A rc hi te c tu re
WORK SAMPLES
A n a s t a z j a A n n a K r y n s k a2017 RIBA II
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MArch
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D i p Arch
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D i p E ng
Hi, I am Ana! I have recently graduated from the Mackintosh School of Architecture and I am currently looking for a place to develop my passion for architecture, and to apply my knowledge to real-world projects. What I find truly fascinating in architecture is the relationship between people and built environments at all scales: from an individual in a building to the body of citizens in a modern metropolis. I am particularly interested in the ways architecture influences people, their psychological and physical comfort, their mood and their quality of life. I also like to think about the ways that people influence the environment they live in from both a political and ecological perspective and imagine alternative spatial interactions which could be facilitated through architecture. Occasionally, I like to think broadly about specific topics as a means of arriving at more profound answers.
C U R R I C U L U M
V I T A E
ion
ROCCASCALEGNA The Cascading Observatories Competition entry (2017) Two Person Project
How to build a complex of modern observatory houses in a picturesque medieval fortress? Within our proposal for the Roccascalegna modern observatory houses competition, several temporary residential buildings have been designed including rentable cabins, apartments, houses and a villa as well as a mixed use, communal sky-lounge. Water plays an important role within the development, as it becomes an ever-changing, ever-forming mirror towards the heavens. With water features placed throughout the slope of the mountain, the sky can be further witnessed in the reflections of the pools. The form of the ring is universally identified as being one of the absolute. In much the same way, the heavens serve as an ever-present reminder of our own place within this universal dynamic and reinforce our knowledge of our importance within it.
VILLA 1:200
HOUSES 1:200
APARTMENTS 1:200
axonometric view
elevation
axonometric view
section B-B
Cabin - axonometric view
-1 level plan
Apartments - axonometric view
axonometric view ground floor plan
+1 level plan House - axonometric view
axonometric view Villa - axonometric view
Cabin atCabin night, - exterior at night
Apartment exteriors - at sunrise
Villa exteriors - at dusk
House interiors - at midday
B E RLIN The Continuous City Stage 5 Diploma in Architecture Project (2015-16) & Master Thesis (2016-17) The Continuous City is a city of a new order, whose urban resources, such as water, electricity, space, transportation, knowledge and culture represent the commons. Its citizens constitute the body of commoners, who through collaborative consumption, production, and governance partake in balancing exploitation of the city’s resources and their re-cycling, thus ensuring prosperity and continuity of their often endangered existence. Der Neue Berliner Ring is a commons-based prototype of a city scale intervention, whose primary purpose is to balance the problematically high groundwater level, regulate electricity usage, and support the city in its transition towards green energies. The secondary goal of the intervention is to provide citizens with a unique perception of the city, protect large open areas within Berlin from privatization, and to link them by means of new sustainable transportation.
Acrylic Painting - Section Der Neue Berliner Ring
Visualisation - street view DNBR at the construction stage
Free Hand Drawing - axonometric view DNBR cutting through the Berlin’s city tissue
Free-hand Drawing Berlin’s Genius Loci
Physical Model scale !:10 000
Visualisation Der Neue Berliner Ring
BERLIN 2030 Der Neue Berliner Ring - balancing water level and energy usage
Step
1.
A certain amount of energy is used to power the pumps during off-peak energy demand periods (night) or when green energies are available (solar or wind power). Pumps, strategically distributed and located in the second aquifer, help balance the problematic high ground water level across the city.
Step
2.
The water collected in the proposed upper reservoir, has a gravitational potential energy and can be redistributed and dropped through a set of turbines deep down to the fourth aquifer. This mechanism allows to produce significant amounts of energy that can support the city’s energy network
A qui fer Bas e d P u m p e d H ydroe l e c t r i c En ergy St ora g e Generally speaking, Pumped Hydroelectric Energy Storage is a system where energy is being stored in the form of gravitational potential energy of water and where water circulates in a loop between two reservoirs, consuming and producing energy alternately. In order ro address Berlin’s high groundwater level problem, its excess will be first pumped out from the second aquifer and stored in a reservoir, elevated at approximately 20m above the ground 42km long ring. (Der Neue Berliner Ring).
