL CONSTRUCTION Construction | Detailing | Supervision

Costas Tsoclis Museum, Tinos Island , Greece Re-construction of Orlof Square, Tinos Island , Greece

C O S TA S T S O C L I S M U S E U M

Title Site Architect in Construction of Artist Costas Tsoclis’s Museum in Tinos Island Greece Type Professional -Supervision Time June 2009 Team A.Koilakos C.C Status Completed

Duties Description : -Construction

Detailing

,

Working

plans

preparation

in

collaboration with architecture team -Ensure that sufficient information is available on drawings and sketches to set out the works in accordance with the programme and to resolve any inconsistencies in the information provided including feedback on any changes -Setting out the works in accordance with the contract requirements before work is programmed to commence -Check the works during progress and on completion to ensure that it has been constructed in line with the setting-out information provided, measured and signed off before covering up and that information is passed -Setting out the works in accordance with the contract requirements before work is programmed to commence - Taking off and site measures of materials to alow them to be controlled ordered efficiently and accurate reconciliations to be developed for the weekly review.

Photos Copyright George Triantafyllou

0 7 | 08

Photos Copyright George Triantafyllou

Photos Copyright George Triantafyllou

0 9 | 10

Works in Progress

1 1 | 12

O R LO F S Q U A R E I N T I N O S I S L A N D

Title Recostruction of Orlof Square in

Duties Description - Ensure that sufficient information is available on drawings and sketches to set out

Tinos Island, Greece

the works in accordance with the programme and to resolve any inconsistencies in the

Type

information provided including feedback on any changes made

Professional -Supervision Time January 2010 Team A.Koilakos C.C Status Completed

- Communicate with foremen, gangers, workforce and sub-contractors to ensure full understanding of information provided. - Taking off and site measures of materials to allow them to be controlled ordered efficiently and accurate reconciliations to be developed for the weekly review - Take receipt of materials and check description, quality, markings and condition before signing

Photos after the Completion & Handover

1 3 | 14

P. 1 5 - 2 4 PROFESSIONAL PROJECTS | DESIGN Multi-Housing Building in Gkazi, Athens, Greece Patras’ Housing Project, Achaia, Greece

G K A Z I M U LT I - H O U S I N G P R O J E C T Title

Description

Housing complex in Gkazi area, Athens, Greece

The project includes 6 single- bedroom flats located in one of the most upcoming areas in the city of Athens.

Type

The building’s ground floor is a public space free to visitors, including an

Professional-private

open swimming pool according to the clients’ requirements. Large openings

Time

contribute to great view and enhance the natural light in the living area and

June 2011

the kitchen.

Team Individual Status Concept Design

The materials used are natural and raw such as concrete, wood and glass. The circulation space in the main facade symbolizes the motion in the building enhancing the optical integration of the private and public space. The private facilities of each flat are located at the rear elevation with private balconies and large openings increasing natural lighting and ventilation.

3D Perspective view 1 7 | 18

+ 24.00m + 21.00m + 18.00m + 15.00m + 12.00m + 09.00m + 06.00m + 03.00m + 00.00m

West Elevation

North Elevation

Typical Elevation Typical Elevation

Ground Floor Plan

Ground ElevationGround Eleva

Typical Floor Plan 1 9 | 20

PATRA’S HOUSING PROJECT

Title

Description

House project in Patras, Achaia, Greece

The residency is located close to the historical centre of the city of Patras.

Type

It is designed for a couple with a one double-bedroom at the upper floor at the

Professional-private

front elevation. The public areas of the house are located at the ground level

Time

orientated to the rear side and the private pool.

August 2011

The minimal and clear design, the orientation and the large openings

Team

maximize the natural light and improve the interaction of the inside and outside

Individual

space.

Status Concept Design

3D Perspective view

2 1 | 22

Section Plan a_a

North Elevation

Section Plans

Ground & First Floor Plan 2 3| 24

P. 2 5 - 4 6 A C A D E M I C P O S T- G R A D U AT E P R OJ E C T S E n v i ro n m e n t a l D e s i g n

Soup Kitchen, Saint Martins in the Field Solar Decathlon Competition

2 5 | 26

SAINT MARTINS IN THE FIELD

Title Soup Kitchen in Saint Martins in The field

Description The St. Martin-in-the-Fields Centre for Homelessness was developed

Type

by a multidisciplinary team of architects and building services engineers. The

Academic- University College of London

team adopted an iterative process of site analysis, concept study, design

Date

development and performance analysis. This holistic approach is presented

December 2012

through a series of lateral, rather than linear, steps. The challenge is to

Team

combine architectural and environmental ideas concurrently to create a

Raj Rabadia

low energy building with focused architectural design intent.

