REGENERATION OF VAUXHALL PLEASURE GARDENS FOR GENERATION Z
Tae-In ‘Timmy’ Yoon Unit 22 2014/2015
PROJECT 2
12,000
13,000
Vauxhall is located to the south of the river Thames and prior to the industrial revolution was a rural village with predominately flat plains with scatterings of marshlands. It provided market garden produce for the nearby City of London across the river. Vauxhall Pleasure Garden was opened in 1662 as a retreat for Londoners from the crowded urban lifestyle. With the construction of Vauxhall Bridge and Vauxhall Bridge Road in 1816, the village was subsumed by the town of Lambeth and the industrialization it entailed perhaps its most famous export being Vauxhall Ironworks which would in turn become the famous automobile company. The construction of the railway to Waterloo station destroyed many of Vauxhall’s streets and lead to the closing of Vauxhall Pleasure Garden in 1840.
13,200
12,000
WIDER CONTEXT ANALYSIS
12,800
14,200
Mapping Population Density
G RE
It is widely considered that Vauxhall was a victim of poor urban planning during the Industrial revolution and suffered greatly from German bombers in the Second World War leading the area to go through several urban redevelopment schemes in the past. It is currently one of the most densely populated areas of not only London but the whole of the UK.
E AT R LO N D O N
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Aerial photograph of Vauxhall
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LONDON BOROUGH OF LAMBETH
POPULATION DENSITY People per SQ km shown on boroughs with the highest density in UK according to 2011 Concensus by Office for National Statistics
Panorama of Site
LONDON’S GREEN SPACES AND ALLOTMENT CULTURE Despite the high urban population density, London has dedicated itself in preserving alot of its green spaces is the form of public parks. At the same time, the government has also set a portion of very densely populated areas with council run allotment spaces.
Mapping London’s Greenspaces
Green space percentage over whole of London
Green space percentage over whole of Vauxhall
8% 47%
Urban Allotments examples in London
MAIN SITE AND SATELLITE SITES VAUXHALL
SATELLITE SITES
MAIN
1
THE CURRENT STATE OF THE PLEASURE GARDEN AND THE VAUXHALL REGENERATION The site for the
main laboratory The Nine Elms Vauxhall Partnership was created in 2010 to coordinate and drive forward the transformation of an entire district of Central London. Co-chaired by the leaders of will be inbetween Wandsworth and Lambeth Council, it includes the area’s main developers and landown- community ers, the Mayor of London, Transport for London and the Greater London Authority.
VAUXHALL PLEASURE GA
The trees that are grown i laboratory can be deposit pleasure garden to revital
allotments and Supported by a dedicated Programme Delivery Team, this unique public-private partner-partially within an ship has a shared vision for the area and is driving forward an ambitious placemaking under utilized agenda. playground. It is also in close The images on the right demonstrate the vision in which the Nine Elms Vauxhall regeneration has and its progess. The idea for this project is to be a part of this scheme and offerproximity to the Vauxhall Primary a solution that will be benefit the new residents and workers. school that will The site photos show the green space of the once popular Vauxhall Pleasure Gardens andutilize the laborain the distance, high profile public service and residential buildings can be seen in the tory. distance that tower over the immediate surroundings. It maybe an idea that the Pleasure Garden will act as a platform where the public of Vauxhall can escape from the busy professional activities of the city, reminiscent of its use in the 17th and 18th Century.
A big aspect of the park is its proximity to the railway bridge. A separate scheme from the Nine Elms aims to renovate the bridge, specifically the space underneath it in the form of arches that will be converted into high-end retail units. My scheme will aim to offer an alternative that will merge the bridge area with the park.
Nine Elms infomation source: http://www.nineelmslondon.com
WIDER CONTEXT DEVELOPMENT SCHEME Merano Residences
I plan to introduce the Vauxhall Pleasure Garden regeneration as part of this scheme. Arguing that the area is in need of more green public spaces since we can see that there are only 2 ‘Green spaces’ planned out of the total of 16 mapped developments.