The lower reservoir will be located in Berlin’s 4th aquifer at 200m depth. This will facilitate the off-load of excess water to Berlin’s soil and minimize energy loss, that the current draining strategy causes. The enlarged head of water opens an opportunity to generate and circulate a meaningful amount of energy at the scale of the city. In turn, the elevated water reservoir will become a giant, cityscale battery, where energy possessed from renewable sources can be stored and used at call.
Exploded Axonometric View Single Span Structure
View from the top of Der Neue Beriner Ring
View from the inside deck of Der Neue Berliner Ring
View from the inside deck of Der Neue Berliner Ring
GLASGOW The Athenaeum of Senses Stage 4 Project (2015) The proposed scheme aspires to challenge its users, provoke and stimulate thinking about the surrounding world and cities in particular in a more holistic, multi-sensory way. As an Athenaeum of Senses, the project intends to gather individuals interested in this domain and proposes a range of spaces to facilitate that. Its goal is to provide the society of Glasgow with an opportunity to experience a unique journey through senses whilst moving vertically throughout the building, by extension, broadening the understanding of their workings, characteristics and significance. The Athenaeum is composed out of five fully convertible, open-plan, double-height floors equipped with variously shaped mezzanines. Condignations are linked by means of a sculptural staircase element and expansive elevator which together play central role of the design. Additionally, each of the main floors has a different function and is dedicated to one particular sense.
stairs -wood that sounds good
South Facade
handrails -wood that feels good
framework -wood that is strong
inner layer -wood that smells good
outer layer -wood that looks good
Staircase structure and materiality breakdown - five different types of wood
staircase segment -five different
Athenaeum Exteriors
mezzanine viewing terrace
ROOFTOP
open palisade synaesthesia FOURTH FLOOR
forum - hearing
THIRD FLOOR
library - smell SECOND FLOOR
FIRST FLOOR
mezzanine resting area
art gallery - sight
mezzanine mirror and light room
workshops - touch
GROUND FLOOR
restaurant - taste BASEMENT
boxes of experience synaesthesia
Staircase Unfolded
through elevator
elevator
SYNAESTHESIA stockade - open tunel through staircase cropped view of Glasgow Steeple elevator - "moving room" [ panoramic view of the city ] ventilation [ main outlet ]
A
A
E
+ 26,85
E
+ 24,35
DOUBLE SKIN FACADE plain sheet of milky glass ventilation space 40cm openable sheets of clear glass construction (posts)
B
projector
elevator - "moving room" [ vertical view of the garden ]
B
PULLED OUT BOXES ornamental layer of conrete 8cm thermal insulation 12cm conrete construction wall 20cm plaster 1cm dispatch box
C BASEMENT WALL dampproof membrane thermal insulation concrete construction wall plaster
X2 12cm 27cm 1cm
floor heatting
D
+ 21,75
E
+ 19,25
double skin ventilation [ outlet ] service block balcony
D
spot lighting inside of the tunel
A
elevator - "moving room" [ vertical view of the garden ]
MAIN FLOORS crystallized glass marble panels 2cm adhesive concrete topping/ underfloor heatting 7cm soundproofing insulation 5cm post-tension concrete slab 20cm plaster 1cm
double skin ventilation [ inlet ]
entrance to the tunel
bookcases with sittings fitted inside
LIGHT AND PERSPECTIVE ROOM
floor heatting
E
D
+ 16,65
E
+ 11,55
D
+ 6.45
E
+ 9,05
double skin ventilation [ outlet ]
HALF FLOORS
entrance to
crystallized glass marble panels 2cm adhesive concrete topping 5cm concrete slab 15cm plaster 1cm
THE LIGHT AND PERSPECTIVE ROOM
A
elevator - "moving room" [ vertical view of the stage ]
F BASEMENT FLOOR black marble panels adhesive concrete topping thermal insulation concrete topping lean conrete sand bed for sanitary installations watertight concrete lean concrete sand bed, stabilized
2cm
LIGHT AND PERSPECTIVE ROOM
paintings suspended from the ceiling
double skin ventilation [ inlet ]
5cm 5cm 5cm 5cm
floor heatting
40cm 60cm 10cm 10cm
elevator - frame [ verticly arranged bars of wood ]
armchairs suspended from the ceiling
G
double skin ventilation [ outlet ]
PAVEMENT FLOOR flagstone gravel sand bed, stabilized
4cm 20cm 10cm
H
B
impregnated granit paving gravel sand bed, stabilized
sandpit handmade paper workshop space
BACK PORCH FLOOR 4cm 20cm 10cm
D
floor heatting
+ 6,45
A restaurant ventilation [ main inlet ]
elevator - "moving room" [ horizontally arranged bars of wood ]
elevator - "moving room" [ panoramic opening ]
LONDON ROAD
ENTRANCE through the tunel
LIFT [ SYNAESTHESIA ]
Aluminium mat with a vinyl refill
LIFT [ service ] existing surface of the London Road
G
H
D cafĂŠ
0,00
reception
sensory boxes suspended from the ceiling
concrete kerb 15x30cm cement - sand ballast 3cm conceret strip footing with10cm resistance
F
C
- 4,08
Section Detail
The Journey Through Senses
Staircase elements
Main floors
Hearing
Forum
Smell
Library
Vision
Art Gallery
Touch
Workshops
Taste
Restaurant
Mezzanines
JOURNEY THROUGH BUILDING
Physical model scale 1:100
Heliodon light analysis & Facade treatment
July, 10 a.m.
