Samples of Work by Giannakopoulos Tselikas Ioannis | 2013-2021 by Giannakopoulos-Tselikas Ioannis

GIANNAKOPOULOS TSELIKAS IOANNIS

Architectural Design MArch | Bartlett School of Architecture, UCL, UK 2013

Diploma in Architectural Enginnering | University of Patras, Greece

2020

PROFILE A passionate architect with a creative mindset always intrigued and inspired working within challenging architectural environments. I am a determined professional with persistence in developing my skill-set and providing my competence in a variety of computational and digital fabrication tools. I aim to contribute to the architectural world with my sustainable and innovative design thinking while being part of a multicultural team. My architectural enthusiasm is my motive in creating complex and inspiring projects as part of an office with similar beliefs and business culture.

EDUCATION 10.2019 10.2020

MArch Architectural Design | [ Distinction ] Bartlett School of Architecture, UCL, UK

09.2010 04.2017

Diploma in Architecture | GPA: 8.83/10 [ Honors ] University of Patras, Department of Architecture, GR

PROFESSIONAL EXPERIENCE 09.2020 -

Design and Construction of “Athene” - Cultural Center in Neos Voutzas, Greece. [ October ‘20 - March ‘21 ]

REFERENCES Stefan Bassing | 2020 Bartlett’s RC2 Instructor stefan@stefanbassing.com

FREELANCE LICENSED ARCHITECT | Athens, GR Principal Project Architect |

06.2018 10.2019

Conceptualized and schematic design [Rhino]

Elaboration of the necessary operational and bureaucratic requirements for the Construction Licence permission

Budget Management and Bidding Proposals

The project is currently under construction

POTIROPOULOS+PARTNERS | potiropoulos.gr | Athens, GR Junior Architect | Design Associate | Development of architectural projects of different scales and contexts. From multifunctional complex projects like “ELPEN Research, Conference & Sport Center” or Masterplans to Residential projects. Vital design team member of the winning competition projects, “The Wave”, and “Active Materiality” [From competition to the construction license phase, to the Construction drawings].

Federico Borello | 2020 Bartlett’s RC2 Instructor federico.borello@icloud.com Dimitrios Potiropoulos | Chairman & Founding Partner info@potiropoulos.gr

Concept research | different design proposal explorations [Rhino], illustrations [Photoshop and Illustrator], Visualizations [V-ray for Rhino]

Development Design | Landscape Design, Interior Spatial configuration [Rhino 2D, AutoCad]

Technical Design | Construction Details, Materials and Products Research, Consultation from companies

LANGUAGES English | Fluent Greek | Mother Tongue Spanish | Basic

SOFT SKILLS

01.2018 09.2018

Passionate and Hard worker

Property registration and documentation work on connection points of the constructed sewer main pipelines for the construction needs of the connection works.

Team player Excellent communication skills Time-management ability Persistent and Reliable

MUNICIPALITY OF KOROPI | Koropi, GR Technical Consultant |

07.2014 10.2014

SPARCH ARCHITECTS | sparch.gr | Athens, GR Intern Architect | Working on the renowned project of “Agemar Headquarters, Anangel Maritime Group of Companies HQ”, while it was under the production of construction’s details, and on the initial stages of the competition about the“OTE Telecommunications Tower” Renovation:

Work under pressure on demanding deadlines

SOFTWARE SKILLS Rhinoceros 3D

Detail Design and other technical drawings [AutoCad]

Grasshopper

Model making and Visualizations graphic design [AutoCad, Photoshop]

Maya Modeling Vray for Rhino Autocad 2d Autodesk Revit

DISTINCTIONS 2018

Hellenic Architectural Society | eae.com.gr | 2012-2017 Diploma Design Thesis Competition | Project: “Reclaiming Ancient Traces: The Ancient Circuit Wall of Athens” | [ Top 3 equal awards ]

2018

Cook8: the new dining place | International Design Competition | Project: “Speranza” | Entry shortlisted proposal [ top 23-40 out of 280 submissions ]

InDesign Photoshop Illustrator MS Office i

GIANNAKOPOULOS TSELIKAS IOANNIS ARCHITECT DIPL ARCH MARCH

LICENSES 10.2020 03.2018 -

SCAN & VIEW MY PORTFOLIO

CONTACT Architects Registration Board Registration Number: 096368B Technical Chamber of Greece Registration Number: 140902

OTHER EXPERIENCE

10 Germander way, E15 3AB, London [+44] 7546632676 i.giannakopoulos.t@gmail.com

EXHIBITIONS

05.2017 02.2018

Engineer Assistant | Fulfill my compulsory 9-month Greek military service in “88 Special Engineer Battalion” Lemnos, GR

27.11.2020 11.12.2020

The Bartlett B-Pro Show 2020 | London, UK Project: “Split.Knit” | Team: Marianna Bagordaki, Ji Xiaqing, An Yingije Tutors: Stefan Bassing, Federico Borello

08.201810.2018

Volunteer Designer and Supervisor | Produced the “Neos Voutzas Athletic Center’s” plans and supervised the reconstruction of the 119 m2 space after the catastrophic fire in the region of Attica on 23rd of July 2018, in cooperation with the Municipality of RafinaPikermi and the Company of prefabricated Houses “Kofinas”.

