Portfolio 2020 - Work samples, Natalia Piórecka by Natalia Piórecka

Natalia P i รณ rec ka

Architectural Portfolio

Graduation Project

„Il Palazzo di Sale e Benessere” Date: Year 3, Final Year (2018/19) Location: Venice, Italy Supervisor: Rachel Armstrong, Andy Campbell The project “Il Palazzo di Sale e Benessere” is my individual, academic, graduation project based in Venice, Italy. Its main objectives were to challenge the boundaries of the architectural design through the Experimental Architecture and exploring the intersection of the architecture with biology.

Internal Spaces of the Salt SPA

The proposal introduce the salt production, being of great importance for historical Venice. It builds upon traditional Italian natural salt production using the evaporation salt ponds method. Resulting “Il Palazzo di Sale e Benessere” (eng. Palace of Salt and Wellness) the development enrich the wellbeing around the Venetian Lagoon by exploiting greatest advantages of salt, naturally extracted from its nearby sea waters. The scheme features Salt SPA complex, providing various salt treatments, using the salt produced on the site and within the building itself. It aims to support the local people not only with a wide range of health benefits, but also with additional income, economical improvement and new job places, at the same time responding to current Venetian social challenges and environmental conditions. By the introduction of the salt ponds and salt facade, the development contribute to the surrounding ecosystem, supporting the environment not only for humans, but also for other species, and to air purification emitting the negative ions to the ecosystem.

Exterior View of the Salt SPA model produced in SketchUp

author of all the drawigns on the page: Natalia Beata Piórecka

Groundfloor

First Floor

1. Salt Crystallization Salt Pond + Salt Structures 2. Salt Channel for Collection in Harvest Area 3. Salt Harvest Area 4. Staff toilet 5. Production and Harvest Office 6.Pumping Area (for the Wet SPA) 7. Salt Ponds Control Office 8. Open Sitting Area 9. Café 10. Café Storage 11. Public Toilets 12. Pumping Area (for Salt Ponds) 13. Fire Safety Stairs + Lift 14. Public Stairs 15 Public Boat Access 16, 17. Main Entrance Doors 18. Salt Pond 1 - First Evaporation 19. Salt Pond 2 - First Evaporation 20. Salt Pond3 - Second Evaporation 21, 22. Exterior circulation - Ramp

1. Salt Cave 2. Changing Room (Women) 3. Internal SPA circulation stairs 4. Changing Room (Men) 5. SPA Entrance 6. Storage 7. Bar 8. Reception 9. Staff Room 10. Life Guard Office 11. Wet SPA - Pools Area 12. Escape Corridor 13. Dry Sauna 14. Wet Sauna 15. Storage Room (SPA facilities) 16. Fire Safety Stairs + Lift 17. First floor SPA entrance 18. Public Stairs

Second Floor

Third Floor

1. Toilets 2. Salt Inhalation room 3. Salt Steaming Room 4, 5, 6. Salt Treatment Rooms 7. Storage 8, 9, 10, 11. Salt Bathing Rooms 12. Wet SPA - Pools Area 13. Massage Room 14. Escape Corridor 15. Fire Safety Stairs + Lift 17. Public Stairs

1. Public Stairs 2. Restaurant Kitchen 3. Toilets 4. Restaurant Dinning Area 5. Cloak Room 6. Restaurant Entrance 7. Fire Safety Stairs + Lift 8. Salt Terrace 9. Salt Pond 6 - Crystallizer

7 4

16 12

7 5 8

8 13

8 6

12 10

9 2

Waterfront Elevation of the Salt SPA

author of all the drawigns on the page: Natalia Beata Piórecka

Perspective Section Various Spaces Uses RESTAURANT

DRY SPA

RECEPTION CAFE

Light Study using 3D printed model with resin base

author of the drawings and photographs on the page: Natalia Beata Piรณrecka

Site Location Venic, Giardini

WET SPA

HARVEST

Salt SPA Form Finder:

Structural Strategy

Glazed salt pool structure

Environmental

Tertiary Structure

Concrete roof deck

Salt Ponds Steel frame for glazed salt pool

Secondary Structure

Roof steel structure

Intuitive Primary Structure

Concrete shell with steel supports

Secondary Structure (interior)

Interior steel frame structure

Foundation raft and piles

Environmental strategy

LAR

SALT POND

model produced in Rhino ELECRTICAL PUMP

RAIN WATER COLLECTION TANK

STEAM

ELS

SALINE-

SALT WATER PUMPS

BIRNE POND

PAN

HARVESTED SALT DRY

CRYSTALLIZED SALT POND

METER

RAIN WATER FILTRATION INVERTER DC ->AC

DESALINATION STATION

COLD WATER FEED

GROUND WATER HEATING

author of all the drawigns on the page: Natalia Beata Piรณrecka

SUN light & heat source

Purifies Air SALT PANEL

Improves Breathing

Hydrolisation of salt releases negative ions into the air

Negative ions collide with positive ions in the air, forming new electrostatic compound