September, 10 a.m.
November, 10 a.m.
CRACOW The Museum of Modern Art Engineering Diploma Project (2013)
Cracow’s Museum of Modern Art as my engineering diploma project has been designed with a particular attention to technical details and constructional solutions. Consultations were sought from both structural engineers and architects in order to develop a comprehensive design scheme. The project constitutes an attempt to create an exciting space, where the “new” does not come into conflict with the “old”. Contrarily, it is about creating architecture that, while inherently modern, manifests new ways of thought, whilst respecting the history and considering its undeniable value. The concept of this project is based on dividing a building into two spaces, opposing in character, function, and overall expression, whose interplay represents the junction of the past and the future.
Floors and fireproof glass wall
Suspended rooms/boxes
Double skin facade glass box (future)
Junction of the past and the future
Corten cladding oriel (past)
MoMA Exteriors North-West Facade MoMA Cracow Exteriors
Ground floor Interiors Temporary Exhibitions
A
73cm
- 12,53 flashing attick flashing
- 12,53
A
+ 16,98
Cor-ten outer lining
polystyrene wedges
vertical pipe for draining rainwater
double T-bar 120/90 mm from stainless steel
Cor-ten outer lining
double T-bar 120/90 mm from stainless steel
vertical pipe for draining rainwater
double T-bar 120/90 mm from stainless steel aluminum window framing Cor-ten outer lining
aluminum window framing
subconstruction for drywall mounting coated steel channel sections 50/50mm
B
sembly
B
+ 9,41
attick flashing
floor strip
+ 9,25 stone window sill
polystyrene wedges
double T-bar 120/90 mm from stainless steel
Cor-ten outer lining
- 8,41
+ 13,37
- 8,41
a
50cm
+ 6,13 + 5,13vertical pipe for draining rainwater
C
+ 5,13
- 12,53 Cor-ten outer lining
Cor-ten outer lining
floor strip
floor strip
double T-bar 120/90 mm from stainless steel
vertical pipe for draining rainwater
J + 0,16
D
+ 5,13
C
+ 0,04
drip
Schuco's SMC 50 double skin facade
Schuco's SMC 50 double skin facade
aluminium mat ALFA with repp filler from ALUMATEX
drainage pipe for the water collection from the space under the wiper
sheet of coated steel
+ sheet 6,13 of coated steel
D
J
H
D
E
suspended ceiling profile UD 30 - boundary
I
anchor bolt hanger suspended ceiling profile CD 60 - main
marble tiles pedestal
- 4,94
suspended ceiling profile UD 30 - boundary
double T-bar 120/90 mm from stainless steel - 5,47
I
Concrete floor with Bautech Formula silicate reinforcement
anchor bolt hanger
Concrete screed 5cm PE film Extruded polystyrene 5cm Reinforced concrete 17.5cm Cement-lime plaster 1cm
profile of the support structure of the Cor-ten sheets mounting - 60/60 channel section
suspended ceiling profile CD 60 - main
suspended ceiling profile UD 30 - boundary
suspended ceiling profile CD 60 - load-bearing
I
anchor bolt hanger suspended ceiling profile CD 60 - main
marble tiles pedestal
- 4,94
drip
suspended ceiling profile CD 60 - load-bearing
subconstruction for drywall mounting coated steel channel sections 50/50mm
E
- 0,15
- 0,84
c
F
J
frame of the support structure for the Cor-ten sheets mounting - stainless steel 60/40 channel section
marble tiles pedestal
- 4,94
aluminium mat - ALUMATEX BETA with vinyl cartridge
- 0,15