19.12.1018

Hellenic Architectural Society Conference | Technical Chamber of Greece, Athens, GR UPatras Diploma Thesis Project: “Reclaiming Ancient Traces: The Ancient Circuit Wall of Athens”

14.06.2018 31.07.2018

Cook8: the new dining place | Benaki Museum, Athens, GR Project: “Speranza” |

Volunteer Guide | Open House Athens 2019, GR Tour Guide at selected Athenian architectural projects

27.06.2015 31.07.2015

AA Projects Review 2015 | AA main building, AA, London, UK Project: “Aethyr”

06.04.201907.04.2019

WORKSHOPS 13.03.2021 31.03.2021

Grasshopper Intermediate course | 6-day Remote Workshop by In-Generic Theme: Developing advanced data management skills. Creating complex designs, with Mesh Geometry plug-ins, Pufferfish, Dendro etc. Tutor: Ivan Marchuk [IAAC]

PUBLICATIONS 2020

The Bartlett B-Pro Show Book 2020 | Project: “Split.Knit” | Team: Marianna Bagordaki, Ji Xiaqing, An Yingije Tutors: Stefan Bassing, Federico Borello

2018

UPatras Diploma Thesis | archisearch.gr, gradreview.gr, arch.upatras.gr Project: “Reclaiming Ancient traces: the Ancient Circuit Wall of Athens” Instructor: Prof. G. A. Panetsos 5th Semester Design Studio | a2610 issue #8 [Department’s Biannual News Bulletin], Spring 2014 | arch.upatras.gr Project: “Redefining the acoustic memory”, Team: S. Monachogios

27.02.2021 06.03.2021

Parametric SubD Workflows | 3-day Remote Workshop by In-Generic Theme: “Mesh- and SubD modelling with Grasshopper” Tutors: Ivan Marchuk, Anton Koshelev [IAAC]

2014

28.09.2019 10.10.2019

FRep Tectonics | Bartlett School of Architecture, UCL, UK Theme: “Shape Generation for 3D Printed Spatial Nodes” | Tutors: Vishu Bhooshan, Federico Borello, Leo Bieling (ZHCODE)

ACADEMIC ESSAYS

22.09.2014 01.10.2014

AA Greece Visiting School | Patras, Greece Theme: “Folded Force: Projections” | Program Head: Alexandros Kallegias, AAVS Director: Christopher Pierce

22.09.2016 28.09.2016

Citylab 2016: On Architecture of the City | Patras. GR Theme: “Architecture-City-Eros” Coordinators: Panagiotis Pagalos, Stavros Alifragis, Vasiliki Petridou

2020

Design Thesis Report | UCL Bartlett School of Architecture | Project: “Learning through Making: towards a Digital Craft” Supervisor: Alejandro Veliz

INTERESTS Graphic Design, Product Prints for redbubble.com, Photography, Volunteering, Travelling, Basketball, Tennis, Swimming

iii

RESIDENTIAL

URBAN SCALE

BUILDING SCALE

PRODUCT SCALE

COMPUTATIONAL

WORKSHOP

COMPETITION

PROFESSIONAL

UPATRAS

BARTLETT - UCL

RETAIL

CULTURAL

TABLE OF CONTENTS

01 02 03 04 05 06 07 08 09

SPLIT.KNIT ©

FORM ACTIVE KNITTED STRUCTURES

ATHENE

CULTURAL CENTRE IN NEOS VOUTZAS

THE_TWISTER

TOWER SKIN PARAMETRIC DESIGN 19

ACTIVE MATERIALITY

VACATION HOUSES COMPLEX 21

THE WAVE

GOLF FRONT RESIDENCES 25

RECLAIMING ANCIENT TRACES

THE ANCIENT CIRCUIT WALL OF ATHENS

SPERANZA

THE DINING ENCLOSURE 35

ALTAR

WINE TASTING ROOM 37

THE NATURE OF MUSIC

REDEFINING THE ACOUSTIC MEMORY 39

SPLIT.KNIT FORM-ACTIVE KNITTED STRUCTURES

||Bartlett School of Architecture [UCL] Design Thesis Final Project 2019-20 ||Supervisors: Stefan Bassing, Federico Borello ||Collaborators: Marianna Bagordaki, Ji Xiaqing, An Yingije ||Grade 75|100 [Distinction] ||Used Software Grasshopper, Rhinoceros, Maya, Illustrator, Photoshop

WHAT ?

//A collection of Space Organizers

TO WHOM?

plit.Knit’s project explores the synergy between knitted membranes and active bending fiberglass rods as boundary supporting material. The innovative trajectory that this study examines in the field of knitted structures, is the ability to be transformable according to users’ needs. This is accomplished through the “InLace” technique that is introduced as the essential transformable parameter. In this context, traditional knitting techniques are revisited and enhanced through contemporary computer-machine logics as a medium for the exploration of their space making capacities. As a result of the research is raised up a Rental Startup of Space Organisers - Split.Knit - and its vision is to offer to future customers custom-fit products for indoor and outdoor spaces. For this reason, a website was created that includes not only all the Split.Knit’s standard products, but also an interactive configurator platform that allows future customers to design a custom product from scratch according to their specific demands. Thus, two architectural Scenarios are mainly introduced. Firstly, spatial interior organizers for Co-working Office spaces and secondly, a series of outdoor flexible knitted structures for the Olympic Games of Tokyo 2021. Regardless of their scale, the products are designed to be flexible, lightweight, and easily assembled/reassembled.

Digital Simulation of “Diamond”, a Split.Knit transformable Standard Product

// Worldwide for everyone

INNOVATION?

// “InLace” Technique

PRODUCT QUALITIES?