Spring Mews
St George Wharf
Vauxhall Cross
Vauxhall Square
Keybridge House
Sky Gardens
KEY:
SITE Under Construction Pre-development Application Approved
1:10000
Patcham Terrace
SITE PHOTOGRAPHS
Battersea Power Station
Sleaford Crest
New Convent Garden Market
Nine Elms Parkside
Christies
US Embassy
Sainsbury
One Nine Elms
SITE ANALYSIS: PLAN AND SECTION Vauxhall Pleasure Gardens is sited adjacent to the Botanic Laboratory explored in the first project. Site analysis was conducted to gasp the physical nature of the park in its current state through OS and satellite information. Using the topographical information, it was possible to 3d model the site which revealed a very slight slope to the north of the site but at 1:1000 it was negligible as demonstrated by the sections produced. The park is surrounded is framed by train tracks to the west and a combination of retail and residential to its north and south and the Vauxhall City Farm to its east. A more detailed analysis will be conducted as to the functions of surrounding built environment but in this section, a massing was conducted to determine the heights and general volume of the context.
+ 3.6M + 2.9M + 2.8M
+ 4.3M
+ 4.2M
+ 4.7M
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30m
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<1> Vauxhall Garden Community Centre
<2> Shops under the Train Track Bridge
Linking to the Botanic Laboratory, It is where the Current Allotment holders would meet to share their experience
An assortment of shops and F&B ranging from hardware to wine stores, there is even a club in one of the units
<3> Royal Vauxhall Tavern
<4> MI6 Support Office
SITE ANALYSIS: CONTEXT The context was analysed to determine what the Pleasure Garden needs to react to or enhance. Similar to the brief of the Botanic Laboratory, it is necessary for the Pleasure Garden to empower Generation Z but also local community as a whole. This exercise will help me determine the wider target audience of the Pleasure Garden.
This old pub was built in 1863 and is the oldest surviving gay venue. It is also a theatre with regular shows
A mysterious building that has all its windows frosted. It would be wise to screen off this building somehow
Icon image source: googlemaps
<5> Botanic Laboratory
<6> Muscovy House
<7> Vauxhall City Farm
<8> Dabley House
The modular system developed in project 1
Residential Block
The Farm is a little piece of the countryside in central london. It has many types of animals and the farm utlitizes a part of the gardens as a paddock
Residential Block
<9> Black Dog Pub
<10> High Street and Terrace Housing
BOTANIC LABORATORY PHASE 1 The initial structure to be applied on site Phase 1
Phase 1 is the core of the Botanic Laboratory and where all the extention work would be ‘grown’ off from. This drawing shows how I envision the laboratory would be used from day to day, as a garden and playground for the generation Z members from the Vauxhall Primary School.
PLANNED GROWTH:
The Topsy Turvy tomato holders will be a permanent fixture of the botanic laboratory. A pot will be assigned to a student to look after. Tomatoes
The main produce of the laboratory is the humble courgette. Courgettes and tomatoes have a similar harvest time and therefore can be sold simultaneously in the harvest market. Courgettes are also the most profitable vegatable as they have the highest weight to price ratio compared to supermarket prices. Courgette
The towers hold 4 types of herbs. Unlike the two produce above, these herbs can be cultivated all year round and thus provide a constant source of profit and learning aid to the Generation Z members. Basil
Chives
Comfrey
Mint
The Great British Pub Awards 2011 - Morning Advertiser’s Publican - Regional Winner
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A well worn high street that has seen better days. Despite its location, there is very little activity during the weekend.