Extruded polystyrene 10cm DEITERMANN SUPERFLEX DIN 18 195-4 Reinforced concrete impervious from BTW 30cm Cement-lime plaster
- 4.10
drywall casing
E
suspended ceiling profile CD 60 - load-bearing
- 0,84
Section Detail
drainage pipe for the water collection from the space under the wiper
aluminium mat - ALUMATEX BETA with vinyl cartridge + 0,16 + 0,04
drainage pipe for the water collection from the space under the wiper
I
F
Cor-ten outer lining
sheet of coated steel
vertical pipe for draining rainwater
floor strip aluminium mat - ALUMATEX BETA with vinyl cartridge Steel Cor-ten
c
frame of the support structure for the Cor-ten sheets mounting - stainless steel 60/40 channel section
subconstruction for drywall mounting coated steel channel sections 50/50mm
- 0,15
F
Schuco's SMC 50 double skin facade
drywall casing
Cor-ten outer lining
Space for mounting Cor-ten 3cm steel Wind insulation Mineral wool 15cm / double T-bar Reinforced concrete 25cm Cement-lime plaster 1cm
- 0,84
double T-bar 120/90 mm from stainless steel
profile of the support structure of the Cor-ten sheets mounting - 60/60 channel section
Cor-ten outer lining
frame of the support structure for the Cor-ten sheets mounting - stainless steel 60/40 channel section
Schuco's SMC 50 double skin facade Wind insulation Mineral wool15cm Reinforced concrete 25cm Drywall substructure 17cm Drywall 2cm Unigrunt Acrylic paint
+ 0,04
frame of the support structure for the Cor-ten sheets mounting - stainless steel 60/40 channel section
- 4.10
H
drip
stone G window sill
J
b
floor strip
drip
aluminum window framing
vertical pipe for draining rainwater
+ 5,29
C
profile of the support structure of the + 5,29 + 5,13 Cor-ten sheets mounting - 60/60 channel section
Marble tiles 2cm Adhesive mortar Concrete screed 5cm Styrofoam 5cm Concrete screed 5cm Lean concrete 5cm Sandbags for sanitary installation 40cm Reinforced concrete waterproof in TBW technology 60cm Lean concrete 10cm Sand bed stabilized 10cm
pion rury odprowadzającej wodę opadową do kanalizacji deszczowej aluminium mat ALFA with repp filler from ALUMATEX
+ 0,16
stone structure window sill profile of the support of the Cor-ten sheets mounting - 60/60 channel section + 6,13
B
F
- 8,41
B
aluminum window framing
Granite paving impregnated 4cm Foundation - cement mortar 30cm Gravel 20cm Sandstone stabilized 10cm
subconstruction for drywall mounting coated steel channel sections 50/50mm
aluminium mat ALFA with repp filler from ALUMATEX
double T-bar 120/90 mm from stainless steel
double T-bar 120/90 mm from stainless steel
E drywall casing
H
- 8,41
floor strip
+ 9,25
subconstruction for drywall mounting coated steel channel sections 50/50mm
floor strip
+ 9,25
pion rury odprowadzającej wodę opadową do kanalizacji deszczowej
stone window sill
drywall casing
stone window sill
+ 9,41
D
Granite tiles 2cm Under-tiles insulation Adhesive layer Concrete slab 4cm Drainage mat Waterproof insulation - 2x heat sealable foil PIR POWERDECK plate made of rigid Polyisocyanate foam covered on both sides Lined with 17cm aluminum foil TRELLEBORG EPDM 0.2cm Reinforced concrete slab with 20 cm slope Mineral wool 12cm Construction of a suspended ceiling of 50cm Drywall 2cm
b
aluminum window framing
+ 8,72
- 4.10
W technology 60cm
double T-bar 120/90 mm from stainless steel
+ 8,72
B