As a result of gravity these electrostatic compounds fall to the floor, removing harmful airborne particles

Salty Facade Salt infil

Improves Sleep

Decreases Stress

Reduces Allergy Symptoms

Increases Energy

The Salt facade is part of the project in Venice and it is inspired by the salt experimentation. The facade panel is made out of plaster and it is accommodating a hand crafted salt infill. The panel is mimicking the square like shape of the natural salt crystals. The salt infill is a replaceable element that could be easily produced and exchanged within the site. It will bring several health benefits, by utmost which is the air purification. Heated by the sun salt rock infill would produce negative ions, which are believed to improve air quality. Salt facade panels are another element of SALINE -Il Palazzo di Sale e Benessere contributing to rising wellness around Venice and supporting its surrounding ecology and the environment.

author of all the photographs on the page: Natalia Beata Piรณrecka

1 Glass Reinforced Concrete Panels 70-150 mm (varies with shape) Insulation 100 mm Primary reinforced concrete structure 950 mm (Concrete class XS1 resistant to airborne salt exposure) Damp-proof course (DPC layer) Interior plaster finish 12.5 mm 2 Concrete roof panels (accessible for visitors) 20 mm Mechanically controlled salt pool rain protection cover (glazed layer, sliding over the pool top when raining) Damp-proof course (DPC layer) Screed 75 mm Shuttering board 40 mm Steel brackets Insulation 100 mm Steel decking composite floor slab 120 mm Stainless steel truss 500 mm (Services allocated between the voids) Plaster Board Ceiling

3 Salt Pool - high concentrated salt water 200 mm depth Laminated safety glass consisting of 12 x 12 mm toughened glass + 10 mm toughened glass

4 Sensor measuring the salinity level Sealed nozzle directing the brine onto the crystallizing structures Salina- Crystallizing Salt structure (Celebration Piece - Sculpture of Living, Crystallizing Salt) 5 GRC Sandwich Panels with: DPL 30mm rigid insulation double glazing panel fill, followed with salt rock block infill 80 mm stainless steel panel bracing I-beam 152mm Plaster Board Sealed protection 6 Supported Glazing System (double glazed curtain wall) 7 Sea Tide regulation pool max 4000 mm deep concrete shell 200 mm

8 High Tide Tank Regulating System with the spring - operated mechanical system, collecting the water during hight tides (preventing flooding the salt ponds on site) 9 Drainage - regulating the water level in the Hight Tide tank 10 Interior floor finish Waterproof Membrane Marine concrete raft and piles foundation (concrete XS2 for permanently submerged structures) Raft 600 mm (1200 in maximum point) Piles 4000 mm depth Sand layer 200 mm Hardcore layer 300 mm

10 7

11 Coloured and customised solar PV panels 12 Fire Sprinkler Suspending ceiling accommodating servicing spaces

Prototype of the Salt Crystallization Columns

Detailed Construction Section of the Crystallizing Salt Column System in the Salt SPA author of all the drawigns and photographs on the page: Natalia Beata Piรณrecka

Salt Cave Salt Spa & Wellness Centre

author of the drawing on the page: Natalia Beata Piรณrecka

Growing a Mushroom Building Bio-materials Research Centre

Photographic study Bracket Fungus

Phallus Indusiatus

Neofavolus Alveolaris

Date: Year 2 (2017/18) Location: Durham Supervisor: Nikoletta Karastathi, Andy Stoane This project explores a uniquely light material made out of mushrooms, with a promising opportunities for future biodegradable architecture. The inspiration is directly driven from mushrooms, specifically from the site photographic study of the fungi - bracket fungi, that then evolved into a material research looking at fungi as a future building material. The proposal is a Biomaterial Research Centre where design and science would meet and fully explore mushroom material on various levels, by laboratory scientific on-site research, design workshop practise or even the inhabitation itself. The design concept is based on mathematical voronoi tessellation that mimics the shape of the Phallus Indusiatus and Neofavolus Alveolaris mushrooms. The voronoi tessellation creates polygons providing a series of cells, which then builds up the whole proposal, introducing a notative technique of gradually growing cells, floor by floor and fixing the cells on the top of the already grown one. Both form and the materials of the building design are led by the experimental approach using biodegradable material, grown out of the natural substrate bound with mycelium tissues, creating a solid building material, which gives a promising opportunities for the architectural building design

model produced in 3ds Max

author of the drawigng and bracket mushroom photographs on the page: Natalia Beata Piรณrecka author of all the Neofavolus Alveolaris photograph: Roland E Barth author of all the Phallus Indusiatus photograph: Vinayaraj V R,

Light Study of the 3D Physical Model

3D modeling iterations of the design form

author of all the drawigns and photographs on the page: Natalia Beata Piรณrecka

Voronoi tessellation as a design concept

Cellular Mycelium Assembling grown Cells

Randomly distributed points

Connecting the points with another point near them

Material growth

On site individual cell growth strategy: Dividing the lines equally (in their half point) and crate perpendicular line on it

