Greg Chatfield Part 2 Architectural Assistant Portfolio

GREGORY CHATFIELD

DESIGNPORTFOLIO

2

Gregory ChatfieldPostgraduate architectural student seeking a job as a Part II Architectural Assistant

(+44)7501974867

[email protected]

https://uk.linkedin.com/in/gregory-

chatfield-35b3868a

Elephant House (I) 6 University Masterplan 22Elephant House (G) 12

Written Statement

Architects have a profound and enduring impact on the built environment and landscape, capable of leaving their mark in history. Structures that inspire me are those that celebrate their engineering and use natural forms. There is a place for both contemporary and classically inspired design, controversial and sympathetic. During my undergraduate studies at the University of Edinburgh I expressed my interest and passions in architecture through my design work and academic writing. My designs commonly celebrate the structure and form with references to nature and parametric design. I am a strong advocate of the BIM process, believing it to hugely beneficial for the Architecture, Engineering and Construction (AEC) industry, which led me to pursue this topic for my undergraduate dissertation. Another paper focussed on brownfield sites which are frequently used by clients in the UK. This paper concentrated on the controversial issues raised of whether to demolish buildings on site and lose the history in place of a new build or whether to retain and refurbish the existing building.

I am enjoying my time at the University of Liverpool which has allowed me to continue to express my passion for architecture. I have appreciated the variety of design work on this course, particularly designing an elephant enclosure in detail, and working in groups has been very effective in preparing for designing in practice. I have a strong interest in film especially the correlation between architecture and the celluloid, and under the guidance of Richard Koeck, a leading expert on the subject, I am pursuing this topic for my dissertation.

For more images and projects that I have worked on please visit my website: https://gregchatfield.wix.com/onlineportfolio

Max shear stress

d = 3V = 3 x 21.0 x103 = 1.068N/mm2

d < f

v,d The section is satisfactory for the shear stress

DEFLECTIONPermissible deflection

Permissible deflection = l = 3000 = 20mm

Max deflectionw

ins= 5wL4 + PL3

= 5 x 11 x 8.1 x1013 + 9 x 2.7 x1010

= 4.933mm

Final deflectionw

fin = w

ins (1+k

def) = 4.933 (1+2) = 14.80mm

wfin < permissible The section is satisfactory for the deflection

TOTAL LOAD ON COLUMNP = 5.5 X 2 + 9 = 20kN/m

(half of UDL from both adjacent spans + point load)

Slenderness= L = 3000 = 107.14

thereforekc,y = 0.2859 (from table 3.15)

Permissible stressfc,0,d

= kmod k

c,90 k

ls f

c,0,k = 0.55 x 1 x 1.1 x 26 = 12.1N/mm2

Actual compressive stress

c = P = 20 x103 = 2.062N/mm2

c < f

c,0,d x kc,y The section is satisfactory for the compressive stress

2bh 2 x 100 x 245

100 x 97

150 150

384EIxx

48EIxx

384x11000x213.94x106 48x11000x213.94x106

rxx

28

A

1.3m

EXPLOSION SHOWING CONSTRUCTION

Columns

Balistrade

Decking

Secondary beams

Primary beams

Key for navigating the portfolio:

Conceptual understanding and design intentC

Context and background research to the site and programmeCt

Technical understanding and drawingsT

Theoretical underpinning behind the design intentTh

Development of programme and consideration of usersD

Rendering skillsR

Building Information Modelling (BIM) using Revit ArchitectureB

Physical model making and photographyM

MasterplanningMa

Site visitsS

Environmental considerations and strategiesE

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Navajo Code Talkers 34Lecture Theatre 28

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Architectural Professional Experience

Architectural Assistant at Atkins Walters & Webster (AWW)(2012 - 2015)During my time in practice at AWW I assisted in a wide of range of projects gaining skills in masterplanning, refurbishments and designing residential, hotels, schools, warehouses and offices. Below are some key works that I participated in:

Concept Bids in Manila (Philippines)I was heavily involved in several concept bids including a mixed use scheme named ‘El Pueblo’ which comprised of three skyscrapers linked together with a sky park and a hotel scheme on the waterfront which used a nautical theme as a concept driver.

Derriford Masterplan (Plymouth, U.K.)I was involved in creating the conceptual massing, visuals and diagrams for a document to encourage the planners to include the former airport site to be included within the developable Area Action Plan for Plymouth

Cannon Street (London, U.K.) - Tender DocumentationI was involved in creating a tender document for the conversion from Offices (B1) to Aparthotel (C1). I effectively collaborated with construction team members by attending meetings and distributing drawings. This included coordinating and collaborating with Atlas based in Vietnam who assisted myself in the preparation of the Revit model, drawings and sheet templates.

Southville Primary School (Bristol, U.K.) - RIBA Stage J-KI successfully supported the lead architect in creating the FF&E package for Skanska which included preparing room elevations, floor plans and schedules.

Curriculum Vitae

Education

King Edward’s School, Bath: 2001 - 2009 Nine GCSEs: Seven at A*A Levels: Geography: A | Economics: A | Design Technology: A | Law: A

Undergraduate: The University of EdinburghMA(Hons) Architecture: 2009 - 2013Grade: 2.1

Postgraduate: The University of LiverpoolReading for MArch Architecture: 2014 - 2016

Skills

Excellent visualisations, drawing, model making and craft skillsSkilled with Mac and WindowsRevit Architecture (BIM software) | AutoCADAdobe Suite: Photoshop | InDesign | Illustrator | SketchUp | V-ray | KerkytheaSkilled with digital photography. Basic welding, brickwork and carpentry

Interests

Rugby – 1st team at school, 2nd and 3rd teams at universitySkiing | Hockey | Swimming | Travel | Photography | Working as a Film Extra

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Manila Hotel 48 Cannon Street 54 Southville School 56Dalmarnock HLC 40 Derriford 52El Pueblo 50

AWW inspired environments13

2.6 Relevant Planning History

On12September2013,fullplanningapprovalwasgrantedbytheCityofLondon(ref:13/00319/FULMAJ)fortheconversationoftheexistingofficespace(B1)toanaparthoteluse(C1).

Theproposalsubjecttothisnewplanningapplicationclosely follows the consented scheme and aims to use the same principles which have already been established bytheexistingplanningpermission.

As stated in the consented application documents, pre application advice was previously sought from the City of London Corporation. This advice consisted of two pre-application consultation meetings which were held withMrRobertChipperfieldandMrCliveCornwall.

Records state that during those pre application meetings,noobjectionswereraisedforthechangeofusefromofficetoaparthotel,theheight,scaleandmass.

Nopublicobjectionswerelodgedfortheapprovedapplication.

Illustration showing the consented scheme at the Cannon Street / Garlick Hill corner by Brimelow McSweeney Architects

Knowsley Safari ParkElephant House

POSTGRADUATE - University of Liverpool

INDIVIDUAL WORK

GROUP WORK

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Temperate CowInternal Area

Temperate BullInternal Area

Hot CowInternal Area

Hot BullInternal Area

External Cow Elephant Area

Cow Elephant and Giraffe Area

Giraffe External Area

External Bull Elephant Area

Giraffe House

N

Knowsley Safari ParkIndividual Work

The first semester of the postgraduate's design module was divided into two; Individual work and Group work. This section shows my individual design work for this semester.

The brief was to design a new Elephant House in Knowsley Safari Park as the existing house had become outdated. The owners of the park also wanted to distance themselves from viewing the attractions from the car, and to become more pedestrianised.

The design process started with investigations in elephant culture and the requirements, which informed the design.

The image of the Savannan landscape is synonymous with African elephants, therefore it seemed appropriate to take inspiration for the structural strategy from a Savannan tree - concept sketches are shown on the right page.

It is important that the elephants in the park are happy and content by having exciting feeding strategies and masterplanning the site to create a varied habitat. However as this is for humans to exhibit it is important that they too have a good experience and good interaction with the elephants. The plan has to be practicable for the keepers to do their job successfully.

Elephants and Giraffes coexist peacefully in the wild, therefore to mimic a similar environment seems natural. There are successful examples of elephant and giraffe common areas, e.g. Dallas Zoo.

Ground Floor Plan

T R B M MaTh SCt DC E

7

Internal TemperateArea

Internal HotArea

Plaza

GiraffeHouse

External Bull Area

Mixed Cow Elephant and

Giraffe GiraffeArea

External Cow Area

Restricted access to

treesMain Road

Mixed Bull and Cow Area

Road

Train Route

Raised walkway

Suspended food from walkway

Train stop

Visualisation of siteInitial sketches of tree structure

Initial sketch of proposals to the site

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These pages show visualisations and key sections through the main elephant internal enclosure.

The tree concept is expressed through the grid shell form which contributes to the environmental strategy using ETFE cushions and the feeding strategy (shown in the top section and visualisations).

The first floor viewing platform and balcony that wraps around the circumference of the internal enclosure, provides excellent views of the elephants with minimal disturbance.

A key issue that the keepers raised, was for the elephant to have choice and to be allowed to roam around at their own free will. The layout of the internal enclosure and automatic doors allow for the elephants to roam at their own discretion.