Oak flooring panels 2cm PVC mat 0.2cm Concrete screed 5cm PE film Extruded polystyrene 5cm Reinforced concrete 17.5cm Steel truss stratched between brackets Supporting frame for Cor-ten sheets assembly Cor-ten sheet
- 4.10 + 9,41
vertical pipe for draining rainwater
C aluminum window framing
B
a
+ 13,37
+ 6,13
C
B
+ 13,53
stone window sill
Oak flooring panels 2cm PVC mat 0.2cm Concrete screed 5cm PE film Extruded polystyrene 5cm Reinforced concrete 17.5cm Cement-lime plaster 1cm
+ 5,29
B
aluminum window framing
Layer of rinsed gravel 16/32 mm Extruded polystyrene 25cm 2x heat sealable foil POWERDECK - chocks Vapor barrier - heat seal felt Reinforced concrete 17.5cm Construction of a suspended ceiling of 73cm Drywall 2cm Unigrunt Acrylic paint
stone window sill
B
H
A
B
+ 5,29
drywall casing
aluminum window framing
- 12,53
pion rury odprowadzającej wodę opadową do kanalizacji deszczowej
ope
lighting
H
subconstruction for drywall mounting coated steel channel sections 50/50mm
pion rury odprowadzającej wodę opadową do kanalizacji deszczowej
e foil
95-4 TW 30cm
A
+ 16,98
floor strip
+ 9,25 + 13,53
ides
stone window sill
G
+ 17,98
A
flashing
+ 9,41
drywall casing
Schuco's SMC 50 double skin facade
lighting
+ 8,72
B
attick flashing
polystyrene wedges
+ 8,72
- 5,47
Cor-ten outer lining
vertical pipe for draining rainwater
Technical Drawings
ent
Schuco's SMC 50 double skin facade
- 5,47
aluminium mat ALFA with repp filler from ALUMATEX
sheet of coated steel
SECOND FLOOR PLAN
J
+ 0,16
SECTION A-A 3
WEST ELEVATION
E
aluminium mat - ALUMATEX BETA with vinyl cartridge
+ 0,04
2
1
drainage pipe for the water collection from the space under the wiper
D
SCALE 1:50
SCALE 1:50
- 0,15 SCALE 1:50
4
2718 300
1230
861 382
140
40
140
600
140
140
140
140
140
140
40
140
Stainless steel panel Styrodur 20cm Waterproofing insulation Reinforced concrete profile 6-30cm coated with DEITERMAN superflex insulation layer Thin-layer silicate-silicone plaster
313
553
40 28
150
G
ceiling grid for air intake
D
- 0,84 ceiling grid for air intake
D
D
A
secretary's office
ceiling grid for air extraction
23,78m2 oak flooring panels
90 210
D1
A
A
A
D
1.6
A
A
120 210 90 210
D1
D2
+ 18,92
social room 1.9 9,94m2 ceramic tiles
1
B
E
+ 16,91
ceiling grid for air extraction
VENTILATION - central ventilation units
Glass balustrade ES-GLASS-PROFIL ESKATT
H
H
H
40
+ 0,30
H
- 4,94
I
+ 14,63
H
H 120 210
D
F
2
C anemostat
+ 9,61
fire glass CONTRAFLAM 120
+ 5,29
+ 5,29
2
Cor-ten sheet mounting frame steel sheets brackets acid-resistant stainless steel screw Ø 0.4cm
+ 2,75
fire glass CONTRAFLAM 120
Double skin facade SMC 50 firmy Schuco
A
H
F
2
+ 0,16
drip
B
83
553
A
+ 0,16 + 0,00
D
40
existing surface of Straszewskiego st
D
0,5%
J
B
- 2,38
23
406
drip
Schuco's double skin facade
Aluminium mat with ALUMATEX BETA vinyl cartridge
A
1203
40
A
drip
concrete curb 15x30cm cement-sand bed 3cm concrete bench C 12/15 with resistor 10cm
A
Schuco's SMC 50 glass wall
B
Cor- ten sheets lining
C - 4,94
- 4,94
260
B
+ 4,01 drip
B
anemostat
40
+ 6,19
drip
suspended ceiling structure element UD 30 - boundary profile
A
40
aluminum window frames
+ 7,73
1
1
Plunged into suspended ceiling steel rail for adjusting longitudinal lamps "Pure 2" and spotlights "planet 3" from Plantlicht
382
Cor-ten sheet mounting frame
Cor-ten sheet mounting frame
B
+ 7,33
1
Aluminium mat with ALUMATEX BETA vinyl cartridge
suspended ceiling structure element CD 60 - main profile
Steel frame designed for attaching the exhibits