// Transformability of products // Lightweight structures // Assembly - Reassembly capacities // Replacement without any site damage // Rapid fabrication with no waste // Advanced aesthetic results

KNITTING MATERIAL BEHAVIOR LYCRA

WOOL D3

DIGITAL TEXTILE SIMULATION

STRESS LEVEL Extension R

D : Density R: Relaxed S: Stressed

S S

Different Knitted Textile Behavior based on different Materials and different Knitting manipulations

CNC Knitting | Translation from Digital to Physical

WOOL & LYCRA D3

WOOL & LYCRA STRIPES

TA TB TA TB TA TB TA TB TA TB TA TB TA TB TA

RELAXED CONDITION

IN-LACE GRAPH

Type 2

STRESSED CONDITION

Type 3

Type 4

Type 3 Type 3

Type 4 Type 4

TRANSFORMATIONS

Type 2 x2

Type 2 Type 2

x3 3 TypeType 3 Type33 Type

Type 4 Type 4 Type 4

Physical Models’ Experiments

SPLIT.KNIT STANDARD PRODUCTS

Digital Simulated Design Typologies | Diamond Aggregation Logic

THE DIAMOND

a Reaction Diffusion Pattern Generator Influenced by the a| Height, b| Bend Force , c| Protrusions

Leaf Physical Model

THE LEAF Leaf’s material system | Knitted by an analogue Knitting Machine lycra yarn: function breathable areas

wool + lycra: function supporting area for the frame/ holes 6

CO-WORKING SPACE SCENARIO

A F

D E

Fig02 | Different number of essential distinct uses inside an office space

Fig03 | Office space in Open-plan

A C

B B

Fig04 | classification of uses in groups

Fig05 | Lightweight Partition walls add privacy between uses

COLLUMN

knitted fabric

semi-relaxed state relaxed state stressed state

insert the rods

insert the elastic rope 2

connect the nodes and stretch the rope

DOME

KNITTED STRUCTURES’ AGGREGATIONS

D-1

D-2

D-3

D-4

D-5

D-6

D-7

D-8

Larger Scale Scenarios | Geometrically driven Aggregations

OLYMPICS ENTERTAINMENT SPOT

rods inlay pattern

auxiliary line stitch line holes reinforcement knit stitch line breathable knit

( 1 pixel = 1 stitch )

Structural CNC Knitting Pattern navigation map in detail

Typologies of CNC knitted stitches

Pixel map of a single patch

tubular

piquet lacoste

interlock

CNC Knit Structural Patterns

OLYMPICS CENTRAL MARKETPLACE

A-2

Bird’s Eye View Olympics Market Configuration

+ Combination of two Aggregation Components

Reaction-Diffusion Pattern influenced by the height parameter | Interior Market Perpective 10

OLYMPIC GAMES CULTURAL CENTRE

Introducting transformability into a building scale project | Knitted Structures can be transformed by the inLace techique and create diverse spatial experiences

Exhibition Space | Level 01

Side Entrance 11

two-story building with the use of complex knitted structures

experiment at the crosspoint of a metallic scaffolding and a collection of lightweight knitted structures

Central Plaza 12

“ATHENE” CULTURAL CENTRE IN NEOS VOUTZAS

||Professional Work 2020- ||Principal Project Architect ||Site Area: 1312,20 m2 ||Total Space: 342,95 m2 ||Cost: 350.000 € ||Associate Engineers: Papamichalis Panagiotis [Mechanical & Electrical Engineer], Apostolopoulos Nestor [Structural Engineer] ||Contribution: Concept, Architectural Design, Diagrams, Renderings, Construction license Permit ||Used Software Revit, Rhinoceros, Illustrator, AutoCad, Photoshop

he building is located on sloping terrain of 156 to 164 meters above sea level. As a result, the view is opened to Attica’s seaside panorama [Rafina, Nea Makri, Marathon]. The basic design principle was based on the utilization of the altitude, the slope, and the plot’s view. The building volumes respect the surrounding built area and are installed smoothly in the environment, without blocking the surrounding buildings’ view.

697.5

The composition consists of two distinct building volumes with green roofs as a continuation of the terrain’s slope, outdoor gathering places, and an outdoor amphitheater. The building complex is accessible from all sides of the plot. Creating two distinct buildings, autonomous opening hours for each building, and an ideal separation of programs and functions are achieved. Specifically, the small building [BUILDING II] includes a small Library and an administration office for the supervisor and is addressed to functions that demand peace. The large building [BUILDING I] has been designed as a multipurpose space for different events and activities such as lectures, gatherings, performances on the ground floor, and art workshops (painting, sculpture, ceramics, etc.) on the first-floor loft. The installation is fully integrated into its environment, and the terrain undergoes minimal excavations and earthworks. The whole design emphasizes the need to enhance the green “footprint of the area,” a crucial issue after the area’s catastrophic fire of 2018.

Diagrammatic Facade

0.1 0.2

0.4

concrete 100mm stucco coating 10mm soil max height 500mm geotextile 1.5 to 2.5 mm felizol 100mm geotextile 1.5 to 2.5 mm q drain 15mm drainage 40mm waterproofing 5-10mm screed 80- 120mm thermal insulation 100mm, λ=0.035 W/mK water vapour barrier SARNAVAP-1000E 1mm mounting plug external thermal insulation 100mm concrete 300mm

metal sheet 20mm plasterboard 12.5mm render 5mm

PRODUCED BY AN AUTODESK STUDENT VERSION

20m

0 | Ground Floor Plan

library

multipurpose spase

20m

1 | First Fl

PRODUCED BY AN AUTODESK STUDENT VERSION

admistration office

PRODUCED BY AN AUTODESK STUDENT VERSION

existing monument

TUDENT VERSION

PRODUCED BY AN A

AUTODESK STUDENT VERSION

PRODUCED BY AN AUTODESK STUDENT VERSION

Concept Diagram

20m

green roof public park outdoor amphitheater

green roof public park art workshop

PRODUCED BY AN AUTODESK STUDENT VERSION

loor Plan

MasterPlan

PRODUCED BY AN AUTODESK STUDENT VERSION

PRODUCED BY AN AUTODESK

Axonometric Perspective

South Elevation

Section 2 | Building II

20m

Section 1 | Axonometric Section

East Elevation

0 0.8 1.5

20m

THE_TWISTER TOWER SKIN PARAMETRIC DESIGN

||Individual Workshop Project 2021 ||Parametric SubD Workflows by in-generic.org ||Theme: Mesh and SubD modelling with Grasshopper ||Tutors: Ivan Marchuk, Anton Koshelev from IAAC, Barcelona, Spain ||Used Software Grasshopper, Rhinoceros, Maya