Step 1

Step 2

mould fixed and the

material placed

Step 3

Step 4

material growth

mould is taken off

steel reinforcement

mycelium binds the

the cell is treated by

installed

substrate and turn the

non-direct fire to stop

material into white

the mycelium from

Extending the perpendicular lines until they intersect with another

further growth

Overall construction method and time forecast:

Construction Time

3 month

2 month

Clearing the inappropriate lines and there the result of the voronoi diagram

1 month 10 days for Moulds-Shoring Fixing per level (Including the load-bearing main structure and inner partitions

3 days for Material filling per level

10 days for Material Growth (extended because of the scale) + Additional 7 days for drying and fire treat Offsetting the polygons adding a thickness for each cell

author of all the drawigns and photographs on the page: Natalia Beata Piรณrecka

Manufacturing mycelium growth processes

Diversed results of each of the experiments

DISSERTATION MYCOsella

Growing the Mycelium Chair”

“

Location: Newcastle upon Tyne, UK and Warsaw, Poland Date: Year 3, Final Year (2018/19) Supervisor: Martyn Dade-Robertson My dissertation titled - “MYCOsella - Growing the Mycelium Chair” was a research driven design project that was building upon my previous experience with mycelium. In the dissertation I took a closer look at the material itself, exploring its properties, capabilities and possible future application into a building industry. To make the research more tangible and test it in the one to one scale, I decided to research the material though the prism of the interior design, precisely through chair typologies. The project included material experiments using various substrates, testing growing techniques, exploring various forms and strategies in order to then successfully integrate all the research into the chair creation. The project resulted in the creation of three different chairs, successfully grown out of mycelium material, presenting its broad qualities as both structural material and aesthetical texture. Each of the chair was testing material possibilities gradually stretching its border. First starting with the metal support and base, then introducing natural - wooden base and finally, ending up with a chair entirely grown out of the mycelium substrate. With the successful results, all of the chairs are fully functional pieces of furniture. This project with its suprising and unique results, if taken into the industrial scale, might have a great impact on changing the way we perceive the production, design and architecture itself with the exciting concept of naturally grown furniture and in the nearest future grown architecture.

author of all the photographs on the page: Natalia Beata Piórecka

MYCOsella Grown Chairs Biodegradable Furniture MYCOsella Easy Chair

MYCOsellam FROSTA

MYCOsellam BRUNSTA

author of all the photographs on the page: Natalia Beata Piรณrecka

MYCOsella Mushroom Chair

Link to the full Dissertation: https://issuu.com/nataliapiorecka/docs/dissertation_project_ba_architectur and a In-Progress Video presenting the growing assemblage of the chairs: https://www.youtube.com/watch?v=yxDcVbZav84

MYCOsella Easy Chair grown out of the mycelium substrate author of the photograph on the page: Natalia Beata Piรณrecka

Cosmic Dream Red Planet Inhabitation Date: 2018 Location: Mars Supervisor: Self driven, competition “Sol to Sol” is a two person collaborative entry for the Marsception competition. I was responsible for the main design concept and strategy, together with the 3D modelling and visuals. The design envisions a habitat for the first five colonizers on the Red Planet who would research the viability of life for the future human generations on Mars. As a reply to specific condition in Mars, the site is positioned above the equator and below 25 degrees, to make use of the flat land and the frozen water resources underneath the surface and due to its modularity it could be hold the ability for the future expansion and development. The proposal aims to solve the biggest problem of lacking water. Digging deep

NEW MATERIAL

NEW SYSTEM

EGGS AND MILK

MARTIAN GAS

FISH

FRUIT

RESEARCH LAB

AQUAPONICS

FILTER

EXCAVATE

REUSED ICE

SUN

down through the ground surface where a thick layer of frozen oceans can be found. The massive drill in the core of the scheme crushes the ice and pushes it up by the nature of the spiral (vortex like) form. The ice melts as it rises closer to the surface passing a filtering systems and becoming an potable water, pumped further to all systems around scheme. The proposal introduces a gas recycling system, using electrolysis to deal with the vast amount of CO2, manufacturing and subdividing the H2O to the breathable Oxygen (O2) and hydrogen (H2). The H2 would be pumped into the triangular, structural pillows and provide a layer of protection from the harmful radiation. The tanks of water covering the first level would additionally protect the levels below and act as a system for aquaponics and aeroponics farming.