Visualisations of main internal elephant enclosureT R B M MaTh SCt DC E

9

Section A-A

Section B-B

Section B-B

Section A-A

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Thermal MassThe south facing concrete block wall retains heat during the day and releases at night to maintain a comfortable environment

The texture on the wall also allows the elephants to rub against and exfoliate

THE ARUP JOURNAL 1/2002 9

Water strategy

Water conservation is a big issue at Eden. The clay pit hascopious quantities of water derived from rainfall on the pit areaand from groundwater and natural spring sources. All theseare more than adequate for all the Project’s horticulturalrequirements including irrigation and humidification, with asufficient margin to service the fire hydrant system for smallfires and for flushing toilets and urinals. The only water notprovided from natural on-site sources is the potable supplyfor drinking, catering and ablutions.

A water strategy was devised with the civil engineers for a collection and disposal system, plus collection and distribution systems for ‘re-used’ water. The water extractedfrom groundwater and springs is collected and stored in alarge underground tank before being pumped into the waterdistribution system via a filtration and ultraviolet disinfectionplant; water for toilet and urinal flushing is subjected to secondary disinfection by silver ionisation treatment. Excessgroundwater overflows into the site surface water disposalsystem. The re-used water mains network also supplies firehydrants throughout the site, though these can also beserved from the local mains water supply via onsite firepumps in the event of a groundwater shortage or a major fire.

16.Section through typical biome showing environmental strategy.

17.Water strategy.

15.Performance of an ETFE cushion.

Pillow opensfor ventilation

Insulation air ‘pillows’

Planting awayfrom air jets

Waterfall supportsair movement Low level

louvres forventilation

Warm airsupply

Warm airsupplyHeat stored in thermal mass of rock

Heat fromenergy centre


Bodelva Brook

Bodelva Brookbase flow

Groundwater

South West Water

Biomes rainwater

Landscape stormwater

Biome humidification

Evaporation/infiltration

Fire fightingIrrigationWC flushing

Lake

SewerCatering/ablutions

S O U R C E S U S E S D I S C H A R G E S

The team also had to consider what would happen in summer when strong sun could make the enclosures overheat. To neutralise this, automatically controlled openings at the top and bottom of the Biomes open instages, letting the hot air out at the top and drawingreplacement cooler air in at the bottom. The areas and locations for these were designed using the CFD model insummer mode. Plants give out moisture as they grow andthe ventilation system is controlled to reduce this moisturebuild-up if it gets too high. On the other hand, in the HumidTropics Biome, it is often necessary to increase the humidityby fine spray misters.

The automatic control has to ensure that all these systemswork together to achieve the right temperature and humidity.Unlike normal air-conditioned buildings these conditions varycontinually. For example, when there is no sun in winter thetemperature is allowed to drop to a daytime minimum beforethe heating jets are turned on. Conversely, when the suncomes out the temperature is allowed to rise, storing heat inthe rockface until the maximum temperature for the season is reached, and then the ventilation openings are activated.Since the relative humidity depends on the temperature, themisters need to respond to changing conditions to keep thehumidity within the right band. All this is to give the bestconditions to the plants with minimum energy consumption.

Light 80%

Solar gain 90%10%reflected

Insulation

200 microns

Self-cleaning

Air to maintainpressure200-600 pa

1.4W/m2°C

Budget-impelled value engineering exercises necessitatedcombining the grey water and fire mains into a single combined system. Pumps at the bottom of the pit providethe grey water and normal fire supply, whilst emergency firepumps at the top supply the requirements for a major fire.The 60m height difference between the top and bottom ofthe pit made pressure control of the ring main network animportant factor. A duplex design was adopted with one ringmain serving the top areas and another the lower regions;pressure-reducing valves maintain the design pressures ineach of the main areas and the Humid Tropical and WarmTemperate Biomes.

The re-use of rainwater is of particular interest.

The horticulturists wanted the purest possible water to beused for humidification in the Humid Tropical Biome, waterpurity being very important to prevent deposition of mineralson plant surfaces. The best source for this water was considered to be rain from the surface run-off of the Biomes.The rainwater is collected at the base of each Biome using a proprietary enclosed channel drainage system linked tohoppers at the base of each of the Biome main gutters.These, due to their impressive scale, contribute veryeffectively to the collection system.

Water strategy text concludes at foot of page 11 ▼

THE ARUP JOURNAL 1/2002 9

Water strategy

Water conservation is a big issue at Eden. The clay pit hascopious quantities of water derived from rainfall on the pit areaand from groundwater and natural spring sources. All theseare more than adequate for all the Project’s horticulturalrequirements including irrigation and humidification, with asufficient margin to service the fire hydrant system for smallfires and for flushing toilets and urinals. The only water notprovided from natural on-site sources is the potable supplyfor drinking, catering and ablutions.

A water strategy was devised with the civil engineers for a collection and disposal system, plus collection and distribution systems for ‘re-used’ water. The water extractedfrom groundwater and springs is collected and stored in alarge underground tank before being pumped into the waterdistribution system via a filtration and ultraviolet disinfectionplant; water for toilet and urinal flushing is subjected to secondary disinfection by silver ionisation treatment. Excessgroundwater overflows into the site surface water disposalsystem. The re-used water mains network also supplies firehydrants throughout the site, though these can also beserved from the local mains water supply via onsite firepumps in the event of a groundwater shortage or a major fire.

16.Section through typical biome showing environmental strategy.

17.Water strategy.

15.Performance of an ETFE cushion.

Pillow opensfor ventilation

Insulation air ‘pillows’

Planting awayfrom air jets

Waterfall supportsair movement Low level

louvres forventilation

Warm airsupply

Warm airsupplyHeat stored in thermal mass of rock



Bodelva Brook

Bodelva Brookbase flow

Groundwater

South West Water

Biomes rainwater

Landscape stormwater

Biome humidification

Evaporation/infiltration

Fire fightingIrrigationWC flushing

Lake

SewerCatering/ablutions

S O U R C E S U S E S D I S C H A R G E S

The team also had to consider what would happen in summer when strong sun could make the enclosures overheat. To neutralise this, automatically controlled openings at the top and bottom of the Biomes open instages, letting the hot air out at the top and drawingreplacement cooler air in at the bottom. The areas and locations for these were designed using the CFD model insummer mode. Plants give out moisture as they grow andthe ventilation system is controlled to reduce this moisturebuild-up if it gets too high. On the other hand, in the HumidTropics Biome, it is often necessary to increase the humidityby fine spray misters.

The automatic control has to ensure that all these systemswork together to achieve the right temperature and humidity.Unlike normal air-conditioned buildings these conditions varycontinually. For example, when there is no sun in winter thetemperature is allowed to drop to a daytime minimum beforethe heating jets are turned on. Conversely, when the suncomes out the temperature is allowed to rise, storing heat inthe rockface until the maximum temperature for the season is reached, and then the ventilation openings are activated.Since the relative humidity depends on the temperature, themisters need to respond to changing conditions to keep thehumidity within the right band. All this is to give the bestconditions to the plants with minimum energy consumption.

Light 80%

Solar gain 90%10%reflected

Insulation

200 microns

Self-cleaning

Air to maintainpressure200-600 pa

1.4W/m2°C

Budget-impelled value engineering exercises necessitatedcombining the grey water and fire mains into a single combined system. Pumps at the bottom of the pit providethe grey water and normal fire supply, whilst emergency firepumps at the top supply the requirements for a major fire.The 60m height difference between the top and bottom ofthe pit made pressure control of the ring main network animportant factor. A duplex design was adopted with one ringmain serving the top areas and another the lower regions;pressure-reducing valves maintain the design pressures ineach of the main areas and the Humid Tropical and WarmTemperate Biomes.

The re-use of rainwater is of particular interest.

The horticulturists wanted the purest possible water to beused for humidification in the Humid Tropical Biome, waterpurity being very important to prevent deposition of mineralson plant surfaces. The best source for this water was considered to be rain from the surface run-off of the Biomes.The rainwater is collected at the base of each Biome using a proprietary enclosed channel drainage system linked tohoppers at the base of each of the Biome main gutters.These, due to their impressive scale, contribute veryeffectively to the collection system.

Water strategy text concludes at foot of page 11 ▼

Blank PanelsThese are used to prevent to much solar gain in the human

Roof MonitorA circular roof monitor with venting panels allows for natural ventilation within the main public areas.

ETFE PillowsThe grid shell tree’s roof uses triple ETFE cushions. They create a U Value of 1.4W/(m2°K) which is better than double glazing. The ETFE has a light transmission for a single sheet of around 95%. This reduces the heat loss at night and allows the maximum amount of light during the day.

Ventilation panels are distributed over the roof to prevent overheating through stack ventilation. The ETFE can span up to 11 metres so this reduces the structural load.

Single ETFETo maintain good thermal properties and not to visually impair the viewing deck, a single ETFE is used in the viewing areas. Glass was avoided as there is a high probability that an elephant could knock into the structure and the vibrations travelling up the steels could shatter the glass.

Geothermal PilesDeep piles are needed to secure the steel trees, so it is logical to use them for geothermal heating.

PoolWater has the highest thermal storage capacity and also increases the circulation of air.


These pages focus on the environmental and structural strategies of the building.

African Elephants are accustomed to a hotter drier climate, which the main space provides by using ETFE Pillows and thermal mass to heat the space at night. However it order to keep the human areas cooler, blank panels are used in the grid structure to provide shade and roof monitors are utilised for natural ventilation.

The diagrams on the right page, show how the grid shell structure is connected to the rest of the building.