he_Twister code explores the potential of a single loopbased operation to generate complex freeform shapes. Even though the code can apply to multiple scale products, the goal was to create a code in which you can handle several parameters towards the production of tower skin models. The parametric process affects multiple attributes such as the a_height, b_twisting, c_overall size variation, d_central faces’ voids, and e_corner openings’ pattern. The final produced forms are mesh-based Rhino SubD geometries which represent high precision smooth organic shapes. The Twister Tower was further developed and enhanced by a central core that constitutes the bearing structure and the vertical circulation. At the same time, the metal trusses at the perimeter of the slabs support the external tower shell made by GFRC cladding panels, with a glossy, metallic automotive-like finish.

Generative Design Alternatives

Central Core

etal Trusses | Shell Support

200 m

Internal Structure

GFRC Tower Skin

ACTIVE MATERIALITY VACATION HOUSES COMPLEX

||Professional Project 2018-19 ||Architect at Potiropoulos+Partners Luxury Villas in Porto Heli, Peloponnese ||Site Area: 8.835 m2 ||Total Space: 930- 2.320 m2 ||Distinction: Winning Competition Project, “Winner” prize in the “Architecture” category of the “German Design Awards 2020” ||Contribution: Concept, Design, Construction license, Construction Documents ||Used Software Rhinoceros, AutoCad

Villa 01

hrough the geomythological approach, one could associate the Lernaean Hydra’s story with the natural topological features of ancient Argolis. The Lernaean Hydra symbolizes the hydrology of the specific geographical area. In contrast, Hercules’ battle with the beast stands for man’s attempts to cure the ills emanating from local phenomena, such as the harmful presence of the Lerna marshes might have been. In his drawing “Hercules Slaying the Hydra,” Raphael Lamar West accurately captures the intense effort with which man confronts nature. Besides the mythological aspect, one can observe the conjunctural similarity of the “shapes” in West’s drawing with those of the project area’s topography – like the irregular “lacy” coastline, as the beachfront meets the water. This curved irregularity is, of course, a prevailing feature of the small peninsula where the project is situated, as well as of the Argolic landscape and the Peloponnese in general, consisting of low hills and terrain recesses and projections, reminiscent of a “wave drawing,” while being constantly transformed. The architectural idea renders, on both a pragmatic and symbolic level. On the one hand, the curvilinear nature of the place’s terrain, and on the other the historical metaphor, by setting the building volumes in place and directing their “movement” as if they were large scale carved stones, an integral part of the natural panorama.

Villa 02

Villa 03 Statue of Heracles defeating the lernaean hydra in Vienna

Volumetric Design Explorations

01 | Larger Individual Villa Proposal

02 | North Villa Proposal

03 | South Villa Proposal

01 | 1st Floor Plan | Larger Individual Villa Proposal

02 | Ground Floor Plan | North Villa Proposal

03 | 1st Floor Plan | South Villa Proposal

20m

N 20m

20m

2 044 055 066 077

8 099 1010

YΠOMNHMA

ΕΡΓΟΔΟΤΗΣ

01 ΛΙΘΟ∆ΟΜΗ ΣΕ ΓΚΡΙΖΑ-MΠEZ ΑΠΟΧΡΩΣΗ ΠΡΟΕΡΧΟΜΕΝΗ ΑΠΟ ΤΟΠΙΚΑ ΛΑΤΟΜΕΙΑ. H ΛΙΘΟ∆ΟΜΗ ΘΑ ΑΡΜΟΛΟΓΗΘΕΙ ΜΕ NOVAGROUT STONE 32 BEIGE ΤΗΣ NOVAMIX ΣΥΝΟΛΙΚΟΥ ΠΑ-

12 13

ΕΡΓΟ

ΔΙΩΡΟΦΗ 1 | Stonework in shades ofΚΑΤΟΙΚΙΑ ΜΕ12 | Stone pitching 100mm ΥΠΟΓΕΙΟ, ΕΞΩΤΕΡΙΚΗ ΚΟΛΥΜΒΗΤΙΚΗ beige and grey ΔΕΞΑΜΕΝΗ, ΠΕΡΓΚΟΛΕΣ 13 | Cement Mortar

ΧΟΥΣ 500 ΧΙΛ. (ΕΝΑΛΛΑΚΤΙΚΑ ΟΠΤΟΠΛΙΝΘΟ∆ΟΜΗ)

EVERTY PORTO HELI GREECE ΜΟΝΟΠΡΟΣΩΠΗ Ι.Κ.Ε.

11 12

02 ΥΛΙΚΟ ΠΛΗΡΩΣΗΣ ΚΑΙ ΣΦΡΑΓΙΣΗΣ ΑΡΜΟΥ

05 ΓΑΛΒΑΝΙΣΜΕΝΟ ΠΡΟΦΙΛ ΣΚΟΤΙΑΣ ΤΥΠΟΥ PS19 ΤΗΣ CATNIC

03 ΤΑΙΝΙΑ ΑΠΟ ΑΦΡΩ∆ΕΣ ΠΟΛΥΑΙΘΥΛΕΝΙΟ

04 ΕΠΙΧΡΙΣΜΑ ΑΠΟ ΑΣΒΕΣΤΟΚΟΝΙΑΜΑ ΤΡΙΩΝ ΣΤΡΩΣΕΩΝ ΣΥΝΟΛΙΚΟΥ

ΚΑΙ ΕΞΩΤΕΡΙΚΗ

ΤΟΙΧΟΠΟΙΙΑ ΑΠΟ 2 | Joint fillers and sealants ΛΙΘΟΔΟΜΗ

ΠΑΧΟΥΣ 50 ΧΙΛ.

