portfolio Antigoni Lampadiari architect / MSc building technology academic & professional work 2010-2022
table of contents
professional experience
5
1. Gare St-Denis Pleyel - Kengo Kuma and associates - Paris, France
6
2. Woerdblok - Zeinstra Veerbeek Architecten - Naaldwijk, NL
10
3. Galapagos Science Centre - Oz Architecten, Oegstgeest, NL
18
4. Ribbon Hotel - Jestico + Whiles architects - Edinbrugh, UK
26
academic projects
35
5. Adaptive fabric façade for a high-rise building in Paris, TU Delft graduation project
36
6. Greenovation in parc Gradac, TU Delft course
44
7. The House of Democracy, TU Delft course
52
8. Terminal station: a traditional Greek product market NTUA graduation project
58
competitions
71
9. Food&wellness club, international architecture competition by YAC |award: “finalist”
72
10. ARK Latvia, trekking cabin, internation architecture competition by BEE Breeders
76
professional experience
5
Gare St-Denis Pleyel - Paris, Fr Kengo Kuma and Associates 2021- present
client:
Besix (FR, BE,NL)
material:
stainless steel in 3 different finishes (mat / gradient [mat to mirror] / mirror), aluminium, aluminum honeycomb, galvanised steel
project type:
cladding of all the interior surfaces (walls, staircases, columns, elevators) of the station together with the necessary substructure
Aldowa’s responsibilities:
- engineering - production - installation
personal role:
engineer (team project)
responsibilities:
- detailing in 2D (autocad) - modelling in 3D (solidworks) - production drawings - installation drawings
6
3D impressions generated by the architecture firm Kengo Kuma and Asscosiates
Woerblok - Naaldwijk, NL Zeinstra Veerbeek Architecten 2021-2022
client:
KBM Groep (NL)
material:
aluminium
project type:
vertical façade and balkonies’ cladding / acoustic balconies’ ceilings
Aldowa’s responsibilities:
- engineering - production - installation
personal role:
main engineer
responsibilities:
- detailing in 2D (autocad) - modelling in 3D (solidworks) - production drawings - installation drawings
10
horizontal detail 1
horizontal detail 2
horizontal detail 3 12
vertical detail 1
vertical detail 2 13
installation drawing of vertical panels
Rev.
-
3D representation of convex curved panel
86,5
29,6
13
32
37
220087.PRP1201
220087.PRA6204
80
93
The Netherlands
220087.PRA6204
220087.PRP1201
Description
Project
Drawing no.
Type A (4)
Woerdblok Status
E
Fax: 010 - 462 36 51
Tel.: 010 - 208 37 88
834
3044 EE ROTTERDAM
Overschieseweg 32
B
28-10-2021
280
2210,1
220087.PRK6552-SP 220087.PRF1504-SP1 220087.PRO1504-SP1
120
1036
3520
3520
446
668
A3
5,6 1880,6
3520
951
Size
24,6
220087.HKL1201
2684
3194,1
2330,4
510,1
396
3679
2951,4
2207
2336 1735
2207
384,6
3275
Date
80 2210,1
10
1477,2
220087.PRK6551-SP 220087.PRF1503-SP1 220087.PRO1503-SP1
3520
220087.PRK6607 220087.PRF6607 220087.PRO6607
3520
220087.PRK6606 220087.PRF6606 220087.PRO6606
A 696
220087.PRK6402-SP 220087.PRF1502-SP 220087.PRO1502-SP
207
220087.PRK6401-ssp 220087.PRF6401-ssp
2299
220087.PRO6401-ssp
TION A-A 1889
220087.PRK1001
1036 1631
220087.PRF1001 220087.PRO1001
2464
220087.PRK1001 220087.PRF1001 220087.PRO1001
196
120
120
220087.PRK1001 220087.PRF1001 220087.PRO1001
2956
3D representation of convex and concave curved panels 3520
- 28-10-2021
220087.PRK1008
120
220087.PRF1008 220087.PRO1008
2946,4
2278,3
Rev. date
220087.PRF1504-SP1
220087.PRK6554-SP
220087.PRO1504-SP1
1727,6
D
297mm*420mm
220087.PRK6553-SP 220087.PRF1503-SP1 220087.PRO1503-SP1
120 2228,4
C 2398,3
120
710
1396
2809
3520
F 1727,6
installation drawing of 5th and 6th floor - balconies and band
220087.PRH6220
C
220087.PRH6215
220087.PRO6854-SP 220087.PRF6854-SP 220087.PRK6854-SP 220087.PRO6853-SP 220087.PRF6853-SP 220087.PRK6853-SP 220087.PRO6608 220087.PRF6608 220087.PRK6608
? 220087.PRF6852-SP 220087.PRK6852-SP 220087.PRO6851-SP ?