Environmental Strategy


11

24/01/2015 00:52:40

Grass enveloping bank

Grid Shell and Roof

First Floor

Ground Floor

Foundation

Terrain

Triple ETFE cushions

Roof monitor

Empty grid to allow feeding for elephants

ETFE Single skin

Geothermal piles

Gutter for rainwater drainage

Glass partition between grid shell and roof and floor

Raised walkway supported by cable to the roof

Ring Beam to sit on top of enclosure wall

Blank panel to prevent too much solar gain to the human areas and cover some service and toilet areas

External ring beam to keep the tree structure shape in tension

Exploded Axonometric 3D Sections showing structure

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Knowsley Safari ParkGroup WorkGroup Members: Greg Chatfield, Lee Higgins, Ben Simpson

After the individual Elephant House project was completed, we assembled in groups and decided which project to pursue in further detail. The following pages show the developed design of this chosen project.

The right page shows a site plan of the safari park and the Elephant House's location. The Second floor plan below shows how the human areas interact with the elephant areas, by a ramp which circulates around the enclsoure providing great views of the elephants.

This project also uses tree structures to hold up a canopy, however they are multi-functonal. Different tree structures allow for circulation, elephant feeding, rain water harvesting, light wells and energy creation through geothermal piles which are shown on later pages. An expolded axonometric on the right page shows the circulation around the tree.

The visualisations on the right page show the view of the elephant house from the lakeside (top) and views of the external enclosure (bottom).

T R B M MaTh SCt DC ESecond Floor Plan

Site Plan

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26/0

1/20

15 1

7:57

:19

Roof

Grid Shell

Glass held off the tree structure by spider system

Tree structure with floor plate offset

Spiral staircase wraps around the tree struc-ture

Concrete Geothermal piles

EXPLODED CIRCULATION AROUND THE TREE

View from Lakeside

View from external enclosureExploded Axonometric of tree circulation

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This double spread shows a 1:20 detailed section through the main internal enclosure.

To the right are a selection of 3D Detail Axonometrics, originally at 1:10 scale, showing how the some of the key junctions work.


1

2

15

Steel hollow circular section edge beam

Concrete pile foundation

Oak batten to match rainscreen

Steel connector plate

Membrane layer

Quadruple layer of 8mm plywood diaphragm

100mm thermal insulation

100mm thermal insulation

Performed metal gutter

5mm slotted shoe with hinge connection

20 x 100mm oak rainscreen boards

Hinge Pin with anchor bolts into concrete foundations

1:40

EDGE BEAM TO GROUND DETAIL

20mm Glazing

100mm Insulation

200mm Concrete wall

240mm Concrete composite deck

305mm x 165mm Steel I Beam

150mm Concrete retaining wall

Metal sheet finish

HILL STRUCTURE DETAIL - 2ND FLOOR JUNCTION

No scale

420mm steel hollow circular section edge beam

Steel connector plate

Quadruple layer of 8mm plywood diaphragm

Gridshell Structure

20x 100mm oak rainscreen boards

5mm slotted shoe with hinge connection

1:20

RING BEAM AND GRID SHELL JUNCTION

3

1 Edge Beam to Ground Detail

2 Ring Beam and Grid Shell Junction

3 Earth, Floor and Curtain Wall Junction

Section 1:20 at full size

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PASSIVE / ENVIRONMENTAL STRATEGY

Septic Tank

Rainwater Harvesting

Filtration Boiler

Rainwater is collected using the trees and transported to the water tank in the plant room

The purified water is distribut-ed to toilets and for tap water via the service ducts located around the core and through hollow sections in the floor

Sewage from the toilet is transported to a septic tank which is then emptied periodically.

GREY WATER COLLECTION AND USE


This spread shows the environmental considerations involved in the project. The diagrams on the left page show how the rainwater is harvested and distributed for tap and toilet water.

The top left diagram on the right page, shows how the geothermal piles are used to generate hot water and supply some of the building with electricity.

The bottom left diagram, identifies the feeding strategy in the pens, using the structure of the trees to act as a challenge to the elephants to get their food.

The far diagram shows an exploded axonometric of the whole building.

T R B M MaTh SCt DC ERain Harvesting Strategy

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26/0

1/20

15 1

9:22

:05

Geothermal piles are used for heating and to help supplement the electrical supply. Cold water is pumped down into the piles, which are heated by the constant warmer ground temperature. The hot water is then pumped back into the plant room for distribution around the building.

The geothermal piles can also be used for creating electricity with a small turbine and generator.

Key

Cold waterHot waterHot water distributed around the building

Plant Room

Tree structure that sits above plant room acts like a cooling tower/ chimney to release the hot air.

Turbine

Generator Heat pump

Hot water storage cylinder

Electricity supplied to the building

Hot water distributed around the building

HEATING STRATEGY - GEOTHERMAL PILES

ELEPHANT FEEDING STRATEGY

29/01/2015 04:12:02

Rain screen cladding

Ring Beams

Glass held by spider system

Grid Shell structure

Second Floor

Ramp

Ground and First Floor

Internal terrain and foundations

External topography

EXPLOD

ED A

XON

OM

ETRIC OF BU

ILDIN

G

Stack Ventilation

Natural daylighting

Feeding Area in pens

Exploded AxonometricFeeding Strategy

Geothermal Piles

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This page shows a selection of models that were made for the group project.

On the right page, the picture on the top left shows a conceptual model of the grid structure for the roof.

A 1:500 Site model was made (bottom right) showing the manipulation of the topography and how the building becomes part of the landscape. A 1:20 detail of the base connection between the plywood and metal shoes and concrete piles is shown (top right).

The left page shows pictures of a 1:20 sectional model through a key part of the internal elephant enclosure.

T R B M MaTh SCt DC ESite Model 1:500

Detail of base connection 1:20Conceptual Model

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FINAL IMAGES

Sectional Model 1:50

University MasterplanCampus & Lecture Theatre

GROUP WORK

INDIVIDUAL WORK

POSTGRADUATE - University of Liverpool

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MAIN PEDESTRIAN ROUTES

We counted the number of people on the street during busy lecture change over period. Those numbers are represented in the line weights to show popular pedestrian routes.

Observations:

- The main pedestrian traffic is around the student services buildings and food stores in central campus.

- The main pedestrian traffic occurring in the south campus is the main route to the library and food store.

- There are many crossing points and areas where right of way is unclear and conflicts between pedestrians and cars occur.

Reactions:

- Improve and link main pedestrian routes to create a pedestrianised spine.

- Improve pedestrian links to the city centre

Abercromby Square

University Square

MAIN PEDESTRIAN ROUTES


Observations:




Reactions:

- Improve and link main pedestrian routes to create a pedestrianised spine.


Abercromby Square

University Square


Observations:




Reactions:

- Improve and link main pedestrian routes to create a strong pedestrian spine.


KEY PEDESTRIAN ROUTES BUILDING USES

Observations:

- 11% of campus buildings are student accommodation, the majority is to the south of the campus.

- 16% of campus buildings are student serves, most are clustered around ‘University Square’.

- Utilities buildings make up 2% of campus buildings and are located in the north campus.

- Mostly low rise residential housing is located to the east and south of campus with a clear connection on the south boundary, whilst commercial buildings are located to the north and west.

- There are relatively few shops on site and these are small and often crowded during peak times.

- There are 2 cafés dotted around the university although many are very tucked away with little signage and often students are unaware of them.

Reactions:

- Ensuring student services buildings are located along a central pedestrianised spine will ensure an active and engaging environment.

- The majority of student accommodation and residential housing is located east and south therefore including more amenities in these zones would serve both the students and the surrounding community.

University Square

Abercromby Square

Observations:







Reactions:

- Ensuring student services buildings are located along a central pedestrian spine will ensure an active and engaging environment.


BUILDING USESBUILDING USES

Observations:







Reactions:

- Ensuring student services buildings are located along a central pedestrianised spine will ensure an active and engaging environment.


University Square

Abercromby Square

The University of Liverpool MasterplanGroup WorkGroup Members: Greg Chatfield, Lee Higgins

The brief concerned analysing the University of Liverpool in order to make adjustments to the masterplan to better the campus. After finalising the masterplan, the next assignment involved choosing a building to develop individually.

A lot of analysis was conducted including building typologies, listed buildings and conservation sites; pedestrian, bicycle, car and bus routes, proximity to train station, attractions in and around the campus.