Katie Wallaca

The aim of the project is to explore the opportunities of passive

Samuel Hunt

thermal and ventilation design by creating a brief for a building located in

Avraam Vairaktaris

Central London. The building must accommodate spaces for high and low

Supervisor

occupant density and take account of microclimate exigencies and thermal

Dejan Mumovic

comfort requirements for the users.

Site Analysis and Environmental strategies

2 7 | 28

+ 16.75

+ 15.50

+ 12.50

+ 9.50

+ 6.20

+ 3.20

+ 16.75

+ 15.50

+ 12.50

+ 9.50

+ 6.20

+ 3.20

Section Plans

Ground & Third Floor Plan 2 9 | 30

3D Perspective view

3D Perspective view 3 1 | 32

Construction Detail

14

1 16

13

12 11 10 7 9

2

3 15 6

Elements

1. Exposed concrete roof slab 2. Light spot E27 3. Double glazing windows with Low emissivity 4. Timber Floor

4 5

5. Underfloor heating Pipes 6. Exposed concrete wall 7. Waterproof Membrane 8. Root Barrier 9. Oldroyd Xv Green as additional separating drainage layer 10. Closed Cell Insulation 11. Oldroyd Xv20 GreenXtra Membrane 12. Oldroyd Tp Filter Fleece 13. Growing Medium 14. Vegetation 15. Metal shades 16. Insulation elements

100% 10.1%

80% 60%

2.6%

0.0%

34.9%

37.5%

0.0% MARCH

0.0% APRIL

2.7%

2.7%

1.7%

0.0%

32.0%

35.8%

37.5%

0.0% SEPTEMBER

0.0% OCTOBER

8.9%

8.9%

28.8%

26.9%

0.0% JUNE

1.7%

3.1%

JULY

AUGUST

0.0%

5.6%

25.0%

40%

27.5% Thermal Analysis Results 20%

13.0%

0%

0.0% JAN

0.0% FEB

34.8%

0.0% MAY

% COLD HOURS

FF Mind & Body Studio 1 1% Dry Bulb (°C)

0%

0.0% NOVEMBER

% GOOD HOURS

84%

GF Canteen Dry Bulb 1% (°C)

20%

30%

0.0% DECEMBER % HOT HOURS

15%

74%

10%

37.5%

32.4%

25%

40%

50%

60%

70% % COLD HOURS

80% 90% 100% % GOOD HOURS % HOT HOURS

30 25 TEMPERATURE

20 15 10

100% 5 80% 0 60%

0.3%

20.6%

13.8% 14.4% Upper Limit (˚C)

DAYS FROM MONDAY TO SUNDAY6.3% 10.6% 13.4% External Temperature (°C) GF Canteen Dry Bulb (°C)

37.2%

40%

5.9%

31.5%

0.1% MAY

0.1% JUNE

2.3%

3.9%

JULY

AUGUST

0.3% 5.9% MIDSEASON PERFORMANCE Hourly temperatures: 1 weeK in October 13.8% 14.4% 80% 20.6%

10.6%

13.4%

26.8% 8.9%

21.8% 8.9%

0.1% JUNE

JULY

FF Mind & Body Studio 1 Dry Bulb (°C) 0% 0.0% 0.0% 0.0% JAN Rates FEB MARCH Operational Hours 100%

0.0% APRIL

40%

80%

20%

60% 0% 40%

16.9% 0.0% JAN

23.8%

0.0% FEB

0.0% MARCH 34.9%

27.5% 13.0%

0%

0.0% JAN

6.3%

0.0% SEPTEMBER 2.9%

% COLD HOURS

0.0%

37.5% APRIL

0.1%

MAY 34.8%

2.3%

26.9%

28.8%

27.4% 2.7%

0.0% FEB

3.9%

32.0% AUGUST

0.0% 35.8% SEPTEMBER

0.0% MARCH 2.6%

0.0% 0.0% APRIL

0.0% MAY 2.7%

1.7% Ground

0.0% JUNE

JULY

8.9%

8.9%

20% FF Mind & Body 13.0%Studio 1 1% Dry Bulb (°C)