220087.PRO6221 220087.PRF6221 220087.PRK6221
D
220087.PRH6220
220087.PRO1001 220087.PRF1001 220087.PRK1001
220087.PRO1001 220087.PRF1001 220087.PRK1001
220087.PRO1001 220087.PRF1001 220087.PRK1001
220087.PRO1008 220087.PRF1008 220087.PRK1008 220087.PRO1504-SP1 220087.PRF1504-SP1 220087.PRK6552-SP
220087.PRH6215
220087.PRH6215
SECTION E-E
F
220087.PRO1503-SP1 220087.PRF1503-SP1 220087.PRK6551-SP
installation drawing of 5th and 6th floor - vertical panels 305
13
Woerdblok
Description
Band 6e verd. PANELEN
Overschieseweg 32
Size
A1
Client:
KBM
Scale
1:100
Project no.
220087
Date
28-09-2021
Drawn by
220087.PRH6220 3044 EE ROTTERDAM The Netherlands
220087.PRA6220
Tel.: 010 - 208 37 88 220087.PRA6220
Fax: 010 - 462 36 51 info@aldowa.nl www.aldowa.nl
220087.PRB0101
220087.PRA6230
Edited by
Status
Drawing no.
Rev.
Engineering
220087.SUB611
-
© All rights reserved. This file is the property of Aldowa and may not be copied or multiplied either wholly or partly.
220087.HKL1203 220087.PRH6220
220087.PRA6220
220087.PRH6220
15
- 03-11-2021
20
Rev. date
installation drawing of vertical corner panels
297mm*420mm
Rev.
-
20
305
220087.HKL1203
Date
3D representation of vertical corner panels
220087.PRB0101
220087.PRA6230
A3
Project
- 28-09-2021
03-11-2021
Rev. date
Description
Woerdblok Overschieseweg 32
10
220087.HKL1203 220087.PRA6230
3044 EE ROTTERDAM
Project
20
220087.PRA6240
Tel.: 010 - 208 37 88
25
Size
13
220087.PRA6240
10
profiel-lamellen panelen
220087.PRA6240
220087.PRB0101
The Netherlands
280
Galapagos Science Centre Oegstgeest, NL Oz Architecten 2021
client:
Vries & Verburg (NL)
material:
aluminium
project type:
canopies along the façades
Aldowa’s responsibilities:
- engineering - structural calculation - production - installation
personal role:
main engineer
responsibilities:
- detailing in 2D (autocad) - adjusting the details to meet the structural calculation requirements - modelling in 3D (solidworks) - production drawings - installation drawings
18
floor plan 7th floor
vertical detail 1st floor
vertical detail 2nd floor
3D representations of standard top and bottom panels of the 2nd floor
21
3D representaion of outside corner panels
horizontal detail of outside corner panels
horizontal detail of inside corner panels 22
3D representaion of inside corner panels
lassen aan de buitenkant en afwerken alleen op de las (i.v.m. anodiseren)
1 B
1
B
3, 1°
4
10
2
R=1500.8 150
2
3 hechte lassen aan de binnenkant
4 10 1°
35
3,
°
,9
76
A
A
hechten aan beide kanten van het paneel
top view
R=1440.5
Voor het lassen bespreken a.u.b. met Lex of Raymond!!!