LEGACY OF VAUXHALL PLEASURE GARDENS In the eighteenth century, Vauxhall Gardens was a refuge for Londoners from the filth and noise of the city, offering an all embracing sensual experience that entertained up to 100,000 people a year. Under the management of Jonathan Tyers, the Gardens enabled ordinary Londoners to experience contemporary art and design, high quality music and al fresco dining. Tyers’ two most important allies in the 1730s were his friend and neighbour, the artist William Hogarth, and the composer George Frideric Handel. Between them, Tyers, Hogarth and Handel created the phenomenon that came to be known as the English Pleasure Garden, imitated across Britain and Europe and as far afield as the Americas, New Zealand and Australia. The Gardens closed in 1859 as their popularity declined and after a period of being utilized for housing, the current site ws constructed after the Second World War. A part of today’s site is used by Vauxhall City Farm, one of London’s most popular city farms, as a paddock for their horse and lifestock. It is the intention of this project to bring back the Vauxhall Pleasure Gardens for Generation Z. It will take into account the fuctions of the surrounding built environment but also bring back some of the functionality of its past.
BRING BACK MY LEGACY!
(infomation source: Foundling Museum 2012 Summer Exhibition: The Triumph of Pleasure, Vauxhall Gardens 1729 - 1786)
KEY: Historic maps
Postcard images of Vauxhall Pleasure Gardens
Newspaper articles and promotional material from the 1800’s
Model recreating the Vauxhall Pleasure Gardens in the 1800’s
Historic Site Model and Fan print from the Vauxhall Historical museum
SITE ANALYSIS: HISTORIC Vauxhall Pleasure Garden has a rich history of being a centre of public entertainment stretching 2 centuries from the 17h century. Records were kept documenting its development and it is the intent of the regeneration to draw inspiration from its heyday to aid attract the public into the park.
EXPLORING THE CLUES FROM THE PAST
1742 In its early days, Vauxhall Pleasure Garden’s main attraction was ‘The Grove’ where there was a music pavillion at the centre which also housed an organ.
e
The Grov
the straight row of boxes were called ‘dinner boxes’ where people could enjoy their food but also provide shelter from the elements- rain being a well documented problem.
Supper Boxes The Organ Building
1818
-HEYDAYS-
The number of supper boxes increased as the Pleasure Gardens became more popular. They took on a semi circular form and became an outdoor stage.
The
d Arcades
emple an Chinese T
th The Go
ic Piazz
a
They became much more extravagent during this period and took on an arcade form. The supper box idea of this period will become relevant to the design.
1850 The advent of the railway line to the west of the Pleasure Garden proved to be devastating for the Gardens. Leading to its bankrupsy. The Pleasure Garden at this time hosted a myriad of different attractions to keep visitor numbers high. However, the Pleasure Garden could no longer function as a sanctuary from the industrialisation of Vauxhall
Posters of festivals held in the Pleasure Garden
Comparing the footprint of the Pleasure Garden to its current state
el Piazza
The Hand
SITE ANALYSIS: CLIMATE One crucial aspect of the regeneration of Vauxhall Pleasure Garden is its production of vegetables to sustain and fund itself. Climate data will help me understand to which extend certain fruits are vegetables are available to grow in Vauxhall for it to be profitable. The UK enjoys long hours of sunshine in the summer and short days in the winter as shown by the simulation. The High latitude line away from the Equator means in order to take advantage of maximum sunlight, buildings must be south facing.