0.0% FEB

34.9%

37.5%

0.0% MARCH

0.0% APRIL

34.8%

84% 0.0% MAY

AUGUST 2.7%

SEPTEMBER 1.7%

0.0% JUNE

32.0%

20%

30%

40% 84%

% GOOD HOURS 15.3%

37.5% 0.0%

0.0% 37.5% OCTOBER

8.7%

% HOT HOURS

0.0%

5.6%

29.2%

0.0% NOVEMBER

0.0% 37.5% DECEMBER

32.4%

% GOOD HOURS

1.7%

3.1%

JULY

AUGUST

0.0% OCTOBER

NOVEMBER 5.6%

% GOOD HOURS 37.5%

0.0% SEPTEMBER

0.0% OCTOBER

% HOT HOURS

0.0% DECEMBER

% HOT HOURS 37.5%

32.4%

15%

74%

10%

0.0% DECEMBER

0.0%

35.8%

% COLD HOURS

GF Canteen Dry Bulb 1% (°C)

FF Mind & Body Studio 1 0% 1% Dry Bulb (°C)

26.9%

28.8%

0.0% NOVEMBER

3.1% Canteen Dry Bulb Temperature Ranges (°C) Floor 0.0% 0.0% 0.0% 0.0%

% COLD HOURS

27.5%

0.0% JAN

34.6% 1.7%

0.0% OCTOBER

22.3%

25.0%

40%

0%

2.7% 31.5%

% COLD HOURS

10.1%

80% 60%

10.1% 23.1%

37.2% 0.0%

25.0%

20% 100%

2.6%

29.2%

22.3%

60%

100%

8.7% 15.3% FF Mind & Body Studio 1 Dry Bulb (°C)

34.6%

21.8%

23.8%

0.0%

Mid-Season Performance Hourly Temperatures: 1 Week In October 37.5% 27.4% 26.8%

GF Canteen Dry Bulb (°C) 23.1% 16.9% 20%

2.9%

0.0% NOVEMBER

% GOOD HOURS

0.0% DECEMBER % HOT HOURS

25%

50%

60%

70% % COLD HOURS

80% 90%15% 100% % GOOD HOURS % HOT HOURS

Operational Hours Rates 30 25 RE

20

GF Canteen Dry Bulb 1% (°C)

0%

74%

10%

20%

30%

40%

25%

50%

60%

70% % COLD HOURS

3 3 | 34

80% 90% 100% % GOOD HOURS % HOT HOURS

S O L A R D E C AT H LO N C O M P E T I T I O N .

Title Solar design of a house in Washington DC Type Academic

office

Date

11m

2

May 2013 Team Avraam Vairaktaris Vasileios Flegkas

living room

20m2

Vasiliki Athanasiou Supervisor Hector Altamirano

Description The project’s requirements are based on some of the core

kitchen-dining

17m2

concepts of the Solar Decathlon competition. The suggested building is a dwelling which will be located in Washington DC, USA.

master bedroom

13m2

The occupants are a family of four, two parents with two children. The house should also accommodate the working space of the father, who is working as a translator. The design of the house

bedroom (X2)

9m

bathroom

5m2

W.c.

3m2

2

was greatly affected by a number of constrains as it should comply with footprint area (less than 47.3m2) and maximum height (less than 6 meters) restrictions. Furthermore, the realistic and convenient construction method as well as the integrated materials together with an effective architectural approach were part of the project brief. Using solar design principles the proposed environmental strategies

circulation1

7m2

tested using Dynamic simulation TAS software. Dynamic simulation estimated operational energy consumption which enhanced the investigation for renewable solar energy loads to cover the needs of the building using PV systems.

axis

1. public level

Upper volume revolve to maximize solar gains when occupied

Further separation

Thermal Buffer zones

Inclination to adapt PV panels

entrance

2. private level

2 floor separation

undisturbed gaze

initial volume

Architectural design & concept diagrams 3 5 | 36

2.20

0.35

2.20

0.35

1.00

2.92

2.21

0.64

1.20

1.64

0.75

0.91

1.00

1.74

6.50

7 3 .2

1 3 .6

3.57

0.35

0.74

Ground Floor

1.78

1.00

1.74

1.51

1.78

1.00

1.74

3.57

0.74

0.35

1.98

2.20

0.64

1.51

2.21

7 3 .2

1 3 .6

0.35

First Floor 3 7 | 38

2.21

0.64

1.20

1.64

0.75

Environmental Strategies Summer | Winter

Summer Strategy

Single sided ventilation with tilt operating window

Master Bedroom - Cross ventilation - increase of cooling effect on occupants Slided Pane windows - mostly 50% opening during summer Bedroom1 - single sided ventilation Bedroom2 - cross ventilation

Upper Floor

Integrated Louvre system to avoid solar radiation through the glazed surfaces during summer. Louvres are 100% folded during night time, when night cooling is used to cool down the structure. Kitchen and Living room are connected as sliding door is open to enhance cross ventilation Living room - Kitchen - Cross ventilation / increase of cooling effect on occupants Thermal mass elements - absorb solar heat gains and internal Water pont to increase evaporative cooling during summer