65
B-B 343,8
63,3
503,4
lassen aan de buitenkant en afwerken alleen op de las (i.v.m. anodiseren)
3
A-A
210.0mm*297.0mm
1481,7
220104.PRP2523
Project
Galapagos Bio Science Park
Rev.
QT drawn
Dimensions
2943.3 x 1840.3
Description
hoekpaneel boven 1 (as A - 11)
Date
04-02-2021
QT mirrored
Finish
Anodiseren A20
Project no.
Drawn By Edited by
Scale
1:20
Color
Alubronze02
220104
AL
Size
A4
Draw. no.
Comments
3 mm Norf
Material
© All rights reserved. This file is the property of Aldowa and may not be copied or multiplied either wholly or partly.
production drawing of a curved panel A ITEM NO.
description
QTY.
1
Sheet
1
ANGLE1
ANGLE2
1
B
OP 90° NEER 90° NEER 90° OP 90°
B
35
35
omega bevestigd met draadstiften op het paneel
A
1
hoeklijn met beddenkahen
Let op!! het materiaal van de omega en de hoeklijn is AlMg1 NIET hetzelfde als het paneel!
top view
°
210.0mm*297.0mm
220104.PRP2523
74,5 1520,2
NEER 90° NEER 103.1°2 x NEER 103.1° NEER 76.9° OP 90°
9
20
4
33,6
3x
8
hoeklijn bevestigd met draadstiften op het paneel
1
geen zetting / begin walsen
129
40
NEER 103.1° NEER 76.9°
90
NEER 173.5°
OP
°
90
° 90 ° OP 90 ER E N
OP
60
38,4
B-B
NEER 90° NEER 90°
,5 74
binnenlijn=walslijn
omega
OP 90°
1
8
74
Sheet
189,9
6
4x
857,5
1
1328
5
150
64,
A 1
Sheet
35
1
4
35
3
70
2
LENGTH
AL
A-A
Project
Galapagos Bio Science Park
Rev.
QT drawn
Dimensions
2943.3 x 1840.3
Description
hoekpaneel boven 1 (as A - 11)
Date
04-02-2021
QT mirrored
Finish
Anodiseren A20
Project no.
Drawn By Edited by
Scale
1:25
Color
Alubronze02
220104
AL
Size
A4
Draw. no.
Material
3 mm Norf
Comments
AL
© All rights reserved. This file is the property of Aldowa and may not be copied or multiplied either wholly or partly.
production drawing of a curved panel B 23
St-James W Hotel - Edinburgh, UK Jestico + Whiles architects 2020-2021
client:
Octatude Space Structure B.V. (NL)
material:
Rimex (stainless steel) and aluminium
project type:
balkons’ cladding with a 7mm seam
Aldowa’s responsibilities:
- engineering - structural calculation - production
personal role:
main engineer
responsibilities:
- detailing in 2D (autocad) - adjusting the details to meet the structural calculation requirements - modelling in 3D (solidworks) - production drawings - installation drawings
26
vertical detail
horizontal detail 1
horizontal detail 2 29
32
Let op!!
305
20,3 78
28,4
300
,5
69,7
Let op!! Bescherming met zettingen --> rubber gebruiken!
Sheet size: Type 1 (L=2800mm)
50,4
73
° ,5
°
,5
81
1919,9
°
98
°
1,5
10
301,5
,5°
Handschoenen aan ter bescherming kleur!
Quality: Grade A
69
NEER 90.5°
NEER 81.5°
NEER 78.5°
OP 90°
NEER 90° NEER 101.5°
NEER 88.7°
NEER 90°
69
69 210.0mm*297.0mm
NEER 90°
NEER 88.7°
NEER 90.5°
219139.PRR1003
2 x SL.(7 X 15)
NEER 98.5° NEER 73°
7
69
3x
69
69
Letop: Deze maat moet kloppen !!!!