The right page shows the initial ideas and lines of site. The initial ideas are summarised as follows:

- Larger usable green spaces, more students so more social space needed- Improve pedestrian links throughout Campus and to City Centre- Pedestrianise University Square- Place amenities at Campus boundary to improve relationship with community- Introduce train station on site to serve Campus, Hospital and Community- To relocate car parking to the periphery of the campus- Introduce train station on the site to serve the Campus, Hospital and local Community

Student’s Union Multi Use Lecture Theatre

GeographyFaculty

Radiology Physiology University Hospital

SecurityMulti Use Lecture Theatre

School of ArtsArchaeology Law & Humanities Faculty

Physics Faculty Multi-Use Lecture Theatre

LaboratoriesSecuritySports Pitches and Viewing Area

Cafe John Moores University

Metropolitan Cathedral

Multi-storeyCar Park

Section A-A

Section B-B

Visualisation of the Main Spine

Section A-A

Section B-B

SITE SECTIONSScale 1:1250

Student’s Union Multi Use Lecture Theatre

GeographyFaculty

Radiology Physiology University Hospital

SecurityMulti Use Lecture Theatre

School of ArtsArchaeology Law & Humanities Faculty

Physics Faculty Multi-Use Lecture Theatre

LaboratoriesSecuritySports Pitches and Viewing Area

Cafe John Moores University


Multi-storeyCar Park

Section A-A

Section B-B

Visualisation of the Main Spine

Section A-A

Section B-B

SITE SECTIONSScale 1:1250

T R B M MaTh SCt DC EHistorical Buildings and Conservation SitesPedestrian Routes

Site Section

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Campus Site Boundary

Univeristy of Liverpool Buildings

Buildings surrounding campus

Legend:

Site Plan of Main Campus 1:2500@A2

LEGEND:

Key Buildings

Key Towers

Existing Visual Links

Possible Visual Links

Possible Location of Train Station

Visual LinksCampus Boundary

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Victoria Building Tower


Tower

Radio City Tower

Wellington’s Column

City Centre

Liver Building

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Visual link between train station and Victoria Building

Visual link between train station and hospital

Possible visual link to Cathedral

Visu

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Visual link between train station and hospital

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VISUAL LINKS

Campus Site Boundary

Univeristy of Liverpool Buildings

Buildings surrounding campus

Legend:

Site Plan of Main Campus 1:2500@A2

LEGEND:

New/Improved Pedestrian Links

Pedestrianised Areas

New/Improved Car Routes

Possible Underground Parking Zones

Existing Large Green Spaces

Proposed Green Space

Existing Retail Frontage

Proposed Reatil Areas

Key Buildings

Possible Location for Train Station

Train Station to serve, campus, hospital and community

Link between Hospital and Train Station

Green Space surrounded with retail - to serve both

University and College Students

View to Cathedral

Parking located on Campus perimeter

Amenities at boundary to serve campus and hospital staff and visitors

Pedestrian Zone

Amenities at boundary to serve campus and

community

Animate Abercromby Square

To C

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Initial Ideas- Larger usable GREEN SPACES, more students so more social space needed- Improve PEDESTRIAN LINKS throughout Campus and to City Centre- Move PARKING underground- PEDESTRIANISE University Square- Place AMENITIES at Campus boundary to improve relationship with COMMUNITY- Introduce TRAIN STATION on site to serve Campus, Hospital and Community

INITIAL IDEAS- Larger usable GREEN SPACES, more students so more social space is required- Improve PEDESTRIAN LINKS throughout the campus and city centre- To relocate CAR PARKING to the periphery of the campus- PEDESTRAINISE the University Square- Place AMENITIES at the campus boundary to improve relationship with the local COMMUNITY- Introduce TRAIN STATION on the site to serve the Campus, Hospital and local Community

Initial Ideas Lines of Sight

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The University of Liverpool MasterplanGroup WorkGroup Members: Greg Chatfield, Lee Higgins

This spread shows the masterplan and associated visualisations. The main area that we chose to develop was the university square being at the heart of the campus. Currently the area is a large expanse, which is often busy with human traffic and hosts market stalls on occasion. We decided to better direct the pedestrian traffic, and provide designated areas for local businesses to sell their produce (shown bottom right plan and visualisation).

A train station was also proposed from the analysis, and it was key to provide clear lines of site to recognisable landmarks to better orientate new students. Analysis revealed that a defined bicycle route was needed through the campus directing students from the east - which hosts two main student halls, through to the centre of campus.

This masterplan would obviously have to phased due to practicalities, some of which is shown below.

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Erection of Security and Faculty offices on the site of existing central campus car park

PHASE 1

Erection of Multi use lecture theatres on site on the site of existing central campus car park

New larger Nursery to be built to keep up with increasing demand

Erection of laboratories behind the library

New car park on the campus periphery to draw cars out of the centre

Movement of Nursery to new location before Phase 2

Physical Science sector temporarily moved to new laboratories

Relocation of Security faculty to new building before Phase 2

Demolition of Physical Sciences building in preparation for Phase 2

Proposed Buildings

Refurbishment

Demolition

Movement

Key

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Erection of Foundation building and student health

Refurbishment of Bedford House with extension to East and South into student accommodation

New car park on site of old nursery

Physical Sciences to move back into new building whilst Integrated Biology moves in

New Physical Sciences buildings

Proposed Buildings

Refurbishment

Demolition

Movement

Key

New workshops and lecture halls

Demolition of student halls at the start of Phase 3

Demolition of Blackwells bookshop at the start of Phase 3

Demolition of Math’s and Civil Engineering tower bookshop at the start of Phase 3

Computer Services to move into new Foundation building before Phase 3

Integrated Biology building to be demolished at the start of Phase 3

Removal of the old student health

Removal of the front of the Foundation building to prevent restricting views of the Metropolitan Cathedral from the square

PHASE 2

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Erection of new student union building

New student accommodation at the back of the Mount Pleasant Grade II listed building. Ground Floor parking accessible from the east.

New transport hub

Biology to move into new building

New cafe’s and restaurants with stepped seating onto roof to watch the games pitches

Proposed Buildings

Refurbishment

Demolition

Movement

Key

New Biology building

Redesign of new University Square

Relocation of road to keep vehicular traffic further from the square

New main green spine to the running from north to the south of the campus

New Electrical and Civil Engineering building

Civil Engineering to transfer to new building

New access road to the student accommodation

New lecture theatres

New green spaces in between the Infirmary buildings

Link from transport hub to the university square to mimic the trainline below

Removal of this section of Brownlow Road and pedestrianising the area

Demolition of old Electrical buildings at start of Phase 4

New sport pitches

PHASE 3

Train Station

Student Union

University Square

Abercromby Square


Victoria Building

University Hospital


Proposed Buildings

Existing Buildings

University Campus Plan

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25

MAIN SPINE

RETAIL OUTLETS IN SHIPPING CONTAINERS

VISUALISATION OF UNIVERSITY SQUARE

CYCLE ROUTE TO CENTRAL CAMPUS

UNIVERSITY SQUARE PLAN

Multi- functional stalls are orientated based on the

outline of the square

Paving in the space is carved up by the journey from building to building

Seating areas along the main route provide social

boothsVictoriaBuilding

AtriumStudy Area

Multi-useLectureTheatre

NewGuild

Reilly Building

Hierarchy of pathways is established at the

junction of the rail spine and main spine with the continuation of the main

spine

Main spine continues through the square

A large performance area is situated on the square providing further reasonsto attract people to the

squares

Shipping Containers used as retail and food outletsCyclist route

Proposal for University SquareUniversity Square Plan

Storage provided to promote cycling around campus

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The University of Liverpool MasterplanGroup WorkGroup Members: Greg Chatfield, Lee Higgins, Ben Simpson

This spread shows a 1:200 model of the main spine of our masterplan which includes our invidual models.


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The University of Liverpool MasterplanIndividual Building - Multi-Use Lecture Theatre

I selected to design a lecture theatre whose ground floor could adapt into an exhibition space for student alumni and other university associations.

Siting on the main node of the campus, the University square, the building had to consider and respond to the routes that people would approach the square from, shown in the diagram on the right. Several culturally important buildings lie around and in close proximity of the square, the Reilly, the Victoria building and the Metropolitan Cathedral. My aim was the create views out to these buildings from the lecture theatre’s break out spaces.

The positioning of this lecture theatre was considered in relation to the other multi use lecture theatres, all being within a close proximity of each other within the centre of the campus.


Key:

1 Stairs with storage underneath2 Kitchen3 Social / Cafe Area4 Lecture hall5 Large lecture hall / Exhib space6 Private study room / Office7 Cores8 Storage

20 m2

20 m2

200 m2

160 m2

225 m2

16 m2

18 m2

10 m2

Key:

1 Stairs with storage underneath2 Kitchen3 Exhibition Spaces 4 Private study room / Office5 Storage6 Cores

20 m2

20 m2

15 m2

10 m2

18 m2

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Lecture Theatre - Seating Areas

Lecture Theatre - Exhibition Areas

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Victoria Building

Reilly Building

Proposed Lecture Theatre

Student Halls of Residence

New Students Union

Multi Use Lecture

Multi Use Lecture

Physics Lecture Theatre

Multi Use Lecture

View of lecture theatre building from Train line spine

Key view from main

spine

Main views are from the University

Square

Views from the Lecture Theatre

Views of the lecture theatre from the main arterial routes

Proximity of lecture theatres

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The University of Liverpool MasterplanIndividual Building - Multi-Use Lecture Theatre

On the left page are visualisations of internal spaces, one framing the view of the Reilly and Victoria Building and the other of the exhibition spaces.

In order for the areas to transform into an open plan this required retractable seating as shown on the right page.

The subsequent drawings on the right show the ground floor hosting the lecture theatres and how it transforms into an exhibition space. All of the lecture seating is controlled independantly in each room, so there can be a mix of lectures and exhibition spaces. Storage areas surrounding the rooms provide space for the plinths and display cases for the exhibitions.

During times of exhibition the seating folds down into the floor and the walls of the front lecture theatre retract to create one large open space. In the summer and spells of good weather, the doors on the side of the lecture theatres can open onto the train line spine and other routes, allowing passers by to catch glimpses of the exhibits and wander inside.


Cafe overlooking Reilly and Victoria Building

Exihibition Spaces

31

Lecture Theatres Exhibition Spaces

Retractable Seating Developed retractable seating idea

Navajo Code TalkersMuseum and Veteran Centre

POSTGRADUATE - University of Arizona

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Navajo Code TalkersConceptual Group WorkGroup Members: Greg Chatfield, Lee Higgins

One achievement of which I am particularly proud is participating in the study abroad programme at the University of Arizona in the autumn of 2015. During my time I adapted to new design approaches, graphical styles and skills.