Ground Floor

Winter Strategy

Thermal mass elements receive direct solar radiation and radiate heat during night

Integration of double facade on each south facing window - pre heat air before enter the space

Low infiltration rates (0.6 ACH) Trickle vents on the glazing surfaces to introduce the air in the

Upper Floor

double facade and then in the house North facing buffer zone (utilities-circulation) acts as a heat loss Sliding doors closed to seperate the spaces and prevent heat

Moveable Louvres - 100% folded during days heating period to provide passive solar heat gains- closed during night to avoid cold drafts

Water pont can improve daylight (via reflection) and produce interesting atmosphere in the space

Ground Floor

Integration of sun path diagram in volume rotation AGI-132 Lighting Calculations

3 9 | 40

3D Perspective view

3D Perspective view

4 1 | 42

3D Perspective view

3D Perspective view

4 3 | 44

8 Elements

2. PVC waterproof membrane

1

9

1. gravel 100mm

2

11

3

3. 200mm EPS insulation 4. 150mm Concrete

4

12

5. 50mm cavity

5

7

6. 50mm plasterboard

13

6 14

7. 150mm EPS insulation 8. Aluminium frame

10

8

9. Timber louvres for sun protection 10. Double glazing, low E, sliding windows 11. Window frame

9

12. Indoor flooring, concrete dense finish 13. screed 100mm / underfloor heating system 14. 150mm concrete slab 15. 25mm plasterboard internal finish

15

16. 30mm indoor floor/concrete dense finish 17. 70mm EPS vertical internal isulation

11

18. screed 100mm/underfloor heating system

10

19. 100mm EPS insulation

12

20. PVC waterproof membrane

13

21. 50mm lightweight concrete

14

22. 120mm Concrete slab 23. 75mm crushed brick

25

24. 1000mm soil 25. 25mm external dense render

11

12 13

15

14

16 17

18 19 20

21 22 23

25

24

Construction Detail

15

Monthly Heating and Cooling Loads

15.99%

17.12%

28.04%

34.44%

35.55%

39.62% 58.79%

84.01%

82.88%

71.96%

65.56%

64.45%

60.38%

January

February

March

April

May

June

July

August

67.99%

65.39%

53.34%

41.21%

32.01%

34.61%

46.66%

September

October

% Produced from PV

Predicted Monthly Electric Consumption

Predicted Monthly Electric Consumption

43.97%

48.32%

56.03%

51.68%

November

December

% Required from the Grid

(Supply Percentage between PV - Grid )

(Supply Percentage between PV - Grid ) Monthly Heating and Cooling Loads

400.0 350.0 Competition Week

Internal Dry Bulb Temperature C

300.0 30

100.0 50.0 0.0

39.62% 58.79%

20

46.66%

32.01%

34.61%

43.97%

48.32%

56.03%

51.68%

15 10

84.01%

82.88%

5

71.96%

65.56%

64.45%

0

Living Room

January January

February February

March March

60.38% Days 1 to 7

May

April

May

67.99%

65.39%

41.21%Master Bedroom

Office

April

53.34%

June June

July July

August

External Air

September

October

November

December

September

October

November

December

Competition Week Internal Temperature Variables Heating Load (kWh) Cooling Load (kWh) August

% Produced from PV

% Required from the Grid

400.0 350.0 300.0 250.0 Loads(kWh)

Loads(kWh)

150.0

28.04%

34.44%

250.0 2535.55% 200.0

15.99%

17.12%

200.0 150.0 100.0 50.0 0.0

January

February

March

April

May

June

July

August

September

October

November

Heating Load (kWh)

December

Cooling Load (kWh)

Monthly Heating and Cooling Loads

Thermal Analysis Results-TAS EDSL 4 5 | 46

P. 4 7 - 6 8 A C A D E M I C U N D E R - G R A D U AT E P R OJ E C T S

Research Thesis Report Design Thesis Temponera School Complex Reformation of Hadrian’s Aqueduct Square , Athens

4 7 | 48

RESEARCH THESIS REPORT

Title The design of public baths as a combination of water

Description The human need to provide the necessary care and

and light

hygiene of the body was the key factor in the evolution

Type

of the baths.

Academic

The first human contact with water was the rivers

Date

and lakes in an attempt to fill the need for cleanliness

February 2010

in body.