MARTIAN SAND AND ROCK

STRUCTURAL MATERIAL

LIGHT

BEDROOM

LIVING

SOLAR CELLS

KITCHEN

DOME STRUCTURE

CO2 FARM ANIMALS

AREOPONICS

TOILET

H2O

BREATHABLE AIR

PLASTIC SHEETS

CHEMICAL REACTOR

ROCKET

H2 WHEAT

VEGETABLE HUMAN WASTE/ ELECTROLOSIS FERTILISER

Self-Suffiecient System Strategy

Strategy for further colonisation

author of the3D View drawing on the page: Natalia Beata Piórecka author of the plans drawings and diagrams on the page: Kenny Tam

Exterior and Interior Views of the Sol to Sol models produced in 3ds Max

author of the drawings on the page: Natalia Beata Piรณrecka

Computational Design Workshops

Emerging Urban Creature Team:

Office Work Experience

Pedestrian Campus Boulevard

St. George Hospital Masterplan

Redesigning healthcare service

Date: 2020 Location: Stafford, UK Supervisor: Christopher Shaw

Aearial View of the Masterplan Development

The St. Georges is a proffessional proposal for the redevelopment of St Georgeâ&#x20AC;&#x2122;s Hospital based in Stafford that I worked on working in the Medical Architecture office. The hospital facilities was dated, in poor condition and offered a poor environment for mental healthcare, therefore the redevelopment was necessary.

I was involved in the project from its very beginning and by collaborating with the architect I could directly contribute to its development. Through the diagrams, site analysis, visualisations I was working on developing a narrative and a site masterplan strategy in order to provide new estates infrastructure that will replace current inadequate clinical, administrative and support accommodation, making the best use of the existing site with a scope of growth and change in the future. The Masterplan involved five development phases, through which the project would deliver new facilities of Forensic Mental Health, Adult Acute and Eating Disorders Inpatient Wards. The final scheme provided new accessible and adaptable outpatient accommodation together with new high quality offices and Trust Headquarters. The project is delivering a modern and attractive integrated site campus with features to recruit and retain the best NHS workforce. author of all the drawings on the page: Natalia Beata PiĂłrecka

Office Work Experience Function

Location

Parking 28 Parking Spaces Phase

Function

9.1, 9.2 New Seclusion Blocks

22 167

N/A

116

N/A

Parking Location

1212

1223

First Floor First Floor Ground Floor Ground Floor First Floor First Floor Second Floor

18 18 N/A N/A N/A N/A N/A

1212 1223 1412 706 706 1823 2117

Function

Location

Outpatients Staff support

Plant

80 Parking Spaces Function

No. Beds Area (m²)

St.Chad's - Baswich St.Chad's Broomley St.Chad's - Kinver St.Chad's Brockington St.Chad's - Main Corridor Dolly Mixtures Nursery Social Club Boiler House ground floor Boiler House first floor

12 14

Location

Function

836 348

86 1760

13 8 16

4190

331

N/A

1271 1271 1271 1271 1954 2060 2060

No. Beds Area (m²)

Ashley House Newport House Radfort House

11634

Sub-total (m²)

108

N/A

18 18 18 18 N/A N/A N/A

Location

Forensic Ward Forensic Ward Forensic Ward

677 614

No. Beds Area (m²)

Ground Floor Ground Floor Ground Floor Ground Floor Ground Floor First Floor Second Floor

Adult Forensic Adult Forensic Adult Forensic Phase 4 Adult Forensic Construction Shared Activity Offices Offices

Sub-total (m²)

595

N/A

Parking

1848

595

N/A N/A N/A

Sub-total (m²)

616

No. Beds Area (m²)

Ground Floor

Staff support Plant

Phase

429

N/A N/A

Ground Floor

Dementia Older Adult Acute Assessment Eating Disorders Mother & Baby

Phase

498

N/A

Older Adult Acute Assessment

Phase

TEMPORARY PROVISION / DECANT.: 8.2 storey temporary modular building to provide decant for Block 6 & Block 7 offices - 1008 m2

N/A

Dementia

Eating Disorder Phase 2 Mother & Baby Construction Shared activity Outpatients Outpatients Offices Offices

Phase 3 Demolitions

No. Beds Area (m²)

Block 6

Block 7 Portakabin Changing Workshops Garages

Staff support

DEMOLITIONS: 1. Garages 2. Parking (10 spaces) 3. Changing Workshops 4. Portakabin 5. Block 6 - 498 m2 927 m2 6. Block 7 - 429 m2 7. Parking (18 spaces)

Final Masterplan

Phase 1

Phase

3 storey Office block 3 storey Office Phase 1 block Demolitions

Sub-total (m²)

11158

Sub-total (m²)

576 470 705

Phase 2

2 storey Foresnic Ward Phase 5 Shared Activity Demolitions Shared Activity Reception

Phase Phase 6 Refinemnt

520

Gymnasium Sandon House Hatherton Reception

N/A N/A N/A

424 358 137

2 storey Office block

Marston House

N/A

Office Office

Stonefields Haywood Lodge

N/A N/A

594 272

83 Parking Spaces

Parking

N/A

1826

Function

Norton House

Location

484 Parking Spaces Parking

4763

707

Area (m²)

Sub-total (m²)

9335

Phase 3

Phase 4

HEALTHCARE DEPRARTMENTS: Outpatient

Phase 5

Older Adult Acute Assesment Dementia Eating Disorders Mother & Baby Ward Shared activities Office Forensic Ward Secure Green Gardens Access to Secure Gardens

Stacking Diagrams of the new development

Building Visualisations

author of all the drawings on the page: Natalia Beata Piórecka

Office Work Experience A

Lift Extension

Construction Detail

1 Date: 2020 Location: London, UK Supervisor: Professional Practive Project, Medical 01 Architecture,2Yvonne Ophaus

Bollards to protect the new lift

Ex RW P

-550mm RW Ps

+-0.00 STORE 003151010A 2.86sq.m.