Project
Ribbon Hotel
Rev.
QT drawn
Dimensions
2701,5 x 925,0
Description
straight Rimex panel 10th floor - Part 3+6
Date
04-12-2019
QT mirrored
Finish
Brute
Project no.
Drawn By Edited by
Scale
1:15
219139
AL
Size
A4
Draw. no.
Material
2 mm RIMEX
Color
© All rights reserved. This file is the property of Aldowa and may not be copied or multiplied either wholly or partly.
production drawing of a Rimex panel
3D representation 30
installation drawings: aluminium omega’s and brackets
installation drawings: Rimex panels
installation drawings: aluminium backpanels 31
academic projects
35
Adaptive fabric façade for a high-rise building MSc building technology graduation project, TU Delft 2017
about: design of a façade component location: paris, france project type: individual project
The topic of this graduation project is the design of an adaptive fabric façade for a high-rise in Paris. The stimulus for this choice was the turn of nowadays towards lightweight materials and constructions, a trend that is growing tremendously.
Therefore,
membranes
can
be an interesting solution as an alternative to glass. They offer a number of possibilities and have many advantages, such as a variety of transparency levels and the fact that they are extremely lightweight materials. Furthermore, the project concerns an office building, which is a rather demanding building type, as it requires an envelope that offers a high level of indoor comfort, in terms of thermal and acoustical insulation, as well as efficient solar control.
36
three main categories of membrane structures:
inflatable
deflatable
multi-layers
combination with materials so as to improve thermal insulation:
PCMs
silica-aerogel
PV flexibles
building physics: hand calculations and simulations were conducted, under the scope of thermal and acoustical performance, both for the inflated and the vacuum system
inflated cushion (2 layers)
inflated cushion (3 layers)
vacuum system
+
+
-
combination inflated - vacuum
+
-
different combinations of the two systems
38
mbrane with e di f Em
ted p a t t prin ter ren ns fe
ET F
final design concept:
case study: tour Areva, Paris, France architects:
Roger Saubot, François Jullien and Skidmore, Owings & Merrill LLP
built:
1974
height:
174m from the ground floor
number of floors:
45 + 5 underground
ground floor surface:
53 x 41 m
structural material:
concrete
façade material:
granite cladding
façade system:
curtain wall
function:
offices / open-plan floor
174 m
41 m
3.65 m
vertical section 39
position of the new façade
chosen design:
As it was mentioned before and it can also be seen from the floor plans, there are concrete structural orthogonal grid: elements in the façade of the existing building. following the existing façade Therefore, the question that was immediately generated was where the new membrane façade would be placed in relation to the old one. One
rectangular frame: stiff “wide” element
option was to place it inside the existing openings, but then the rest of the façade elements should also be taken into account, in terms of thermal and acoustical insulation and water and airtightness as well. The other option was to place it in front
cushions pattern: of the existing one, so as to surround the whole building and thus the challenge would be to design internal “thinner” connections a completely new façade consisting of membrane systems. The latter option was chosen (figure 190)
transparent + translucent parts: shading
as the purpose was to design a building envelope consisting exclusively out of membrane cushions.