∆ΙΑΣΤΑΣΕΩΝ 19χ57χ3 ΧΙΛ.

fastening 25mm

3 | PVC Foam Insulation "ΜΠΟΥΡΛΟΤΟ" - Δ.Κ. 14 | Galvanized steel Mesh ΕΡΜΙΟΝΗΣ - ΔΗΜΟΣ ΕΡΜΙΟΝΙΔΑΣ Tape 15 | Rectangular Galvanized Hollow 4 | 3-layer Lime plaster AΡΧΙΤΕΚΤΟΝΙΚΗ ΜΕΛΕΤΗ ΕΦΑΡΜΟΓΗΣ 15x30mm casting 50mm ΘΕΣΗ

06 ΤΣΙΜΕΝΤΟΚΟΝΙΑ ΕΞΟΜΑΛΥΝΣΗΣ

07 ΘΕΡΜΟΜΟΝΩΣΗ ΑΠΟ ∆ΙΟΓΚΩΜΕΝΗ ΠΟΛΥΣΤΕΡΙΝΗ V-ESSE

PANEL ΤΗΣ VALSIR

08 ΣΥΣΤΗΜΑ ΕΝ∆Ο∆ΑΠΕ∆ΙΑΣ ΘΕΡΜΑΝΣΗΣ

EIΔΟΣ-ΦΑΣΗ ΜΕΛΕΤΗΣ

09 ΘΕΡΜΟΜΠΕΤΟΝ

10 ΠΑΤΗΤΗ ΤΣΙΜΕΝΤΟΚΟΝΙΑ ΠΑΧΟΥΣ 3 ΧΙΛ.

11 ∆ΙΑΦΑΝΟ ΠΟΛΥΟΥΡΕΘΑΝΙΚΟ ΒΕΡΝΙΚΙ ∆ΥΟ ΣΥΣΤΑΤΙΚΩΝ

VARNISH PU 2K ΤΗΣ ΙSOMAT ΓΙΑ ΤΗΝ Α∆ΙΑΒΡΟΧΟΠΟΙΗΣΗ ΑΠΟ

ΤΙΤΛΟΣ ΣΧΕΔΙΟΥ

ΗΜΙΥΠΑΙΘΡΙΟΥ 5 | Shadow Bead byΟΡΟΦΗ ΜΕ ΤΣΙΜΕΝΤΟΣΑΝΙΔΑ 16 | Extruded polystyrene Styropan Panels Galvanized Steel

ΥΓΡΑΣΙΑ

12 ΛΙΘΙΝΗ ΕΠΕΝ∆ΥΣΗ ΠΑΧΟΥΣ 100 ΧΙΛ.

ΑΡΙΘΜΟΣ ΣΧΕΔΙΟΥ

13 ΤΣΙΜΕΝΤΟΚΟΝΙΑ ΣΤΕΡΕΩΣΗΣ ΠΑΧΟΥΣ 25 ΧΙΛ.

14 ΓΑΛΒΑΝΙΖΕ ΠΛΕΓΜΑ ΤΟ ΟΠΟΙΟ ΗΛΕΚΤΡΟΣΥΓΚΟΛΕΙΤΑΙ ΣΤΟΥΣ

6 | self-leveling cementitious screed

MΕΤΑΛΛΙΚΟΥΣ ΟΡΘΟΣΤΑΤΕΣ

15 ΓΑΛΒΑΝΙΣΜΕΝΟI ΣΤΡΑΝΤΖΑΡΙΣΤΟI ΟΡΘΟΣΤΑΤEΣ ∆ΙΑΤΟΜΗΣ

15x30 ΧΙΛ. ΠΟΥ ΤΟΠΟΘΕΤOYNΤΑΙ ΚΑΘΕ 20 ΕΚ. KAI ΣΤΗΡΙΖΟΥΝ

16 ΘΕΡΜΟΜΟΝΩΤΙΚΕΣ ΠΛΑΚΕΣ ΕΞΗΛΑΣΜΕΝΗΣ ΠΟΛΥΣΤΕΡΙΝΗΣ

17 ΠΛΑΚΑ ΟΠΛΙΣΜΕΝΟΥ ΣΚΥΡΟ∆ΕΜΑΤΟΣ

TH ΛΙΘΙΝΗ ΕΠΕΝ∆ΥΣΗ. OI ∆ΙΑΤΟΜΕΣ ΑΓΚΥΡΩΝΟΝΤΑΙ ΜΕ ΜΟΝΙΜΕΣ

ΑΡ-4-503-008_00

ΗΜΕΡΟΜΗΝΙΑ

27.05.2020 ΚΩΔΙΚΟΣ ΛΕΠΤΟΜΕΡΕΙΑΣ

Λ03.08 7 | Graphite Expanded Polystyrene (Neopor)1:5@Α3

ΣΤΗΡΙΞΕΙΣ ΣΤΗ ΦΕΡΟΥΣΑ ΤΟΙΧΟΠΟΙΪΑ

ΠΑΧΟΥΣ 70 ΧΙΛ.

ΚΛΙΜΑΚΑ

8 | Underfloor heating system

18 ΜΕΤΑΛΛΙΚΗ ΚΟΙΛΟ∆ΟΚΟΣ ΣΤΗΡΙΞΗΣ ∆ΙΑΣΤΑΣΕΩΝ 100Χ60ΧΙΛ.