003151009 5.27sq.m. LOBBY OFFICE 003151009A 8.41sq.m.

A Stairs reprovided

Dry riser

Ex RW P

+-0.00

STORE 00324G006 8.70sq.m.

SL UICE SINK

+476mm

003151008C 4.42sq.m. SLUICE

LOCKERS

00324G006A 4.98sq.m.

Existing exit to maintain

003151C04 11.77sq.m.

SHOWER/ WC 003154011C 4.50sq.m.

00324G014 4.42sq.m.

003151010A 8.28sq.m.

STORE

003151008A 8.91sq.m.

00324G015 4.38sq.m.

003154010F 1.98sq.m. CUP.

ADHESIVE 25-80-15/175

CEMENT BOARDS 25-80-95/195

LIGHT STEEL FRAMING 25-15-35/145

FIRE BOARDS 25-80-95/195

00324G005 76.72sq.m.

MALE

FORBATHROOM PLASTERBOARD LINING, REFER TO PARTITION PLANS 00324G016 6.04sq.m.

INFUSION SUITE

POSITION TO BE FINALIZED ONCE CW MANUFACTURER CONFIRMS CW SIZE.

Lift - L01 Plan 1 Plan Lift -L01 Scale 1 : 200

1.1 Lift Lobby

EXTERNAL

Ex RW P

CEMENT BOARD 25-80-95/195 VARIATION LIGHT STEEL FRAMING 25-15-35/145

ROCKW OOL 25-80-95/195 VARIATION PLASTERBOARD 25-80-95/195 VARIATION

LIFT SHAFT

CEMENT BOARDS 25-80-95/195 ROCKW OOL INSULATION 25-80-95/195 FOR PLASTERBOARD LIBING, REFER TO PARTITION PLANS

NOTES:

FIRE BOARDS 25-80-95/195

Dimensions, information and level of detail shown in these drawings is based on measured survey which has been provided by ITC Concept Ltd.

Lift - L07 Plan

Scale 1 : 200

DO NOT SCALE FROM THIS DRAWING. WORK ONLY FROM FIGURED DIMENSIONS. THIS DRAWING TO BE READ IN CONJUNCTION WITH RELEVANT CONSULTANTS DRAWINGS.

KEY PLAN Lift

4.1 Lift Lobby

FINISH RENDER 25-80-79/110

MINERAL FIBRE BOARD 25-80-15/175

GLAZED DOORSET SYSTEM 25-50-20/120 CEMENT BOARDS 25-80-95/195

ADHESIVE 25-80-15/175

Dry riser

Ex RW P

128

DRAWN/CHECKED/APPROVED YO/BW/BW

Not Enclosed

RW Ps

13 13

12.11 m²

DATE 31/01/2020

For Tender.

Copyright. All rights reserved This work is copyright and cannot be produced or copied in any form or by any means (graphic, electronic or mechanical including photocopying) without written permission of the originator. Any license, express or implied, to use this document for any purpose whatsoever is restricted to the terms of the agreement or implied agreement between the originator and the instructing party.

1 Lift

FIRE LINING 25-85-45/170 TYPE B (LL3A)

LOBBY

CURTAIN W ALL 25-80-15/175

FIRE LINING 25-85-45/170 TYPE A (LL2A)

REV T01

Collaborating with the Lead Architect, I was working on the construction details drawings and 3D model for the Lift A Extension of the Hospital, providing new mean of access and contributing to increasing the overall quality of the service. I was closely looking at the construction solutions, incorporating all the aspects of required demolitions, fire rating and ventilation. Working on the construction details, was a great experience where I greatly improved my B Lift - L04 Plan technical knowledge and 4 construction A Lift - L01 floor plan - Callout 1 1 Scale 1 : 200 Scale 1 : 5 understanding. SINGLE BEDROOM 003154010D 10.18sq.m.

WARD AREA

ROCKW OOL INSULATION 25-80-95/195

Lift support zone

FEMALE BATHROOM

MINERAL FIBRE BOARD 25-80-15/175

Ex RW P

4 BED WARD 003154010E 38.11sq.m.

WAITING 3

01 Ex RW P

003155013 6.32sq.m.

Ex RW P

100

LOBBY

003155014 13.39sq.m. DISABLED

SHOWER/ 003155012 WC 6.43sq.m.