C
dilatation of the floor
+ 11,15
3
+ 14,63
suspended ceiling structure element CD 60 - load-bearing profile
- 5,47
803
B
aluminum window frames
+ 9,41
fire glass CONTRAFLAM 120
suspended ceiling structure element CD 60 - main profile
690
653
aluminum window frames
A
B
C
steel sheets brackets acid-resistant stainless steel screw Ø 0.4cm
Cor-ten sheet mounting frame
B
A
1.10 permanent exhibition space 165,77m2 Concrete floor with reinforcement Bautech Formula silicate
I
steel sheets brackets acid-resistant stainless steel screw Ø 0.4cm
+ 11,43
fire glass CONTRAFLAM 120
marble tiles pedestalD
cross connector
690
1
fire glass CONTRAFLAM 120
+ 9,41
suspended ceiling profile CD 60 - load-bearing
Double skin facade SMC 50 firmy Schuco
D2
I
+ 14,63
MECHANICAL VENTILATION grid for air intake
B
suspended ceiling profile CD 60 - main E
2
2
steel sheets brackets acid-resistant stainless steel screw Ø 0.4cm
E
A
2209
+ 0,30
450
panoramic Passenger lift GREEN LIFT GL TLM 900kg
ceiling grid for air extraction
+ 0,30 vertical duct for water and sewage piping Ø15cm
1
G
+ 18,92
ceiling grid for air intake
1250
2209
412
D1
E
1.8 archive 14,42m2 ceramic tiles
14 x 16 28
40
68,62m2
90 210
1
attick flashing
steel sheets brackets acid-resistant stainless steel screw Ø 0.4cm
+ 13,53
anchor bolt hanger B
14 x 16 28
F
90 210
Concrete floor with reinforcement Bautech Formula silicate
1
fire glass CONTRAFLAM 120
+ 13,53
suspended ceiling profile UD 30 - boundary
14 x 16 28
D1
attick flashing
Cor-ten sheet mounting frame
fire glass CONTRAFLAM 120
1
E
ceiling grid for air extraction
D1
A
hall
1.10
A B
B
gabinet dyrektora 2
16,58m2 oak flooring panels
90 210
D1
A
815
oak flooring panels
D1
D1
A
570
1.5
director's office 1
ceiling grid for air extraction
90 210
90 210
90 210
10 570
341
1406
1.4 14,42m2
ceiling grid for air extraction
90 210
D1
oak flooring panels ceiling grid for air extraction
steel sheets joining - standing seam
steel sheets joining - standing seam
+ 18,04
1
fire glass CONTRAFLAM 120
floor dilatation
B
450
cabinet of education 1.3 coordinator 14,31m2 oak flooring panels
cabinet of exhibitions
1.2 12,64m2
A
+ 18,92
23
steel sheets joining - standing seam
A
downspout Ø10cm
40 190
exhibitions design and conservation room 1.1 35,38m2 ceramic tiles
fire glass CONTRAFLAM 120
1
ceiling grid for air intake
D
conservation workshop 1.7 32,23m2 ceramic tiles
D
A
A
A
attick flashing
C
150
150
O1
150
150
150
O1
150
150
150
O1
steel sheets joining - standing seam
ceiling grid for air intake
D
ceiling grid for air extraction
C
G
+ 20,58
O1 150
150
43
B
ceiling grid for air intake
O1
ceiling grid for air intake
collective sewage pipe Ø10cm
B
attick flashing
attick flashing
attick flashing
O1
downspout Ø10cm
A
140
1203
C
288
140
260
150
23
40 28
2205 300
1230
600
2611
1
3
2
4
LIGHTING A
LIGHTING FINISHES
A
1 fire glass CONTRAFLAM 120
5,8cm
3 x single, tempered glass partitioned with gel pad 2.5cm TPS spacing frame 0.8cm 3 x single, tempered glass separated with 2.5cm gel pad
2 Reinforced concrete left with raw face
B
longitudinal lamps - type p.midi HL LED from Plantlicht
C
Plantlicht longitudinal type 2 lamps, suspended to the frame, adjustable
D
E
B
First Floor Plan
plunged into the suspended ceiling longitudinal lamps - type pure 2 EB frame LED from Plantlicht