position of the new facade Figure 190: position of the new façade in relation to the existing building
156 shading: printed pattern and movable middle layer for shading
cushions assembly concept: inflated cushion assembly
FRP frame clamping bar welded ETFE at the same point 3-layered ETFE cushion
40
vacuum system assembly
PVC keder
FRP clamping cap PVC keder FRP frame ETFE bag sealed all around
spacers for the vacuum cushion: glass-fibre rods:
ETFE membrane welded composite “case” on the membrane
15mm
20mm
glass-fibre rod
final design: printed pattern and movable middle layer for shading
3-layered inflated cushion filled with argon or aerogel
+ -
(partly)
2-layered vacuum cushion with reflective coating on the inner layer
41
3D detail connection of the façade element with the steel console
2
3
9 3
3D impression: view to the outside from the offices space
1
1. aluminum extruded profile 4mm 2. aluminum extruded profile 2mm 3. GFRP extruded profile 3mm 4. valve 5. EPDM linking gasket 6. weather gasket 7. thermal break 8. hard insulation 9. aluminum click cap 2mm 10. weather protection foil 11. inflation pipe ø20mm 12. deflation pipe ø10mm 13. L-shaped steel profile 4mm 14. railing vert. detail of the side connection of the two façade panels
14
9
13
8
hor. detail 1 hor. detail 2
1
12 4
2
1
3
11
1
4
7 3
hor. detail 1
10
6
1
5 hor. detail 2
Greenovation in parc gradac MSc building technology course project, TU Delft 2016 about:
urban intervention
location:
dubrovnik, croatia
project type:
team project
personal role:
responsible for the developing of the multi-functional centre later on
members:
I. Christia, N. Mert Ogut, M. Evertzen, I. Snijders Blok, J. de Rouw
This project is about the redefinition of the historical city of Dubrovnik in Croatia through urban intervention. It is divided into two parts, a team project, which is presented here and an individual one that follows next. The first one, concerns an urban proposal, whose aim is to provide the city with a new image and identity by giving prominence to areas other than the historic city centre. The design proposal of our team concerns the transformation of park Gradac -which is located very close to the historical city centre- into an innovation park, where certain leisure facilities will be placed, such as cafés, gathering spots and playgrounds, providing the local people with spaces to rest and enjoy themselves, in combination with start-ups and greenhouses, responsible for educating the visitors about more sustainable ways of living. Moreover, as there are several universities located in the area, some of the neglected existing buildings will be transformed into student dormitories and also a multi-functional centre will be placed on top of the hill above Dance Beach. Lastly, the organisation of DURA (Dubrovnik Development Agency) that is already situated in the park, hosts a number of start-ups that demand a certain amount of space for their members to work in. Our idea was to accommodate these start-ups into modular and flexible pavilions, which will be easily dismantled if needed and they will be spread around the park, rendering it thus innovative and educative. 44
urban context & design proposal:
location of park Gradac
height difference
main road and pedestrian routes 46
cultural buildings
goals:
1. Slow down people’s flow towards the city centre
port Gruz port Gruz
city centre
city centre
2. Blend global and local communities by creating an appealing park
+
=
3. Educate and inform people about sustainability and innovation technologies
historical and important sites
universities 47
start-ups’ pavilions:
sma l l sc al e env i ronm ent
al str
gy ate
multi-functional centre: rainwater collection PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT glass concrete
zone
zone
3
viewing PV cells
8,43
A
8,5
section A-A
7,5
6
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
2
12,8
B
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT section B-B
C
7,39
7,5
dance class
6
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT section C-C 50
7,5
2
B
5,3
C
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
5,86
A
54
pottery / painting / jewllery / design class
4,5
4,47
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
PRODUCED BY AN AUTODESK EDUCATIONALPRODUCED PRODUCT BY AN AUTODESK EDUCATIONAL PRODUCT PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
music classes
terraces
floor plan
two double laminated glass roof panes (10 mm each glass layer) heatstrengthened with SG foil (1.52 mm) as an interlayer, a cavity for insulation of 20 mm and a 4mm sacrificial layer on top in case of breakage
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