FIRE BOARDS 25-80-95/195

Structural bracing

FIRE LINING 25-85-45/170 TYPE A (LL2A)

FIRE LINING 25-85-45/170 TYPE B (LL3A) SINGLE BEDROOM

REV T01

Lift support zone

Dry riser

STORE

LIGHT STEEL FRAMING 25-15-35/145

15 15

RW Ps

ROCKW OOL INSULATION 25-80-95/195

30 1

STORE 003154011B 3.06sq.m.

Structural bracing

003151010 9.94sq.m.

ALUMINIUM CORNER AS PART OF CURTAIN W ALL 003151008B 25-80-15/175 9.51sq.m.

003154011A 6.45sq.m.

SHOWER/ WC

CHAIN OF 003151009C CUSTONDY 003151009D 1.88sq.m. WC 2.48sq.m.

FINISH RENDER 25-80-79/110

Ex RW P

The Lift Extension for the St. Heliar Hopsital in London, is the project I worked on as part of the Medial Architecture office. The Lift Extension part of the intensive refurbishment of the 30 St Heliar Hospital leaded by the Medical Architecture, in order to provide better1 specialist and emergency care and expand the hospital capacity and possibilities. The refurbishment is a a result of the substantial investments by the UK Government into the refurbishment of the hospitals around United Kingdom. EXTERNAL

-700mm

+-0.00

RW Ps

128

KEY PLAN

Not Enclosed

13 13

9.53 m²

100

-550mm

3.1 Lift Lobby

15 15

Lift

0.1 Lift Lobby

1:15 New ramp

Lift

-800mm

1:20 Existing ramp

DATE 31/01/2020

DRAWN/CHECKED/APPROVED YO/BW/BW

003155011 9.45sq.m.

For Tender.

CEMENT BOARD 25-80-95/195 VARIATION

1009 5-bed room

164.90 m²

LIGHT STEEL FRAMING 25-15-35/145 WARD AREA

ROCKW OOL 25-80-95/195 VARIATION

PLASTERBOARD 25-80-95/195 VARIATION

LIFT SHAFT

CEMENT BOARDS 25-80-95/195

NG, NS

ROCKW OOL INSULATION 25-80-95/195

LOBBY

FOR PLASTERBOARD LIBING, REFER TO PARTITION PLANS

D R

NOTES:

FIRE BOARDS 25-80-95/195

Lift - L01 floor plan - Callout 1

FIRE RATED SEALANT 25-80-15/175

Scale 1 : 5

- L02 Plan- Callout 1 Lift 2- L01Lift Floor Plan EXISTING CURTAIN W ALL

Scale 1 : 200

autor of the drawings on the page: Natalia Beata Piórecka with Yvonne Ophaus (supervisor)

FIRE RATED CORNER PROFILE W ITH INSULATION FILLER 25-80-15/175

Lift - L01 floor plan - Callout 2

2.1

Lift

Lift - L05 Plan

Proposed Scale 3D model 1 : 200

4 Northington Street London, WC1N 2JG +44 (0)207 490 1904 www.medical-architecture.com London@medicalarchitecture.com

FOR PLASTERBOARD PARTITION, REFER TO PARTITION PLAN

1 2

Dimensions, information and level of detail shown in these drawings is based on measured survey which has been provided by ITC Concept Ltd.

FIRE RATED SECTION OF CURTAIN W ALL 25-80-15/175

1 5.1

Lift

Epsom & St Helier University Hospitals NHS Trust PROJECT

ICU, St. Helier Hospital, London

FIRE STOP 25-80-79/110 ADHESIVE 25-80-79/110

CURTAIN W ALL FIXING 25-80-15/175 CEMENT 25-80-95/195 VARIATION

Office Work Experience MINERAL FIBRE BOARD 25-80-79/110

110

ROCKW OOL 25-80-95/195 VARIATION FINISH RENDER 25-80-79/110 MECHANICAL FIXING 25-80-79/110

Copyright. All Rights Reserved. This work is copyright and cannot be produced or copied in any form or by any means (graphic, electronic or mechanical including photocopying) without the written permission of the originator. Any license, express or implied, to use this document for any purpose whatsoever is restricted to the terms of the agreement or implied agreement between the originator and the instructing party.

EPDM 25-80-15/175

DO NOT SCALE FROM THIS DRAWING. WORK ONLY FROM FIGURED DIMENSIONS. THIS DRAWING TO BE READ IN CONJUNCTION WITH RELEVANT CONSULTANT'S DRAWINGS.

PVC DRIP 25-80-79/110

KEY PLAN

1 CURTAIN W ALL TRANSOM 25-80-15/175

125

DO NOT SCALE FROM THIS DRAWING. WORK ONLY FROM FIGURED DIMENSIONS. THIS DRAWING TO BE READ IN CONJUNCTION WITH RELEVANT CONSULTANT'S DRAWINGS.

A St Helier LT Top of Lift Store

St Helier LT Roof Level 7.5

82495

80045 DATE 15/01/2020

DRAWN/CHECKED/APPROVED YO/MN/BW

St 29/01/2020 Helier LT DATE

T01

St Helier LT Roof Level 7

78894

For sign off.