My university work involved a client based scheme for the Navajo Code Talkers, a sensitive and very culturally important project, designing a museum and Veteran Centre.

The Navajo Culture is a huge aspect of this project, the approach to design needs to be respectful and aware of key Navajo cultural ideas, customs and philosophies. Some of the key elements that will need to be incorporated into the design are: - East Entrance.- Centrality of the Hogan with hearth as the center and the idea of Navajo life centered around family.- Connection with the land as they were to taught to live in harmony with mother earth and father sky.

In Navajo cuture there is a strong relationship to the land and the sacred peaks that needs to be illustrated. The project aimed to merge the building with the landscape to create a more harmonious relationship whilst also creating monumental buildings.


Concept - Establishing a connection with the land through protruding and recessed architectural forms

Final Model showing the development of this concept

35

Establishing a community with a building that emulated a village on the top of the hill

Veteran Museum submerged into the landscape Interior of Veteran Centre

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Navajo Code TalkersConceptual Group WorkGroup Members: Greg Chatfield, Lee Higgins

Family and community are both fundamental aspects of the Navajo culture. One of the main cultural points previously mentioned was that Navajo life centered around family and this is reflected in the design. Creating a community creates a consistent communication that will greatly benefit the Navajo Code Talkers in telling their story. Interaction is an integral part of community and can be used as a platform to educate visitors.

By providing areas between the Navajo Code Talkers Museum and the Veteran Centre enables interaction between the public and Veterans. The space embraces the contours of the land, using terraces and steps with integrated ramps. The terraces will display personal Veteran stories.

As well as a large communal area for the Veterans and museum visitors to interact, there is a more private space at the entrance of the Veteran Centre for the Veterans.

Ground floor circulation through the Veteran Museum

37

Communal area between the veteran museum and centre which encourages interaction between the public and veterans

Private external area for the veterans Atrium space within the Veteran Centre

UNDERGRADUATE - University of Edinburgh

Final Year ProjectHealthy Living Centre

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DalmarnockConcept to the Final Model

Investigating Anish Kapoor’s and Cecil Balmond’s ‘Temenos’ (shown bottom left) led to studies concerning manipulation of forms and shapes. Initially a literal approach was taken, modelling the form using tight material stretched over two rings and pulled taut. However this created a status quo in the middle so I continued warping the shape by manipulating the different axes.

This manipulation of the form inspired me to create a flowing undulating canopy which has a sense of anti gravity that appears to float over the building. The canopy would be a steel mesh structure (250Ø) with PTFE inserts due to the double curvature.

The aim is to create an iconic, gateway building to the Commonwealth Games.

T R B M MaTh SCt DC EStudies into manipulation of the formTemenos

41

View from roundabout after Games - Illusion that the canopy floats over the landscape

Aerial view showing bridge connection & HLCAfter Games - HLC and arcaded shopping routeFloating canopy illusion - Structural posts hidden within building

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The plans on the left page show the building before and after the Commonwealth Games. The latter shows how the doctors’ surgery will be added after the games have finished.

The visualisations on the right page show the transformation from during to after the Games.

The detailed section shows the materials and construction of the doctors’ surgery scheduled to be built after the games had finished to serve the local community.

The exploded axonometric shows where the canopy sits in relation to the building underneath.

Dalmarnock MasterplanHealthy Living Centre


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Key:

1 Multi Purpose Hall2 Uni Sex Changing room3 Hall Reception / Office4 Storage5 Dolly Lift for Kitchen6 Deliveries7 Main Lift8 Lobby / Entrance9 Training Centre Office10 Toilets11 Circulation12 Breakout Area13 Training Room14 Training Room15 Commonwealth Games stalls

210 m2

25 m2

6 m2

15 m2

2 m2

4 m2

2 m2

38 m2

13 m2

15 m2

9 m2

18 m2

14 m2

14 m2

1

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Key:

1 Multi Purpose Hall2 Uni Sex Changing room3 Hall Reception / Office4 Storage5 Dolly Lift for Kitchen6 Deliveries7 Main Lift8 Lobby / Entrance9 Training Centre Office10 Toilets11 Circulation12 Breakout Area13 Training Room14 Training Room15 Disabled Toilet16 Storage17 Wheelchair lift18 Reception / Waiting room19 Circulation20 Consulting room21 Consulting room22 Consulting room23 Landscaped seating for stage viewing

210 m2

25 m2

6 m2

15 m2

2 m2

4 m2

2 m2

38 m2

13 m2

15 m2

9 m2

18 m2

14 m2

14 m2

4 m2

3 m2

1 m2

51 m2

12 m2

22 m2

18 m2

20 m2

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Welcoming Centre - During Commonwealth Games

Healthy Living Centre - After Commonwealth Games

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Steel ‘I’ Beam with 150mm acoustic insulation for sound deadening between floors

Insitu Concrete screed

Wooden flooring, 25mm thick

Aluminium panel cladding.

System on met-sec

150mm Rigid Insulation

Steel column

150mm reinforced concrete slab

150 mm rigid insulation

Damp proof membrane

Wooden flooring, 25mm thick

Aluminium framed single window

630 x 1200 Deep

Steel column running behind

Insulation running in between steel columns to prevent cold bridge

Pins fixing steel columns and I beam

together

Aluminium framed single window

630 x 1800 Deep

Plasterboard 12.5mm

Plasterboard 12.5mm

Steel ‘I’ Beam

Mineral boardRigid Insulation 150mmMarine Plywood 19mm

EPDM membrane

150mm soil with grass and bushes

on top

Roof light Aluminium framedTwo bars, 1500 x 1000mm

Upstand of 150mm

Visualisation - During Commonwealth Games

Visualisation - After Commonwealth Games Detail Doctors’ Surgery Exploded Axonometric

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Dalmarnock MasterplanHealthy Living Centre

This 3D perspective section shows how the canopy relates to the building underneath. It it used to provide an external covered area protecting people from the south westerly winds and flows into forming the roof of the multipurpose hall.

Below are visualisations of certain areas within the Healthy Living Centre, including the waiting room in the doctors’ surgery, the training centre break out space, view down the arcade from the roof cafe and the multi-purpose hall.

The hall is shown during the Commonwealth Games as a welcoming area with stalls for visitors to enquire about the Games. After the Games it could be used for various activities including as a gym, for indoor games and for theatre productions along with

terraced seating outside.

T R B M MaTh SCt DC EDoctors’ Surgery waiting room Training Centre breakout

3D perspective section after the Games

45

Roof cafe view down arcade Hall use during the Games Hall use after the Games

Collection of my work from AWW

PROFESSIONAL PRACTICE - AWW

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Manila Hotel | Concept Design

As a feasibility study for a client, a number of hotel options were considered on the site next to the World Trade Centre (WTC) in Manila, Philippines. There are few skyscrapers in Manila of any note, so the client wanted something iconic that would define the capital’s skyline. It was also important for there to be a connection between the WTC and the hotel, as it linked into the business centre and conference rooms held on the first few floors of the new building.

Three options were conceived, the first named “The Spinnaker” pays tribute to Manila’s nautical history as the site was so closely located to the coast, with a sweeping sail shaped tower defining the entrance to the hotel. There was a strong linkage between the WTC and hotel as the profile of the WTC’s roof was continued into the bottom of the sail.

The second, “The Twister” hosts a rectangular floor plate being rotated a total of 80 degrees from ground to roof level. This proved challenging having to split the core due to the nature of the twist however the link between the WTC and this option was not as strong.

The third option was the most conventional, consisting of a semi circular tower with extruding scissored floors.


Spinnaker Concept

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Twister Concept Scissor Concept

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Main View of scheme

El Pueblo - Manila | Bid

A conceptual design was developed to a relatively detailed proposal displayed in a document for the client.

For this project, I predominantly collaborated with Kara de los Reyes, a RIBA qualified architect, who was born in Manila and has intimate knowledge of the area. In conjunction with Kara, I was involved in designing and creating the Revit file from which all drawings and visualisations were taken.

The intention was to keep this area as an attractive and popular location. This was achieved by creating a plinth and having a raised roof garden on the sixth floor above the smog and pollution of the highway, giving the illusion of an oasis in a city, and also provided five floors of car parking for residents and visitors. This roof garden provides access to a multitude of shops, cafes and restaurants.

Two towers are located on the plinth, providing office space in the taller tower and residential in the lower. The third tallest tower is at the back of the site and would be predominantly used for office space. The shape of the towers was informed by many factors. The client expressed interest in the Beirut Terraces by Herzog & de Meuron which provides large terraces and the idea of a vertical garden. Filipinos like inside/outside spaces however there is also the need for shade due to the intense high sun.


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Apartment layouts for lower tower

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Derriford Masterplan | Appeal regarding the Area Action Plan

With the closure of the airport in Plymouth, the owners of the land wanted to redevelop the area into a new district centre however the council disagreed discarding it from the Area Action Plan (AAP). The site was a prime location for a district centre to provide a range of services including offices, restaurants, bars and retail to the local area thus creating more jobs in the north of Plymouth.

I assisted AWW in producing a document proposing a phased masterplan for the area and evaluating it with other proposals to get the area included in the AAP. I was assigned to produce key views (shown right) partnering with a CGI company to show the proposal’s attractiveness.

The Former Airport Site (FAS) was compared with other proposed district centre masterplans in the area particularly in the North West Quadrant (NWQ). The walking catchments (1.5km) of the areas were compared using isochrones and land use, shown on the right page along with the landuse / building typology within each area.