triple laminated glass beam (500 x 30 mm / 10 mm each glass layer) heat-strengthened with SG foil (1.52 mm) as an interlayer
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
the connections are every 50-100 cm depending on the demands
steel extruded profile EPDM gasket
structural silicone (20mm) steel plates (5mm) used for the connection
triple laminated glass secondary beam (250 x 30 mm / 10 mm each glass layer) heat-strengthened with SG foil (1.52 mm) as an interlayer
main and secondary beams / roof panes details PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
structural silicone (20mm)
steel extruded profile triple laminated glass fin (500 x 30 mm / 10 mm each glass layer) heat-strengthened with SG foil (1.52 mm) as an interlayer
steel plates (5mm) used for the connection
two double laminated glass façade panes (10 mm each glass layer) heat-strengthened with SG foil (1.52 mm) as an interlayer and a cavity for insulation of 20 mm fin-façade detail
fin / concrete slab detail 51
The house of democracy MSc building technology course project, TU Delft 2016
about:
design of a sustainable high-rise with multiple functions
location:
the Hague, NL
project type:
team project
personal role:
architect
other members:
V. Kaimenaki, M. Peluffo, O. Willebrands, E. Fransen, N. Hofstee, A. Ioannidou-Kati
This project was about the design of a sustainable high-rise in the city of The Hague. The site is Koningin Julianaplein, which constitutes a very central and priviledged location: it is just outside Den Haag Centraal train station and next to Koekamp park. Therefore, as the building erected on that site should represent the first impression of the city when exiting from the central station, its design should be dealt with in a subtle way. The high-rise was supposed to host the Parliament temporarily until a hypothetical renovation of the “Binnenhof” was completed. Furthermore, offices, a hotel and dwellings were also integrated in the building as additional functions. Since it was a group project, every member had his/her own role and my personal role was that of the architect, in close collaboration with the façade engineers. We started this project with having as a restriction the four cores in the corners. Therefore, this led automatically to the division of the building and to the creation of four towers. We wanted each core to be responsible for one function only (therefore separate entrances at the ground floor) so we divided the functions horizontally in zones. At the height where each core stops one function ends and another starts above. As a result, some terraces were created at these levels, which completed our initial intention of re-creating the public square of the ground floor in different heights. At these levels, where the terraces are, communal functions were placed that can be used by the users of multiple functions within the building, such as the parliament, restaurants, swimming pool, fitness area and more, the transition areas (sky lobbies) and also the mechanical floors. Last but not least, we created three atria (one in the lowest volume where the parliament’s offices are placed, one in the offices above and one in the hotel) for ventilation purposes and natural daylight. 52
design concept
Volume
Core Layout
volume
core layout
Leveling
leveling
353m
Sky Lobbies
sky lobbies
Extensions
extensions
Voids
voids
vision: the heart of innovation
CAFE/BAR PUBLIC VIEWING
Public terrace at the top
Dwellings
198m - 342m
Energy generation via PV panels on the facade SWIMMING POOL +GYM
Hotel
122m - 195m
ATRIUM
RECEPTION+RESTAURANT+ CONFERENCE
RESTAURANT
GREEN
50m - 119m
CENTRAL
Offices
CENTRAL
GREEN
Transition spaces in different heights
Green spaces
RESTAURANT +CAFE
Parliament 0m - 47m
ATRIUM
H. REPRESENTATIVES + SENATE
Transparent parliament
GROUND FLOOR Mechanical Floor Sky Lobby
54
Mass
final volume
ground floor plan / relation with the station & the park
Koningin Julianaplein parliament
hotel floor plan hotel
floor plan parliament
den haag centraal towards park koekamp
offices
floor plan offices
0
5
housing
10
20
floor plan dwellings
55
façade schematic sections and ventilation flow BUFFER ZONE (in collaboration with the façade engineers Vassia Kaimenaki and Miguel Peluffo)
closed
Winter
Summer
section
offices
housing - buffer zone
290
450
100
60
Wood concrete composite floor
150
700
300
700
150
290
145 10
155
450
100
60
2000
70
360 500
70
30
250
200
200
200
1:10
elevations (in collaboration with the façade engineers Vassia Kaimenaki and Miguel Peluffo)
north-east
north-west
south-east
south-west
0
20
Terminal station: a traditional greek product market bachelor studies graduation project, NTUA Athens, Gr | 2013-2014 about:
urban intervention & design of a timber-concrete market
location:
athens, greece
project type:
team project
other members:
T. Spathi
The objective of this project was the establishment of a market of traditional Greek products located in the area of Larissa Station, the central railway station in Athens, Greece, which also includes an urban planning proposal for the wider area. The infrastructures of the train station do not meet European standards and are therefore insufficient to accommodate the needs of traveling passengers. Additionally, the railroad tracks themselves as well as the existence of a dormant potential create a discontinuity in the urban tissue. Thus, it is evident that there is need for renovating the train station to comply with European standards in addition to putting forward an utterly new urban planning proposal for the whole area. Our main goal was to restore the continuity of the region, by creating transversal connections in at least three points along the rail tracks while connecting each smaller area through a functional network of productive professions placed in such a way as to take advantage of the latent potential of the area. Furthermore, we recommend the reuse of the old Peloponnese station, a historical building designed by the well-known architect Ernst Ziller, as a cultural centre, an idea that has already been discussed by the municipality of Athens. Last but not least, we wish to improve the existing overground and underground transversal connections in Attiki square and Larissa Station, as well as construct an additional connection as part of our intervention in the area of Metaxourgio, along with the construction of the market in the empty space that lies in this position. 58
urban planning proposal - functional network
attiki square
attiki station
kolonos hill education product exhibition rooms sales points
overpass underpass bus transportation train transportation
restaurant services storage units
cycle lane pedestrian lane
accommodation
rail tracks
logistics
traditional product markets fair trade markets street markets
60
More specifically, we propose that the new uses of land are placed in empty ground floors of existing buildings, in empty spaces, as well as in abandoned or even ruined buildings that we have already located. Notably the selection of suggested uses is consistent with the existing land uses. Thus, by taking into account the different elements of each area and preserving their character, we aim to create a functional network bridging the observed discontinuity.
pedion areos larissa station
archaeological museum
akadimia platonos
suggested market karaiskaki square peloponnese station 61
design concept Two remarks regarding the positioning of the market: firstly, as apparent from the diagram, the public route is dominant serving as the central axis around which the market evolves (linear evolution).
Secondly,
the
sales units are organized at either side along this axis (cellular organization). Furthermore, an
aiming
optimal
at
integration
location of the market
within the existing urban
sales units
landscape, we created a building that resembles a passage, as it forms part of the traffic flow network that characterizes the area.
public route
internal organisation of the market
Finally,
regarding
the
materials
of
the
choice,
wooden structure
folding of the existing ground is translated into a solid concrete base, upon which a light and flexible wooden structure evolves.
concrete base materialisation 62
There are four paths of movement withing the market:
1. public path
2.visitor’s path
cargo operations
3.consumer’s path
underground level: storage room
4.product’s path 63
C
ioanninon street
an
dr o st m re ac et h is
suggested park
section of dairy and drinks
a main courtyard
reception area
a
offices
floor plan ground floor
C
C
ioanninon street
an
dr o st m re ac et h is
suggested park
section of preserved food, jams, honey, herbs a
main courtyard
cafeteria/ restaurant
a
floor plan level +8.20m
C
section a - a
section c - c
construction details
section
plan
floor A - floor B
wall
roof
1. inner surface - plywood 2,2 cm 2. timber batten 5x5 cm 3. metallic joist case 4. soundproofing with mineral wool 5 cm 5. plywood 2,2 cm 6. timber slats 1,8 x 15 cm 7. reinforced concrete slab 8. lightweight concrete 9. waterproof coating with primer 10. final surface of gravel 11. final floor surface with timber slats 1,8 x 15 cm
1. external surface - timber slats 1,5 x 10 cm 2. service void 1 cm 3. plywood 2,2 cm 4. breather membrane 5. thermal insulation - mineral wool 5 cm 6. vapour control layer 7. plywood 2,2 cm 8. timber stinger 5 x 5 cm 9. timber batten 2,5 x 5 cm