80045

For Tender

Roof Level 7.5 DRAWN/CHECKED/APPROVED

NP/YO/BW

1 EstH-ICU-MAA-04-ZZ-DR-A-1251

St Helier LT Parapet Level 7.5 St Helier81295 LT Roof Level 7

St Helier LT Parapet Level 7.5 2200 B

LIGHT STEEL FRAMING 25-15-35/145

81295

ROOF INSULATION 20-50-30/185

Scale 1 : 5

2 REV PL1

St Helier LT Roof Level 7

78894

DATE 15/01/2020

DRAWN/CHECKED/APPROVED YO/MN/BW

DATE 29/01/2020

DRAWN/CHECKED/APPROVED NP/YO/BW

For sign off.

T01 For Tender

CEMENT BOARD 25-80-95/195 VARIATION

REV PL1

DATE 15/01/2020

DRAWN/CHECKED/APPROVED YO/MN/BW

For sign off.

St Helier LT Roof Level 7.5

St Helier LT Level 1 T01

80045

CEMENT BOARD 25-80-95/195 VARIATION

St Helier LT Roof Level 7

DATE 29/01/2020

CURTAIN W ALL TRANSOM 25-80-15/175 DRAWN/CHECKED/APPROVED NP/YO/BW

56170 For Tender

MINERAL FIBRE BOARD 25-80-79/110

78894

Section 1 - Callout 4

ADHESIVE 25-80-79/110

78894

St Helier LT Roof Level 7

ROOF W ATERPROOFING 20-50-30/185

St Helier LT Roof Level 7.5

3 80045 EstH-ICU-MAA-04-ZZ-DR-A-1253

2300

1 EstH-ICU-MAA-04-ZZ-DR-A-1251 St Helier LT Top of Lift Store

EXTERNAL

KEY PLAN

2200

35 3 ROOF BALLAST 20-50-30/185 EstH-ICU-MAA-04-ZZ-DR-A-1253

82495

TBC

PPC ALUMINIUM COPING 25-10-55/160

FOR SUSPENDED CEILING SYSTEM, REFER TO REFLECTED CEILING PLAN

LOBBY

DO NOT SCALE FROM THIS DRAWING. WORK ONLY FROM FIGURED DIMENSIONS. THIS DRAWING TO BE READ IN CONJUNCTION WITH RELEVANT CONSULTANT'S DRAWINGS.

2300

1 50

MIN 150MM

REV PL1

CURTAIN W ALL MULLION 25-80-15/175

KEY PLAN

PPC ALUMINIUM SILL 25-80-15/175

NOTES:

St Helier LT Floor Level 6

FINISH RENDER 25-80-79/110

ADHESIVE 25-80-79/110

Dimensions, information and level of detail shown in these drawings is based on measured survey which has been provided by ITC Concept Ltd.

75138

CURTAIN W ALL FIXING 25-80-15/175

FINISH RENDER 25-80-79/110

NOTES:

St Helier LT Floor Level 6 St Helier LT Floor Level 5

St Helier LT Floor Level 5

71478

Scale 1:101

St Helier LT Floor Level 5

CURTAIN W ALL MULLION ROCKW OOL 25-80-95/195 VARIATION

Section 1 - Callout 5

TORCH ON TANKING

Scale 1 : 5

71478

SELF ADHESIVE MEMBRANE 20-75-30/175

335 St Helier LT Floor Level 4

St Helier LT Floor Level 4

67800

185

TORCH ON TANKING 30-70-90/135

150

125

67800

CURTAIN W ALL MULLION 25-80-15/175

1 EstH-ICU-MAA-04-ZZ-DR-A-1252

64139

St Helier LT Floor Level 2

60160

56170

St Helier LT Floor Level 0 110 55620

St Helier LT Floor Level 0 EstH-ICU-MAA-04-ZZ-DR-A-1251 55620

TITLE

Lift - Sections

CLIENT

Epsom & St Helier University Hospitals NHS Trust

ICU, St. Helier Hospital, London

STAGE

STATUS

PROJECT NUMBER

SCALE @A2

798

1:100

DRAWING NUMBER

EstH-ICU-MAA-04-ZZ-DR-A-1241

TITLE

Lift - Sections STAGE

STATUS

PROJECT NUMBER

SCALE @A2

798

1:100

DRAWING NUMBER

EstH-ICU-MAA-04-ZZ-DR-A-1241

REVISION

T01

REVISION

T01

Scale 1:10

St Helier LT Level 1

CURTAIN W ALL TRANSOM 25-80-15/175

56170

PPC ALUMINIUM SILL 25-80-15/175 ADHESIVE 25-80-79/110

FINISH RENDER 25-80-79/110 MINERAL FIBRE BOARD 25-80-79/110

Thank you!