To show the advantage of the AWW masterplan it was evaluated against the NWQ, comparing the built form, area access, green areas, topography, retail, residential and site analysis. Examples of these are show on the right page.


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Key view rendered

Masterplan: Phase 1 Masterplan: Phase 2 Masterplan: Complete

53

Key:

Residential

Employment

Education

Healthcare

Retail

Leisure

Park & Ride

1.5kmradius

Centre of 1.5km threshold

1.5km Isochrone

Former Airport Site

North-WestQuadrant

N

N

Key:

Residential

Employment

Education

Healthcare

Retail

Leisure

Park & Ride

1.5kmradius

Centreof 1.5km threshold

1.5kmIsochrone

North-westQuadrant

FormerAirport site

North West Quadrant:

key:

A386

High density built form

Medium density built form

Low density built form

Built Form

scale

0 50 100 150 200 250mn

Former Airport Site:

key:

A38

6

B3432

High density built form

Medium density built form

Low density built form

Built Form

Key:

Residential

Employment

Education

Healthcare

Retail

Leisure

Community

MOD

Mixed Use

Transport

1.5kmradius

Centre of 1.5km threshold

1.5km Isochrone

North-westQuadrant

Former Airport site

NN

scale

0 50 100 150 200 250m


key:

nBUS STATIONPARK & RIDE

GRASS LAND

BROW OF HILL

REDUNDANT AIRFIELD

SLIGHT EARTH MOUNDINGUTILITIESZONE

PREVAILING SOUTH WESTERLY WINDS

CAR PARKING

HANGER AND PART OF RUNWAY TO BE DEMOLISHED

HANGER

GOODPERMEABILITY

CONCRETE PATHWAY

HIGH T

RAFFIC F

LOW A

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E & P

OLLUTION

A386 B3432

VIEWS OUT TO DARTMOOR

RESIDENTIAL ZONE2 STOREYS

RESIDENTIAL ZONE2 STOREYS

NEW UNIT3 STOREYS49 D/HA

RESIDENTIAL

RESIDENTIAL2 STOREYS

RESIDENTIALZONE

GRADIENTSDOWN TOWEST

Falling gradient away from site

Site Analysis

SUN

PATH

Permeability

Prevailing Winds

Service Zone

High traffic flow (acoustic impact)

Less traffic flow (acoustic impact)

GOODPERMEABILITY

FLOOD MITIGATION ‘RED’ ZONE

GAS MAIN

BIRCHAMVALLEY

PLYMBRIDGEVALLEY

Gas Main


key:

Green Corridors

green corridors

main areas of public open space & landscaping


n

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Prevailing Winds

High traffic flow

Less traffic flow

Poor visibility onto site

SUN

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Site Analysis

PREVAILING SOUTH WESTERLY WINDS

STEEP GRADIENTDOWN TOSOUTH

A386

LACK OF GATEWAY OPPORTUNITY DUE TO POOR VISIBILITY OF SITE

scale

0 50 100 150 200 250mn


key:

green corridors

main areas of public open space & landscaping

Green Corridors

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FAS Landuse Diagram

NWQ Landuse Diagram

FAS Building Density

FAS Green Corridors

FAS Site Analysis

NWQ Green Corridors

NWQ Building Density

NWQ Site Analysis

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Cannon Street | Tender Documentation

The conversion of Cannon Street would result in a change of use from Offices (B1) to Aparthotel (C1) with retention of separate Class A1, A2 and A4 uses at ground floor level. Additionally there would be a new mansard roof extension to 40-42 Cannon Street and 15 Great St Thomas Apostle; part demolition of ground, first and second floors to the rear of 15 Great St Thomas Apostle within courtyard; re-configuration of external and internal circulation routes and improvements to the external elevations of the existing buildings.

This project involved collaborating with other members of the construction team - attending meetings and distributing drawings to the rest of the team. This included working together with Atlas based in Vietnam who are employed to assist the construction of the Revit model, drawings and sheet templates.


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36.44 m²392.2 ft²

1 BedFlat 48

32.27 m²347.3 ft²

StudioFlat 47

31.32 m²337.1 ft²

StudioFlat 49

27.57 m²296.8 ft²

StudioFlat 50

39.29 m²422.9 ft²

1 BedFlat 46

41.61 m²447.8 ft²

1 BedFlat 45

28.44 m²306.1 ft²

StudioFlat 43

36.44 m²392.3 ft²

1 BedFlat 44

33.05 m²355.7 ft²

1 BedFlat 41

38.01 m²409.2 ft²

1 BedFlat 42

35.41 m²381.2 ft²

1 BedFlat 38

29.74 m²320.2 ft²

StudioFlat 39

31.17 m²335.6 ft²

StudioFlat 40

34.53 m²371.7 ft²

1 BedFlat 37

34.65 m²373.0 ft²

1 BedFlat 36

Area Fill Key

1 Bed Flat

Studio

PUBLIC HOUSE

24020

23855

23100

21170

23855

2236822368

R

R

R

22340

23201

23100

Notes

A1

This drawing may be scaled for the purposes of Planning Applications, LandRegistry and for Legal plans where the scale bar is used, and where it verifiesthat the drawing is an original or an accurate copy. It may not be scaled forconstruction purposes.Always refer to figured dimensions. All dimensions are to be checked on site.Discrepancies and/or ambiguities between this drawing and information givenelsewhere must be reported immediately to this office for clarification beforeproceeding. All drawings are to be read in conjunction with the specification andall works to be carried out in accordance with latest British Standards / Codes ofPractice.

Deeley Freed Ltd.

SACO

New Elements

Drawing Convention

Existing Elements

Proposed First Floor Plan

55

30000

26550

23100

19650

16150

12690

9190

9632

27380

24020

20660

17300

13075

30740

33937

33400

35534

Basement

Ground

First

Second

Third

Fourth

Fifth

Basement

Ground

First

Second

Third

Fourth

Fifth

Fifth

Notes

A1


Deeley Freed Ltd.

SACO

44-46 CANNON STREET13-14 GREAT ST THOMAS APOSTLE(MARC HOUSE)

CANNON STREETGREAT ST THOMAS APOSTLE COURTYARD

3D Key - Existing Section BB

35276

28978

28474

Notes

A1


Deeley Freed Ltd.

SACO

Materials Key

1. Standing seam zinc cladding

2. Lead lined window reveals to match existing

3. Grey powder coated metal framing

4. Dark grey coated metal railings

5. New white thermally broken aluminium

framed windows (powder coated) Transluscent

glazing / blinds for privacy

6. New white thermally broken aluminium

framed windows (powder coated)

7. New powder coated metal framed glazed

shopfront

8. Existing brickwork locally repointed and

refurbished where required

9. Existing windows refurbished - transluscent

glazing / internal blinds

10. Existing render refurbished where required

11. New brickwork gable endwall

12. New glazed entrance doors

13. Grey slate to match existing

14. Roof top plant

15. Glass Canopy

16. Zinc Cladding

2

13

5

7

9

40-42 CANNON STREET 27 GARLICK HILL28 GARLICK HILL(PUBLIC HOUSE)

GREAT ST THOMASAPOSTLE

CANNON STREET

16

Section A-A

Elevation


Notes

A1


Deeley Freed Ltd.

SACO

Planning Existing Aerial View 1


Planning Proposed Aerial View 1


CANNON STREET

GARLI

CK H

ILL

CANNON STREET

GARLI

CK H

ILL

GREA

T ST

THOM

AS A

POSTL

E

GREA

T ST

THOM

AS A

POSTL

E

Notes

A1


Deeley Freed Ltd.

SACO





CANNON STREET

GARLI

CK H

ILL

CANNON STREET

GARLI

CK H

ILL

GREA

T ST

THOM

AS A

POSTL

E

GREA

T ST

THOM

AS A

POSTL

E

Notes

A1


Deeley Freed Ltd.

SACO





CANNON STREET

GARLI

CK H

ILL

CANNON STREET

GARLI

CK H

ILL

GREA

T ST

THOM

AS A

POSTL

E

GREA

T ST

THOM

AS A

POSTL

E

Notes

A1


Deeley Freed Ltd.

SACO





CANNON STREET

GARLI

CK H

ILL

CANNON STREET

GARLI

CK H

ILL

GREA

T ST

THOM

AS A

POSTL

E

GREA

T ST

THOM

AS A

POSTL

E

Existing Massing from Cannon Street Existing Massing from Garlick Hill / St Thomas Apostle

Proposed Massing from Garlick Hill / St Thomas ApostleProposed Massing from Cannon Street

Cannon Street

44-46

40-42

27

28

13-14

15

Great St Thomas Apostle

Gar

lick

Hill


Notes

A1


Deeley Freed Ltd.

SACO





CANNON STREET

GARLI

CK H

ILL

CANNON STREET

GARLI

CK H

ILL

GREA

T ST

THOM

AS A

POSTL

E

GREA

T ST

THOM

AS A

POSTL

E

Notes

A1


Deeley Freed Ltd.

SACO





CANNON STREET

GARLI

CK H

ILL

CANNON STREET

GARLI

CK H

ILL

GREA

T ST

THOM

AS A

POSTL

E

GREA

T ST

THOM

AS A

POSTL

E

Notes

A1


Deeley Freed Ltd.

SACO





CANNON STREET

GARLI

CK H

ILL

CANNON STREET

GARLI

CK H

ILL

GREA

T ST

THOM

AS A

POSTL

E

GREA

T ST

THOM

AS A

POSTL

E

Notes

A1


Deeley Freed Ltd.