1. inner surface plywood 2,2 cm 2. vapour control layer 3. sound insulation mineral wool 5 cm 4. metallic joist case 5. timber batten 5x5 cm 6. plywood 2,2 cm 7. breather membrane 8. timber batten 2,5 x 5 cm 9. external floor surface with timber slats 1,8 x 80 cm
competitions
71
Food & wellness club international architectural competition by YAC |award: “finalist” 2015
about:
design of a food & wellness club
location:
bologna, italy
project type:
team project
other members:
A. Vranaki, M. Pachi, A. Merkourea
This project concerns the design of a food and wellness centre, through which the visitors will have the opportunity to rediscover the meaning and the benefits of bathing. Its main goal is to excite all the senses via several tools and techniques, in order to create a multi-sensory experience. The project focuses on the creation of a multi-sensory experience through the sequence of open-air and indoor spaces, light and shadow, lower and higher levels. The morphology of the volume resembles a cave-like environment, a labyrinth that the visitor should explore through his/her senses. The different qualities of the various spaces excite the senses through the alternation of temperature and humidity levels, as well as through the direct or visual contact with water areas and green spaces. As for the water types, indoor and outdoor aqua zones can be found all around the building, as well as waterfalls and amphitheatrically-placed pools. The materials that are used are basic: concrete, timber and glass. Lastly, in the green areas Mediterranean herbs are placed in order to excite the sense of smell and also they constitute a reference to the Italian cuisine.
72
concept & main design ideas rectangular vs biomorphic keeping the orthogonal shape of the plot / creating new sculptural forms on the inside cave-like environment
moving through light&shadow
form&function division arrival - service hall spa hall temperature variations
plan level 0.00
plan level -3.00
plantation
open space
aqua
dm assag e areas
closed space
of
un
a
w 74
section a - a
an
vie th
e
aq
ua
v zone at -3.00 le
| el
circulation routes
sa
section b - b
types of aqua space
buffer zone / protection from nothern winds
rainwater harvesting collection to undergrounds tanks by the two slopping roofs / storage / filtering / reuse
ampthitheatrical pools 75
|
ARKLATVIA team project|2017
TREKKING CABIN Bee Breeders Architecture competition
The idea behind the proposed design is based on three main elements, which are integral parts of the Latvian tradition and its natural beauty. The architectural heritage, especially the typical small wooden houses, the trees as focal part of the natural habitat, and finally the local product of the fossilized tree resin commonly known as amber. The combination of those elements, translated in architectural components, creates the conditions for the proposed cabin. Starting from a typical house form, the concept of the cabin was transformed in a “diamond shaped” structure reclaiming the morphology of amber stones. In order to create a more unique project, the diamond is elevated above ground in structural elements resembling a “tree house” that is fully integrated in the local environment with the smallest possible footprint. Except from creating the atmosphere of a tree house, the decision of elevating the cabin from the ground creates the idea of a “gemstone in a showcase”. In this way, the beauty of the “amber” as decorative jewellery is celebrated and the cabin becomes landmark for the Latvian trekking tradition. “ARK” aims to be a resting and ‘’healing’’ point, in the same way that amber has been used in folk medicine, according to Latvian tradition. With a capacity of four people and its goal to create a unique stopover, the cabin provides few essential supplies such as beds, a fireplace and storage surfaces. The interior on the other hand, is designed based on “playful” components, such as climbing walls and nets, giving a full trekking experience. The integration of ARK project to the Latvian environment is one of the main goals. The materials and their colours are inspired by nature and amber’s palette of yellow, brown and orange tones. The predominant material of the structure is wood, which is also used for the façade components.
DESIGN CONCEPT EVOLUTION
+
+
=
77
phase 1: structural diagram
phase 2: air and watertightness
CONSTRUCTION CONCEPT
+
+
=
phase 3: thermal insulation
phase 4: interior OSB finishing
phase 5: exterior pine boards and glazing
B
A
A
B floor plan 2nd floor
SECTION A-A
CONSTRUCTION DETAILS
ENERGY CONCEPTS
winter
summer
SECTION B-B
portfolio Antigoni Lampadiari antigoni.lampadiari@gmail.com +31 619342314