Section 2 KEY

EXTERNAL

DRAWN/CHECKED/APPROVED YO/BW/BW

4 Northington Street London, W C1N 2JG (0207) 490 1904 www.medicalarchitecture.com Newcastle@medicalarchitecture.com

DATE 31/01/2020

author of the drawingsICU,on the page: Natalia Beat Piรณecka with Yvonne Ophaus (supervisor) St. Helier Hospital, London PROJECT

PROJECT

FOR SUSPENDED CEILING SYSTEM, REFER TO REFLECTED CEILING PLAN

CLIENT

Epsom & St Helier University Hospitals NHS Trust

NOTES:

CURTAIN W ALL MULLION 25-80-15/175

4 Northington Street London, W C1N 2JG (0207) 490 1904 www.medicalarchitecture.com Newcastle@medicalarchitecture.com

REV T01

Scale 1:200

PVC DRIP 25-80-79/110

CURTAIN W ALL TRANSOM 25-80-15/175

Section 1 - Callout 2

Scale 1 : 5

- Dimensions, information and level of detail shown in these drawings is based on measured survey which has been provided by ITC Concept Ltd. - Curtain wall set out depending on existing building and needs to be confirmed on site.

Section 1- Callout 2

For Tender.

EPDM 25-80-15/175

4 Northington Street London, WC1N 2JG +44 (0)207 490 1904 www.medical-architecture.com London@medicalarchitecture.com

Scale 1 : 5

PROJECT

Section 1 - Callout 4

Section 1- Callout 4 3

4000 mm

STATUS

1600

MECHANICAL FIXING 25-80-79/110

REVISION

800

T01

Scale @A1

LOBBY

Epsom & St Helier University Hospitals NHS Trust

4000 mm

ICU, St. Helier Hospital, London

1600

Lift Details 01

800

125

Section 2

Scale 1 : 100

TITLE

Scale 1 : 100

1:5

Scale 1:200

Section 1

Scale 1 : 100

Section 2

STAGE

Scale 1 : 100

PROJECT NUMBER

55620

2 EstH-ICU-MAA-04-ZZ-DR-A-1251 Section 1 1

EstH-ICU-MAA-04-ZZ-DR-A-1251

St Helier LT Floor Level 0

55620

DRAWING NUMBER

56170

MINERAL FIBRE BOARD 25-80-79/110

798

St Helier LT Level 1

56170

HAUNCHING ANGLE FILLET 30-70-90/135

4 EstH-ICU-MAA-04-ZZ-DR-A-1253

ROCKW 4 OOL 25-80-95/195 VARIATION EstH-ICU-MAA-04-ZZ-DR-A-1253 FINISH RENDER 25-80-79/110

2 EstH-ICU-MAA-04-ZZ-DR-A-1251

St Helier LT Level 1

Section 1

CURTAIN W ALL FIXING 1 25-80-15/175 CEMENT 25-80-95/195 VARIATION EstH-ICU-MAA-04-ZZ-DR-A-1253

St Helier LT Level 1

St Helier LT Level 13

56170

2 EstH-ICU-MAA-04-ZZ-DR-A-1252

FOAMGLAS W ITH PAVING STONE ON EDGE 25-80-79/130

W ATERTIGHT CONCRETE TO STRUCTURAL ENGINEER'S SPECIFICATION

1 EstH-ICU-MAA-04-ZZ-DR-A-1253

ADHESIVE 25-80-79/110

3 EstH-ICU-MAA-04-ZZ-DR-A-1251 St Helier LT Floor Level 2

2 EstH-ICU-MAA-04-ZZ-DR-A-1252

60160

2 EstH-ICU-MAA-04-ZZ-DR-A-1253 FIRE STOP 25-80-79/110

60160

St Helier LT Floor Level 2

PPC ALUMINIUM FLASHING 25-80-15/175

CURTAIN W ALL FIXING 25-80-15/175

St Helier LT Floor Level 2

1 EstH-ICU-MAA-04-ZZ-DR-A-1252

2 EstH-ICU-MAA-04-ZZ-DR-A-1253

PLASTERBOARD 25-80-95/195 VARIATION

St Helier LT Floor Level 2 St Helier LT Floor Level 3

60160

St Helier LT Floor Level 3

PPC ALUMINIUM SILL 25-80-15/175

64139

EPDM 25-80-15/175

St Helier LT Floor Level 3

64139

CLIP PROFILE 25-80-79/110

St Helier LT Floor Level 0

55620 CURTAIN W ALL TRANSOM 25-80-15/175

LOBBY

St Helier LT Floor Level 4

MIN 150mm

Dimensions, information St Helier LT Floor Leveland 5 level of detail shown in71478 these drawings is based on measured survey which has been provided by ITC Concept Ltd.

CEMENT BOARD 25-80-95/195 VARIATION PLASTERBOARD 25-80-95/195 VARIATION

71478

Section 1- Callout 6

NOTES:

MINERAL FIBRE BOARD 25-80-79/110

Dimensions, information and level of detail shown in these drawings is based on measured survey which has been provided by ITC Concept Ltd.

ROCKW OOL 25-80-95/195 VARIATION

75138

550

St Helier LT Floor Level 6

75138