Team

The bathing room is not an exhibition of modern

Individual

plumbing, batteries, probes, or waterfalls. It relies instead

Supervisor

on silent, empirical relationship with cleaning. It is the

Athanasios Spanomaridis

relaxation, the body contact with water at different temperatures and in different kinds of facilities. Modern bathroom-spa dates back the idea and the lifestyle of our ancestors, in relation to the smooth coexistence of body, soul and spirit for better life. Moreover, the project seeks to incorporate different perceptions and techniques of people of the past in order to offer visitors the opportunity to choose services that best fit their body and lifestyle. What matters to the architect in designing such a feeling is the ability to create a space that people like to spend their time in. The most important is the emotional value of the space that has its own materiality, its own principles and rules. Its design means new ambient material. The picture however is not simply a set of colors but lights and shadows that trap memories, thoughts and feelings.

4 9 | 50

-Blue Lagoon (geothermal spa), Iceland

-Wellness centre ‘Tschuggen Bergoase’ by Mario Botta

-Thermae Bath Spa

-Peter Zumthor Therme Vals

-Peter Zumthor Therme Vals 5 1 | 52

DESIGN THESIS

Title

Description

Design of public baths and reformation of

The masterplan includes the design of public baths, the reformation

a part of the sea front of the anient town

of a part of the water front of Loutraki’s ancient town of and the creation of

of Loutraki

public spaces (new marina, hotels, marina space).

Type

The spa and thermal springs have for years a large share in the tourism

Academic

development and attraction of the town, which have been changed over

Time

time in order to cover the increasing demand.

December 2010 Team

The marina was designed not only to cover the needs for private boat anchorage, but also to mark the area as the reference point of the city.

Individual

The position of the spa aims to exhaust the city to the old town while

Supervisor

highlighting this area which last years has declined with the hotels and the few

Athanasios Spanomaridis

shops to function poorly. Main goal was to create conditions for integrated spa services and leisure activities as a whole involving both the public and the private nature of thermal bathing. An exhibition space and a multipurpose hall are also organized to meet the needs of the city for various other events. The materials of this project are raw-naked from each material processing and human intervention, leaving them stuck up naturally with time. As the man takes the purification and liquid element free and naked from the beliefs and superstitions into the bath space wi the same way materials will cope with the physical properties of the damage from the water in it. Water, glass, stone, wood, uncoated concrete are the basic elements used in the project that intensify the feeling of purification and regeneration of the bathers.

53 | 54

Design Diagramm

Ground Level Plan 5 5 | 56

+5.50m

Hotel second floor plan +5,00m

Ground floor plan +0.00m 5 7 | 58

3D Perspective view

3D Perspective view 5 9 | 60

TEMPONERAS’ SCHOOL COMPLEX

Description The ‘Temponeras’ school complex is located at Psila Alonia area at the city of Patras. It currently accommodates the 7th high school, the 3rd Middle and 12th and 27th Elementary Schools of Patra, 315 students as a whole. The project is focused in three main objectives: • The formulation of an educational space ‘open’ to the city as a point of reference. • The research of a spatial arrangement of the classes to ensure flexibility towards various teaching methods (individually or in groups). • The investigation of different space qualities both indoor and outdoor, reducing the traffic in the region. The program also includes spaces of social activities such as assembly

Title Design of Temponeras’ School Complex Type Academic Time December 2006 Team

rooms, library and gym which can be used by both the students and the

Individual

citizens.

Supervisor

The total area of the high school is 2.560 m2 and the primary 1.520 m2

Andreas Aggelidakis

1. Typical Classroom Model 2. Typical Laboratory Classroom 3. Toilets Space 4. Office spaces 5. Open Free Space

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3D Perspective view

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REFORMATION OF HADRIAN’S AQUEDUCT SQUARE , ATHENS

Description The project focus was the redesign of Hadrian’s Aqueduct

Title Reformation of Hadrian’s Aqueduct

square in central Athens, an area of intense commercial activity.

square in Centre of Athens, Greece

The main idea was the interaction between the people and the

Type

water. Based on the concept of mental renewal, the proposal

Academic

makes use of water as a synthetic element defining the walking

Time

paths and boundaries inside the square and the public space.

February 2007

The interventions include also a public walking route

Team

that creates various spaces with the water element that is used

Individual

in different ways. Using the sound and the reflections of it, each

Supervisor

space performs differently creating various sensations to the

Athanasios Spanomaridis

people that are passing by. The existing entrances were kept while new paths were also designed across the square.

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Ground floor level

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KEEP NOTES....

Avraam Vairaktaris http://www.linkedin.com/pub/avraam-vairaktaris/35/180/326 avraam.vairaktaris.11@ucl.ac.uk