ΜΕΛΕΤΗΤΕΣ ΕΡΓΟΥ

19 ΑΜΕΣΗ ΑΝΑΡΤΗΣΗ ΣΚΕΛΕΤΟΥ ΨΕΥ∆ΟΡΟΦΗΣ ΤΗΣ KNAUF

ΑΡΧΙΤΕΚΤΟΝΙΚΗ ΜΕΛΕΤΗ

20 ΙΣΟΠΕ∆ΟΣ ΣΚΕΛΕΤΟΣ ΨΕΥ∆ΟΡΟΦΗΣ, ΑΠΟΤΕΛΟΥΜΕΝΟΣ

ΑΠΟ ΓΑΛΒΑΝΙΣΜΕΝΑ ΠΡΟΦΙΛ ΤΥΠΟΥ CD ΤΗΣ KNAUF,

POTIROPOULOS + PARTNERS P.C.

∆ΙΑΣΤΑΣΕΩΝ 60χ27x0.6 XIΛ.

ΕΒΡΟΥ 9, ΠΛ. ΜΑΒΙΛΗ, 115 28 ΑΘΗΝΑ ΤΗΛ.: 210 7470305, FAX.: 210 7470309 email: info@potiropoulos.gr

ΣΤΑΤΙΚΗ ΜΕΛΕΤΗ

ΜΟΡΦΩΝΕΙ ΜΙΑ ΣΚΟΤΙΑ ΠΛΑΤΟΥΣ 40 ΧΙΛ.

22 ΜΟΝΗ ΣΤΡΩΣΗ ΤΣΙΜΕΝΤΟΣΑΝΙ∆ΑΣ AQUAPANEL OUTDOOR

18 19

ΦΙΛΙΠΠΟΣ ΝΙΚΟΛΑΟΥ

ΛΕΩΦΟΡΟΣ ΣΥΓΓΡΟΥ 322 176 73 ΚΑΛΛΙΘΕΑ, ΑΘΗΝΑ ΤΗΛ.: 210 9585981, FAX: 210 9596767 email: fnikolau@yahoo.gr

10 | Forged cement 3mm

ΤΗΣ KNAUF, ΠΑΧΟΥΣ 12,5 ΧΙΛ.

18 19

ΜΕΛΕΤΗ Η/M EΓΚΑΤΑΣΤΑΣΕΩΝ

11 | Transparent polyurethane varnish

ConAP Η/Μ ΣΥΜΒΟΥΛΟΙ ΜΗΧΑΝΙΚΟΙ

ΡΟΣΤΑΝ 44, 111 41 ΑΘΗΝΑ ΤΗΛ.: 210 2023771, FAX: 210 2023118 email: asp@conap.ondsl.gr

ΑΡΧΙΤΕΚΤΟΝΙΚΗ ΤΟΠΙΟΥ

ΓΙΩΡΓΟΣ ΒΑΝΗΣ

250 21

AΡΧΙΤΕΚΤΟΝΕΣ ΣΥΜΒΟΥΛΟΙ ΜΗΧΑΝΙΚΟΙ

9 | Special thermal concrete composition

ΜΕΤΑΛΛΙΚΗ ΛΑΜΑ ΣΤΗΡΙΞΗΣ ΤΗΣ ΤΣΙΜΕΝΤΟΣΑΝΙ∆ΑΣ ΠΟΥ ∆ΙΑ-

17 | Concrete slab

ΔΕΙΝΟΚΡΑΤΟΥΣ 12, 106 75 ΑΘΗΝΑ ΤΗΛ.: 210 7222515 email: gmvanis@otenet.gr

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ΤΟΠΟΓΡΑΦΙΚΗ ΑΠΟΤΥΠΩΣΗ ΓΙΩΡΓΟΣ ΚΟΦΙΝΑΣ

∆ΙΑΣΤΑΣΕΙΣ ΣΕ ΧΙΛΙΟΣΤΑ

ΚΑΤΑΚΟΡΥΦΗ ΤΟΜΗ

ΟΛΕΣ ΟΙ ∆ΙΑΣΤΑΣΕΙΣ ΝΑ ΕΛΕΓΧΟΝΤΑΙ ΕΠΙ ΤΟΠΟΥ ΤΟΥ ΕΡΓΟΥ. ΟΠΟΙΑ∆ΗΠΟΤΕ ΑΣΥΜΦΩΝΙΑ ΜΕΤΑΞΥ ΑΥΤΟΥ ΤΟΥ ΣΧΕ∆ΙΟΥ ΚΑΙ ΑΛΛΩΝ ΠΛΗΡΟΦΟΡΙΩΝ ΝΑ ΑΝΑΦΕΡΕΤΑΙ ΣΤΟΥΣ ΜΕΛΕΤΗΤΕΣ ΑΡΧΙΤΕΚΤΟΝΕΣ.

62 125

250

ΑΓΙΑ ΑΝΝΑ, ΚΡΑΝΙΔΙ ΑΡΓΟΛΙΔΑΣ ΤΗΛ.: 27540 23024, FAX: 27540 22027 email: gkofinas@otenet.gr

600mm

20m

Vertical Detail Section | Semi-sheltered space’s ceiling

03 | Section | South Villa Proposal

03 | Outdoor Lounge | South Villa Proposal

THE WAVE GOLF FRONT RESIDENCES

||Professional Project 2018-19 ||Architect at Potiropoulos+Partners ||Luxury Appartment & Maisonette BuiLding in Glyfada, Attiki ||Site Area: 3.000 m2 ||Total Space: 4.000 m2 ||Distinction: Winning Competition Project ||Contribution: Concept, Design, Construction license, Construction Documents ||Used Software Rhinoceros, AutoCad

12 12 13

ENTRANCE

he “Wave” residential building is adjacent to the Glyfada Golf Club from the east. The design process envisioned two interconnected volumes within one continuous structure parallel to the property’s longer side, in direct conversation with the natural characteristics of Place and the View.