SACO





CANNON STREET

GARLI

CK H

ILL

CANNON STREET

GARLI

CK H

ILL

GREA

T ST

THOM

AS A

POSTL

E

GREA

T ST

THOM

AS A

POSTL

E

Existing Massing from Cannon Street Existing Massing from Garlick Hill / St Thomas Apostle

Proposed Massing from Garlick Hill / St Thomas ApostleProposed Massing from Cannon Street

Cannon Street

44-46

40-42

27

28

13-14

15

Great St Thomas Apostle

Gar

lick

Hill

Existing Facade Treatment

Proposed Facade Treatment

PRO

FESS

ION

AL

PR

AC

TIC

E W

OR

K

56

Ground Floor FFL

19780

First Floor FFL

23136

02_Roof level

25836

HG

Plinth wall build-up: (U value 0.18 W/m2.K)102.5mm Facing brick50mm cavity60mm Kooltherm K12 insulation by Kingspan12mm Cement board150mm SFS with mineral wool infillVCL15mm megadeco plasterboard

Ground floor build-up: (U value 0.21 W/m2.K)150mm concrete slab to S.E. design500 Gauge Polythene separating layer60mm Thermafloor TP70 by Kingspan1200 Gage Polythene DPMSand blinded hardcore as per S. Eng spec.

Ground Level

25mm Styrofoam insulation

Weep hole with site formed cavity tray

Tarma to S. Eng spec.

Insulated cavity closer25mm Painted MDF sill

Floor build-up:150mm overall thickness - Concrete slabon structural metal deck to S.E. design

Wall build-up: (U value 0.18 W/m2.K)18mm Through colour render120mm Kooltherm K5 EWB insulation by Kingspan12mm Cement board150mm SFS with mineral wool infillVCL15mm plasterboard

PPC Aluminium Brise Soleil height and size TBC

Roof build-up: (U value 0.15 W/m2.K)Single ply membrane140mm TR26 PIR insulation by KingspanVCL200mm Structural metal deck to S.E. design

Suspended Ceiling 22480

Suspend ceiling tiles

DPC lapped and sealed to DPM

Powder coated sill

Powder coated support flashing

VCL sealed to cement board


10mm ply backing to window head

15mm megadeco plasterboard lining

25mm Painted MDF sill

Aluminium powder coated parapet flashing

PPC Aluminium Brise Soleil height and size TBC

Render reveal

Suspended Ceiling 25836




Mineral wool insulation infill

Tightly packed mineral wool insulation to slab edge

Powder coated aluminium thermallybroken double glazed window (U value1.6 W/m2.K)

EDPM to be sealed into window frame andsealed to back side of cement board

VCL sealed to deck

12mm WBP ply wood

Parapet Wall Build-up: (U value 0.18 W/m2.K)18mm Through colour render120mm Kooltherm K5 EWB insulation by Kingspan12mm Cement boardVCL250mm SFS with mineral wool infillVCL12mm Cement boardSingle ply membrane

Powder coated aluminium thermallybroken double glazed window (U value 1.6W/m2.K)

EDPM to be sealed into windowframe and sealed to back side ofcement board

27129

250

4124057

Ext Ground Level 19630

Foundations to to S.Eng design

EDPM to be sealed into window frameand sealed to back side of cement board

EDPM to be sealed into window frameand sealed to back side of cement board

Steel support stubs with neoprene thermally broken plates

Steel support stubs with neoprene thermally broken plates

Ground Floor FFL

19780

First Floor FFL

23136

02_Roof level

25836

HG



Ground Level







Floor build-up:150mm overall thickness - Concrete slabon structural metal deck to S.E. design






Suspend Ceiling 22180

900

Wall build-up: (U value 0.18 W/m2.K)PPC Aluminium cladding panels supported off helping handbracketsBreather membrane120mm Kooltherm K5 EWB insulation by Kingspan12mm Cement board150mm SFS with mineral wool infill15mm plasterboard







Parapet Wall Build-up: (U value 0.18 W/m2.K)18mm Through colour render120mm Kooltherm K5 EWB insulation by Kingspan12mm Cement boardVCL250mm SFS with mineral wool infillVCL12mm Cement board


Aluminium powder coated parapet flashing

Aluminium powder coated parapetflashing


Suspend Ceiling 25536

12mm WBP ply wood

12mm WBP ply wood

Powder coated sill

Powder coated closure flashing

Powder coated sill



26474

27129

Powder coated aluminium thermally brokendouble glazed window (U value 1.6W/m2.K)

Powder coated aluminium thermallybroken double glazed window (U value1.6 W/m2.K)



Ground Floor FFL

19780

First Floor FFL

23136

02_Roof level

25836

H



Ground Level











Powder coated sill




Suspended ceiling 22480

Suspended ceiling 25536

Floor build-up:150mm overall thickness - Concrete slab onstructural metal deck to S.E. design




27129





Aluminium powder coated parapet flashing12mm WBP ply wood

Powder coated sill


Parapet Wall Build-up: (U value 0.18 W/m2.K)PPC Aluminium cladding panels supported off helping handbracketsBreather membrane120mm Kooltherm K5 EWB insulation by Kingspan12mm Cement boardVCL250mm SFS with mineral wool infillVCL12mm Cement board





Cladding wall build-up: (U value 0.18 W/m2.K)PPC Aluminium cladding panels supported off helping handbracketsBreather membrane120mm Kooltherm K5 EWB insulation by Kingspan12mm Cement board150mm SFS with mineral wool infill15mm plasterboard

Vapour control layer (VCL) - Air tightness line

Dam proof membrane (DPM)

Breather membrane

Dam proof course (DPC)

Single ply roof membrane

Separating layer

Geotextile Fabric

Document reference Revision

Drawing Status

Project Name

Drawn by

Approved by Approved Date Scale

Drawn Date Checked by Checked Date

Title

Drawing Originator

Original drawing sheet is A1

Site Key Plan

AWW ArchitectsRivergate House

70 Redcliff Street

BristolBS1 6LS

Fax: +00(0)117 9426689Tel: +00(0)117 9232535

KEY CDM RESIDUAL DESIGN AND ENVIRONMENTAL RISKS

IN ACCORDANCE WITH THE CONSTRUCTION DESIGN MANAGEMENT REGULATIONS 2007, THE DOCUMENT ORIGINATOR HASUNDERTAKEN A DESIGN RISK ASSESSMENT FOR THE ELEMENTS SHOWN ON THIS DOCUMENT. THE ABOVE ARE ONLY THEKEY RISKS THAT WERE IDENTIFIED DURING THE RISK ASSESSMENT. FOR A COMPRHENSIVE LIST REFER TO THE DESIGNRISK ASSESSMENT.

Primary Capital ProgrammeProject:

Bristol Schools

Notes:

2. Site verify all dimensions prior to construction

3. Report all discrepancies to the Drawing Originator immediately

4. This drawing is to be read in conjunction with all relevant documents and drawings

240 Park AvenueAztec WestBristol

BS32 4LB

T: + 44 (0)1923 776666

1. Do not scale from this drawing

R0

AWW Project Number 3125

1 : 20

1

JA 11/04/14 YS

TENDER

4020

External Wall Strip Sections

Southville Primary School: Myrtle

SPS-AWW-A-DWG

Revision Schedule

Rev Date Description Issued by

1 15/04/14 TENDER ISSUE JA

1 : 20

External Wall Strip Section 11 1 : 20

External Wall Strip Section 22 1 : 20

External Wall Strip Section 33Detailed Sections of wall construction

Southville Primary School | Detailed Design

As part of a 3 form entry school development in Bristol, AWW was contracted by Skanska to refurbish a Grade II listed building in Merrywood for Reception and Years 1 & 2 and for a new development in Myrtle for Years 3-6. The involved removing the existing building in Myrtle and working within a tree conservation area.

As part of the AWW team the new development in Myrtle was brought to tender by mid April. This involved producing a detailed Revit model for the Skanska team from which all drawings could be taken.

My particular roles for the Myrtle site involved creating drawings for the tender package. This included learning how to draw wall finishes, fire strategy and solar analysis plans. I assisted in detail drawings of the different types of exterior wall joining the floors and roof as well as scheduling external windows and doors. This involved creating Revit families (3D model of doors and windows) which were then hosted into the main Revit model. The lower floor of the building consists of a brick plinth, so the windows had to be created to fit brick dimensions.

The Merrywood buildings required refurbishment. I was involved in creating the existing, demolition and proposed plan and elevations of each room.

For the buildings in Myrtle and Merrywood I assisted in uploading the FF&E primarily into the plans and elevations of the classrooms. This required checking these drawings against the room data sheets and any changes were checked and approved by Yaran Soleman (the Project Architect).

I also discussed with employees at AWW about the contract observing the project being brought to tender and witnessing the due diligence, by an independent party (Atkins).