longitudinal suspended lamp - type "up&down" 68KFH from Plantlicht hanging square lamp - type domino 2 square HL LED from Plantlicht
F
longitudinal wall lamp - type pure 2 WL di/ id from Plantlicht
G
longitudinal wall lamp - type pure 2 WA di/ id from Plantlicht
H
Longitudinal wall lamp system "GS T16" from Plantlicht, With side lighting
I
spotlights- type planet 3 from Plantlicht, suspended from the frame, adjustable
PARTITIONS A
Cement-lime plaster 1cm Reinforced Concrete 15cm Strip of non-combustible material Dilatation (extruded polystyrene) 3cm
C
D E
F
C Cement-lime plaster 1cm Reinforced concrete 25cm Extruded polystyrene 15cm / 2ft Space for fixing cor-ten steel 3cm Steel cor-ten
B Cement-lime plaster 1cm Reinforced concrete 25cm Extruded polystyrene 15cm External acrylic emulsion
D
FINISHES fire glass CONTRAFLAM 120
ANASTAZJA KRYŃSKA ROK 4 SEM. 7 2013/14
longitudinal lamps - type p.midi HL LED from Plantlicht
hanging square lamp - type domino 2 square HL LED from Plantlicht
longitudinal wall lamp - type pure 2 WL di/ id from Plantlicht
longitudinal wall lamp - type pure 2 WA di/ id from Plantlicht
H
Longitudinal wall lamp system "GS T16" from Plantlicht, With side lighting
I
spotlights- type planet 3 from Plantlicht, suspended from the frame, adjustable mounted directly to the ceiling round lamps - type domino domed round AB from Plantlicht
5,8cm
3 x single, tempered glass partitioned with gel pad 2.5cm TPS spacing frame 0.8cm 3 x single, tempered glass separated with 2.5cm gel pad
PARTITIONS A
B Granite paving impregnated 4cm Foundation - cement mortar 30cm Gravel 20cm Sand bed stabilized 10cm
Cross Section A-A longitudinal suspended lamp - type "up&down" 68KFH from Plantlicht
G
J
1
Schuco's double skin facade SMC 50 Schuco
plunged into the suspended ceiling longitudinal lamps - type pure 2 EB frame LED from Plantlicht
Plantlicht longitudinal type 2 lamps, suspended to the frame, adjustable
C
Marble tiles 2cm Adhesive mortar Concrete screed 5cm Styrofoam 5cm Concrete screed 5cm Lean concrete 5cm Sandbags for sanitary installation 40cm Reinforced concrete waterproof TBW technology 60cm Lean concrete 10cm Sand bed stabilized 10cm
D Oak flooring panels 2cm PVC mat 0.2cm Concrete screed 5cm PE film Extruded polystyrene 5cm Reinforced concrete 17.5cm Steel truss spread between brackets Grate support for Cor-ten plate assembly Cor-ten sheet
F Concrete floor and its reinforcement Bautech Formula silicate Concrete screed 5cm PE film Extruded polystyrene 5cm Reinforced concrete 17.5cm Cement-lime plaster 1cm
G Layer of rinsed gravel 16/32 mm Extruded polystyrene 25cm 2x heat sealable foil POWERDECK - chocks Vapor barrier - heat seal felt Reinforced concrete 17.5cm Construction of a suspended ceiling of 73cm Drywall 2cm Unigrunt Acrylic paint
H
West Facade ANASTAZJA KRYŃSKA ROK 4 SEM. 7 2013/14
Top Floor Interiors
Free-hand Drawing
Top Floor Interiors
Top Floor Interiors
Free -hand Drawings
The collection of free-hand drawings and paintings that I have created over the course of the last several years constitutes a study into various aspects of both the built and natural environments that influence architectural design. These careful observations and analyses have helped me to develop the skills necessary to graphically construct objects in regard to their geometries, proportions, perspective, lighting and materiality. This demonstrates my understanding and sensitivity to details.