The design process was driven by a careful manipulation of boundaries that define movements, pauses, and qualitative differences. In response to the panoramic nature of the site, the inner structure demonstrates distinct, yet related viewing priorities and spatial roles. The organizational strategy opens a dialogue between the landscape and the building, articulating its interior into areas that range from communal to private, extroverted to introverted, day-to-day to impromptu, depending on the differentiations of both space and view. In this light, the building serves as a mediator between the user and the environment at the intersection of multiple narrative and analytical flows.

Phase 1 | Finalists proposal

Phase 2 | Winning Proposal

0 | Ground Flo

20m

This emergent microcosm provides an intricate experience based on the dynamics between the man-made and the natural, the point of focus and the background, the familiar and the unknown, triggering sensations and emotions that capture the moment. Throughout this journey, experiences, spaces and materialities converge, either as parallel or as complimentary events. An earthy material and a non-material – marble and glass respectively – comprise the building’s envelope, describing a transition from the natural to the built. Their relationship is explored through a simple constructional approach, which accounts for matters of texture, color and response to light. These dynamic relationships strike a balance in a final form that seems to be in motion; a materialized highlight of the entire design process.

ENTRANCE

13 11

20 14

01 08

20m

1 | A Floor Plan | Maisonettes L

20m

4 | D Floor P

01 Entrance 02 Service Entrance 03 Wardrobe 04 Atrium 05 Living Room

06 Dinning Room 07 WC 08 Kitchen 09 Master Bedroom 10 Master Bathroom

11 12 13 14 15

Wack-In Closet Bedroom Bathroom Laundry Playroom

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ENTRANCE

oor Plan | Maisonettes

10 09

Loft & Apartments

Plan | Penthouses 16 Outdoor Lounge 17 Outdoor Dinning 18 Jacuzzi 19 Private Pool 20 Shaft

RECLAIMING ANCIENT TRACES THE ANCIENT CIRCUIT WALL OF ATHENS

11| Unit C Entrance |

“Kolokotronis square”

||UPatras Diploma Design Thesis ||Spring 2017 ||Individual Student Work ||Heritage & Architecture, Transformation of Built Environment ||Supervisor: Prof. G. A. Panetsos ||Grade: 10|10 ||Distinction: “Hellenic Architectural Society Award” ||Used Software Rhinoceros, Vray for Rhino, Autocad, Photoshop

09 | Transition to the Unit C Archaelogical Space

10 | Theaters Foyer | “Atticon and Apollon“ Linking with “Museum of the City of Athens”

Unit B | “Attackers Monument”

07 | “Korai underground arcade”

hile wandering around the Athenian city-center, there is an obscured connection between the concealed historic landscape with the apparent urban landscape. The “Ancient Circuit Wall of Athens” is a crucial element of differentiation and delimitation missing in the modern urban reality of Athens and seeks its retrieval. It is also known as the “Themistoclean Wall,” dated between the mid-4th century and the 2nd century B.C. The study aims to retrieve and showcase a large part of unveiling wall remnants, which remain concealed beneath modern city growth and urban terrain, at a low or deep level, between infrastructures and building foundations. Consequently, this will actualize the upcoming enhance of both the historical monument and the urban landscape. The latter will play the critical role of the ancient wall’s “urban vitrine.” This unified public showcase of the Athenian wall monument is a large-scale urban intervention. It includes both the archaeological walk on the ancient level of the “bedrock” [ancient rocky terrain] and the “urban walk” in the built environment and open public space of the modern city in which the historical landmark is revealed and exposed. In this project, the modern urban Athenian elements that are either neglected or collapsed are upgraded by this archaeological landmark. Such elements are internal non-built areas of building blocks, shopping arcades, cultural spaces, and open public spaces of the built environment. This unified linear urban intervention integrates all of these different aspects of the city, supports and reclaims them. The Athenian city center is upgraded.

60m

Linear Section Spread A | alongside the Walls

Restaurant

05 | Ramp Passage to Unit B

Floor plan level | Athenian shopping Arcade

Illuminated Internal non-built area of the block

Bookstore and Souvenir Shop of Unit A

01 | Unit A Entrance |

“Gryparion Megaron”

-1 | Underground Isometric Drawing

“National Historical Museum” | Old Parliament Building Restored segment of the wall

12 | “Gallery Exhibition space”

of the artificial Moat

“Atticon and Apollon“ Theaters

08 | Staircase Passage

to Unit C

Unit B | “Defenders Monument”

06 | Archaeological Site

of “Klafthmonos square”

Existing Wall Remnants

04 | Archaeological Site of

Unit A

Supporting Functions of Unit A

03 | Transition to the

Archaelogical Walk

02 | Unit A Entrance Hall of Ancient Walls Museum

Ancient Wall Rout

Conservation Cases Map | Plot Selection

Ancient Wall

transparent glass protection

built environment

Main Entrance / Exi

Building’s basement

non-built area | open space

without conservation operation

Urban Walk above M

1st part o

Prototype | Length: 150cm Width: 65cm Scale: 1/333

Historic Buildings

Athenian Shopping Arcades

Open Spaces

Designed Monuments & Landmarks

Masterplan | Diagram of Upgraded Modern City’s Elements

100m

Secondary Public Entrance / Exit

Secondary Private Entrance / Exit

Urban Walk

Museum

Museum Public Unit

Museum Private Subunits

Private Museum Walk

of Ancient Walls Museum 100m

“Klafthmonos” Archaeological Site

2nd part of Ancient Walls Museum

-1 | Underground Intervention Masterplan | Archaeological Space Level

SECTION B | “KLAFTHMONOS” ARCHAEOLOGICAL SITE

0 | Ground Floor Plan of “Klafthmonos square”

Aerial View of Klafthmonos Square

50m

-1 | Archaeological Site Plan

40m

Section E | “Korai Underground Arcade”