57

12

00 X

60

01

20

0 X 6

00

800 X 600 800 X 600

900 X 500 900 X 500

60

0 X

50

0

80

0 X

50

0

Key

Anti static vinyl floor

Barrier matting painted MDF skirting’s

Carpet tiles with painted MDF skirting’s

Epoxy floor paint - slip resistant

Foam backed vinyl sport's flooring with paintedMDF skirtings

Slip resistant vinyl with coved skirting

Slip resistant vinyl with painted MDF skirtings

Timber sprung sports floor with floor specialistsskirting

75.5 m²Kitchen

G.001

7.6 m²Elec. Switch Rm

G.044175.1 m²

Hall

G.003

13.5 m²P.E. Store

G.004

56.2 m²Year 3

G.036

56.2 m²Year 3

G.037

59.9 m²Studio

G.017

55.7 m²Year 3

G.042

21.2 m²Stair 1

G.019

4.0 m²Lift

G.006

19.0 m²Dining store

G.005

4.0 m²WC

G.034A

56.2 m²Year 4

G.026

56.0 m²Circulation

G.047

10.4 m²Break Out Space

G.031

10.4 m²WC

G.024A

9.0 m²Central stock

G.046

38.2 m²Circulation

G.018

16.4 m²Entrance

G.007

3.7 m²Sick Room

G.009

12.5 m²General Office

G.008

6.8 m²Store

G.015

11.3 m²Interview

G.013

7.7 m²Caretaker store

G.043

9.9 m²WC

G.014

21.2 m²Stair 2

G.030

7.0 m²DWC

G.011

1.9 m²Cleaners Store

G.016

1.7 m²Store

G.010

55.5 m²Year 4

G.025

55.9 m²Year 4

G.020

4.9 m²Cloakroom

G.024B


G.021

1.5 m²Store

G.022

1.5 m²Store

G.023


G.041

1.5 m²Store

G.040

1.5 m²Store

G.039

9.1 m²WC

G.038A

6.3 m²Cloakroom

G.038B

5.8 m²Circulation

G.012

4.3 m²WC

G.029A

4.1 m²Cloakroom

G.029B

1.7 m²Store

G.028


G.027

7.9 m²Specialist Store

G.032

8.7 m²External Store

G.0334.4 m²

Cloakroom

G.034B

1.7 m²Store

G.035

11.1 m²IT Server

G.045

38.4 m²Plant

G.002

2

2300

3

2300

2300

6218

1283

2200

6218

1283

2200

6220

1281

1900 5495

1311

6220

1281

6220

5595 1900

1281

6220

1900 5595

Anti-static carpetarea: 42m²

Slip resistant floorarea:10.8m²

7501

Barrier mattingarea: 2.8m²


Slip resistant floorarea:10.8m²



Slip resistantfloor area:10.8m²






Slip resistant floorarea: 12.7m²


Anti-static carpetarea: 39.m²



2 3

E

D

C

D17482

2030

600

7495

4188

9036

C

D

A

B

Carpet tiles withpainted MDF skirting’s

Slip resistant vinyl withpainted MDF skirtings

Barrier matting paintedMDF skirting’s

2.8m²

56.2m²

10.8m²

6

H

G

F16306

2000

2550

5.1m²

16.1m²

9019

C

D

A

B




Drawing Status

Project Name

Drawn by



Title

Drawing Originator


Site Key Plan


70 Redcliff Street

BristolBS1 6LS

Fax: +00(0)117 9426689Tel: +00(0)117 9232535




Bristol Schools

Notes:





BS32 4LB

T: + 44 (0)1923 776666


CP0


As indicated

4

GC 04/06/14 YS

CONTRACTOR’S PROPOSAL

2300

Ground Floor Finishes Plan


SPS-AWW-A-DWG

1 : 100

00_Ground_Floor Finishes

1 : 50

Ground Floor - Typical Classroom Layout2 1 : 50

Ground Floor - Staircase Layout3

Stairs to have slip resistant vinyl

VISUAL SCALE 1:100 @ A1

10m2m 8m6m4m0m

North

Revision Schedule


1 15/04/14 TENDER ISSUE JA

2 23/04/14 Key & graphics changed as requested by Skanska JA

3 14/05/14 Barrier matting added to classrooms - Notes &

areas added - Studio floor updated

JA

4 30/05/14 Status changed to CP - Floor finishes/skirting’s

updated throughout – Key colours amended

JA

1

CP01

Ground Floor Finishes Plan Room showing FF&E layoutsC2 2 2

2

2

2

2

LCM

S

WiFi

3 4

G

F

9025

C

D

A

B

55.5 m²Year 4

G.025

Carpet tiles withpainted MDF skirting’s



920

949

1539

278

887

135

2319 258 267 282 284 1302 449

InteractiveWhite Board

Fixied DoubleCupboard

Fixied DoubleCupboardWorktop @

725mm AFFL

TeachersDesk

Tray Unit F HCupboard

Lunch BoxTrolley

SNK5111x

Pinboard

Whiteboard

Pinboard Pinboard

DG27

DG28

DG29

WG10WG11

DG34

3 4

G

F

Classcare DB - 600x600suspended grid tile

system

Ground Floor FFL

19780

34

Blind Pull Coard

Blind Pull Coard

Blind Pull Coard

Teleflex operator

Dim Out Blind

Dim Out Blind

SNK5111x

268

AFFL 2700

Ground Floor FFL

19780

G F


TeachersDesk

Dim Out Blind

350

AFFL 2700

1730

Pinboard

1725 2002

Whiteboard

1800

1850

Ground Floor FFL

19780

3 4

650

24333125

SNK5111x

F HCupboard

Tray Unit Tray UnitTeachers

Desk

Bin


AFFL 2700

Pinboard Pinboard

2400

EQEQ

Clock

240461239639

1204

900

Ground Floor FFL

19780

GF

F HCupboard

Tray UnitLunch Box

Trolley

SNK5111x

Worktop @725mm AFFL



Dim Out Blind

AFFL 2700

Notes:

For M&E setting out and specification refer to M&E Eng.Drawings/Specifications.

Some furniture/equipment may appear in plan only.


Drawing Status

Project Name

Drawn by



Title

Drawing Originator


Site Key Plan


70 Redcliff Street

BristolBS1 6LS

Fax: +00(0)117 9426689Tel: +00(0)117 9232535




Bristol Schools

Notes:





BS32 4LB

T: + 44 (0)1923 776666


C0


As indicated

1

JA 04/09/14 YS

C O N S T R U C T I O N

9025

G.025 Plans & Elevations - Year 4Classroom


SPS-AWW-A-DWG

1 : 50

G.025 Plan - Year 4 Classroom1

1 : 50

G.025 Reflected Ceiling Plan - Year 4 Classroom2

1 : 50

G.025 Elevation A - Year 3 ClassroomA

1 : 50

G.025 Elevation B - Year 4 ClassroomB

1 : 50

G.025 Elevation C - Year 4 ClassroomC 1 : 50

G.025 Elevation D - Year 4 ClassroomD

Refer to Dwg. SPS-AWW-A-DWG-2300 forAdditional floor finish info & setting out

Refer to Dwg. SPS-AWW-A-DWG-2402 for ceiling setting out

Revision Schedule


1 12.09.14 ISSUED FOR CONSTRUCTION JA

C2 2

2

2

2

22

H

WiFi

LCM

9 10

H

G

F

9111 D

C

B

A

34.8 m²Food / Science / DT

F.011

44

504 933 940 280180

163

299

Bin

White Board1200 x 900

Tray Unit

Tray Unit

Sink withDrainer

Cooker

Wash handbasin

F HCupboard

Fridge

Worktop 600x 900

Worktop 600x 900

20

815

40

@900mmhigh

DF07

WF03


First Floor FFL

23136

HGF

AFFL 2400

800

Tray UnitTray Unit

Pinboard

EQ EQ EQ

Pinboard

Fridge

Dim Out Blind

904

800

First Floor FFL

23136

H G F

Extract Hood

Dim Out Blind

CupboardCupboardSingle

CupboardCupboard Cooker Cupboard

F HCupboard

Hooks

Bin

CookerSingle

Cupboard

AFFL 2400

First Floor FFL

23136

9 10

EQ EQ

900

650 Tray Unit

White Board1200 x 900

AFFL 2400

2250

504

Extract Hood

Clock

F HCupboard

Bin

First Floor FFL

23136

910

AFFL 2400

Fridge

Cupboard Cupboard

SingleCupboard

Sink withDrainer

Dim Out Blind

Blind Pull Coard

900

Worktop 600x 900

9 10

H

G

F

Classcare DB - 600x600suspended grid tile

system

Notes:

For M&E setting out and specification refer to M&E Eng.Drawings/Specifications.

Some furniture/equipment may appear in plan only.


Drawing Status

Project Name

Drawn by



Title

Drawing Originator


Site Key Plan


70 Redcliff Street

BristolBS1 6LS

Fax: +00(0)117 9426689Tel: +00(0)117 9232535




Bristol Schools

Notes:





BS32 4LB

T: + 44 (0)1923 776666


C0


As indicated

JA 04/09/14 YS

C O N S T R U C T I O N

9111

F.011 Plans & Elevations - FoodScience


SPS-AWW-A-DWG 1 : 50

F.011 Plan - Food Science1

1 : 50

F.011 Elevation D - Food / Science / DTD

1 : 50

F.011 Elevation B - Food / Science / DTB

1 : 50

F.011 Elevation C - Food / Science / DTC

1 : 50

F.011 Elevation A - Food / Science / DTA

1 : 50

F.011 Reflected Celing Plan - Food Sience2

Refer to Dwg. SPS-AWW-A-DWG-2403 for ceiling setting out

Refer to Dwg. SPS-AWW-A-DWG-2301 forAdditional floor finish info & setting out

Revision Schedule


Greg Chatfield Part 2 Architectural Assistant Portfolio

Documents

Transcript of Greg Chatfield Part 2 Architectural Assistant Portfolio