Section Z | Underground Passage to the Moat of the Ancient Wall

“Defenders” Monument Terrace

40m

Section D | Public Entrances to the Archaeological Site

“Defenders” Monument Underground Level

SPERANZA THE DINING ENCLOSURE

||International Design Competition, 2018 ||Cook8: the new Dining Place ||Collaborators: E. Polykandriotis ||Distinction: Entry shortlisted proposal [top 23-40 out of 280 submissions] ||Used Software Rhinoceros, Vray for Rhino, AutoCad, Photoshop

he dining place, the common focal point around which the “meal ritual” is taking place, has lost its social nature. The interest has shifted to our phones’ screens. The human, who is considered to be “social” becomes “isolated”. Communication is now dry and tasteless. The dining table’s centrality is converted into linearity. The absorption of the necessary equipment strengthens the table’s ability to attract people for food preparation and consumption. The table turns into either a “multi-tool” a “two for one offer” that no one can refuse. The unified table is the common platform around which the eight attendants participate, collaborate, and interact during food preparation to dining. After the consumption, the dinner is completed with the act of “defecation”. The toilet seat, which is placed on an elevated podium at the end of the table, is the most comfortable in the room amongst the other eight. “Speranza”, which is the island on which Robinson Crusoe was shipwrecked (means “hope” in Italian), is surrounded by solid walls. The enclosure gives the opportunity to discover human communication from scratch. The vertical staircase is the “one and only” connection with the outer world.

Longitudinal Section 01 | Food Preparation

Cross Section 01

0.5

0.15

0.30

Cross Se

ection 02

Underground Adaptation

Adaptation in Building

Underwater Adaptation

Exploded Isometric Drawing | Equipment

Plan | Dining Space

0.5

Longitudinal Section 02 | Food Consumption

ALTAR WINE TASTING ROOM IN LISBON

||International Design Competition in 2020 ||Monte d’Oiro Wine Tasting Room, Bee Breeders Architecture Competitions ||Collaborators: S. Monachogios ||Contribution: Details, Sections, Renderings, Diagrams ||Used Software Rhinoceros, Vray for Rhino, Grasshopper, Photoshop

Roof and wall CLT connection with wooden pegs/ nails

A LT A R

TASTING ROOMtasting room that visitors ive your myth inWINE the “Altar”. A wine can taste exceptional wines and enjoy the view of the vineyards. With an eco-friendly structure made from timber and the barrels’ French Oak used both in the interior and the exterior, warm and welcoming space is designed. The layout of the space allows for alternations to the table positions depending on needs. The large rectangular dining space is connected functionally and optically with the exterior porch and is it is oriented to look at the landscape of the vineyards. Thes secondary uses are organized in a functionally autonomous zone behind the dining space.

60cm

Concrete foundation for the floor CLT slab to lay on, then pegs and nails for connections

The structure is comprised of Cross Laminated Timber (CTL) panels and three layers of wood placed at rigid angles against each other. This kind of Timber (CTL) is a lightweight, prefabricated, ecofriendly material that contributes greatly to the structure’s thermal insulation. “Altar” is based on a sustainable design direction. Besides the ecological material study, the room’s architectural elements and position take into account the utilization of the sun orientation. In summer months, the strong sunlight is filtered through the vertical wooden elements-shades, while in winter months, it is allowed to enter the building freely from the large glass window facing the vineyards.

Custom-made Plywood Wine Rack

0.3

Prefabri

icated, CNC cut wall rack, waffle structure with horizontals and verticals

60cm

Tilted fixings of the wooden bars because of slope difference and accordion window below

Summer Solstice | 21st of June | 9 am - 6 pm

Winter Solstice | 21st of December | 9 am - 6 pm

Shadow Studies

Longitudinal section through kitchen, wine rack wall, main space and balcony

THE NATURE OF MUSIC “Nature Observatory”

REDEFINING THE ACOUSTIC MEMORY

“

||UPatras Design Studio 05 ||Fall 2013 [Design Improvement in 2017] ||The Music and its Space: Cultural Complex Design ||Collaborators: S. Monachogios ||Grade: 10|10 ||Used Software Rhinoceros, Vray for Rhino, AutoCad, Photoshop

Main Access

he proposal concerns a place of acoustic and music experience located in Castellocampos, Patras, by the stream’s “Charadros” outfall. The visitor aims to perceive the blends, contradictions, unifications, collisions of natural and artificial sounds derived from the surrounding site elements’ activity to seek experimentation through music.

Additionally, the concept of experimentation exists in the main buildings’ complex design. The programs (music education, music practice/experimenting, theater, bar/restaurant) and the volumes of the complex that host them are placed according to the environment’s elements (road/train, stream, urban fabric). The relationships between them are translated into the project, spatially and conceptionally.

The sound experimentation becomes feasible through the observation spots, which are small-scale camouflaged underground amphitheaters. These are distributed strategically around the site. [near the coastline, inside the stream, into nature, under the rail tracks, parallel to the road].

“Road Sound Observatory”

0 | Ground Floor Plan

The characteristics of the sounds derived from the main site elements (intensity, width, iteration) have determined the shape, the form, and the density of the gaps of the outer shell. The sculpture is located and fully harmonizes with the environment while subjected to several decay changes [air, rain, corrosion, ravages of time]. This “Soundscape” offers acoustic games, chances for observation, and musical experimentation. The acoustic memory is redefined.

2.5

Section B20m | Learning Building

Section A | Learning Building

Section E | “Stream Observatory”

Section G |

“Sea Sound & Stream Sound Observatory”

“Train Sound Observatory” 0

50m

Patras

Rio

| “Train Sound Observatory”

Masterplan

Essential Topographical Elements

Concept Design Sketches

2.5

20m

Section B | Experimenting Building

Volumes arrangement according to Topographical Elements

Transformation of the intera

volumes | Educational actions

Transformation of the volumes | Observatories connections

Acoustic Gaps Making | “Soundscape” Conception