SPRING Calm, cool and dry, largely associated with plant recovery from winter Ave temp: 8.8 to 10.3°C
SUMMER Warmest season, wide local variation in rainfall, longest days, commonly associated with pollination and plant life abundance. Ave temp: 15.5 to 17.7°C
AUTUMN Nortorious for being unsettled, unpredictable wind and rainfall, associated with harvest and preparations for the winter. Ave temp: 10.7 to 13.0°C
WINTER Cool, wet and windy, little activity in terms of plant life. Ave temp: 5 to 8.7°C (Rarely dips below -10°C)
SUMMER SOLSTICE 4am
3am
6am
5am
7am
8am
10am
9am
12pm
11am
2pm
1pm
3pm
4pm
5pm
6pm
7pm
8pm
9pm
Solar Heat Gain (W/ms)
Solar Heat Gain (W/ms)
800 800 600 600
WINTER SOLSTICE
400
400 200
SOLAR HEAT GAIN AND DAYLIGHT HOURS
200
N JAN JAN
JUN
DEC
Received Solar Radiaion : South Facade
DEC
Received Solar Month Radiaion : Roof
Month
Received Solar Radiaion : North Facade Solar Heat Gain Solar Heat Gain (W/ms) (W/ms) 800 800
Solar Heat Gain Solar Heat Gain (W/ms) (W/ms) 800 800
Solar Heat Gain (W/ms) 800
W
JUN
600
600 600
400
400 400
200
200 200
600 600
400 400
E
JAN
JUN
JAN JAN
DEC
Month
200 200
JUN JUN Month Month
DEC DEC
JAN JAN
JUN JUN Month Month
DEC DEC
Source: Energy Plus- Energy simulation database
Average Monthly Sunhour KEY:
Average Percentage of Sunshine
600 600
Sunhours
S
Solar Heat Gain Solar Heat Gain (W/ms) (W/ms) 800 800
Sunshine %
400 400
Solstice
Jun 21 Apr 19/ Aug 23
Equinoxes
200 200
Mar 20/ Sep 22 Feb 18/ Oct 22
Solstice
JAN JAN
Dec 22
JUN JUN Month Month
DEC DEC
Greenhouse production initial idea sketch sections
1
2 South facing glass facade for passive solar gain
Units on slope so to reduce shadow onto adjacent units
South facing ceiling with transparent photovoltaic cells to gain energy
Totally enclosed climate controlled greenhouse units using the energy from the roof
Making Organic Compost
Tomato plants Autumn leaves Evergreen prunings
Understanding the geological make up of the site will allow me to understand the viability of foundations to propose but also to which extent the soil on site could be used to grow the foliage necessary for the park. It was possible to take some soil samples from the site to physically analyse them for nutrients that will be beneficial for growing plants. The results suggest that it could be indeed used for growing plants, meaning there is no need to import soil for planting.
Animal Hair Straw
Thorny prunings Ivy leaves
Soil Nutrient Results pH
Nitrogen
Phosphorus
Vegetable peelings and pulp Annual weeds Bindweed Comfrey leaves Fruit peelings and pulp Fruit seeds Grass mowings Hedge clippings House plants
Botanic Laboratory GEN Z
1.6
3.3
2.8
en
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Animal manure with straw Urine Hay
Flora Production
gre en bro wn gre en bro w gre n en bro wn gre en bro wn
Cut flowers Old bedding plants Ivy leaves Soft prunings and plant debris Tea leaves and bags
2
6.8
1.4
3.2
2.8
3
6.1
1.8
3.7
3.2
Quick to rot and provide important nitrogen and moisture.
Recycling Zone
Used kitchen paper Vacuum cleaner contents Wood ash Wool Cardboard Christmas tree Corn starch liners Cotton towels Cotton wool Egg boxes Egg shells Paper bags Natural corks
AIR IN
MOISTURE IN
2 6.7
H EAT OUT
gre
City Farm Paddocks
Potassium
1
General schematitc of organic compost production
Green Compost
Brown Compost
SITE ANALYSIS: PLANT GROWING POTENTIAL
1
3
to
Compost usable only when left to set for long periods of time
SETTING
USABLE 1 to 2.5 months
Heat from compost could potentially be used for indoor spaces
Slower to rot, provide carbon & fibre and allow air pockets to form.
1 1 3
Soil is excavated to make room for foundation of larger built facilities of the park
2
Excess soil from construction is transported off site and mixed with fertiliser.
3
Plants grown off site brought back for planting in park. Excess soil used for landscaping if needs be.
2
TEMPERATURE RANGE, RAIN FALL AND GROWING POTENTIAL OF CINQUEFOILS AND ROSES
PRIMARY SUGGESTED PLANTS TO GROW WITHIN THE GARDENS
Alongside the amount of sunlight and ground conditions, temperature and rainfall also play a critical part in growing plants. Using this climate data, we can determine the potential in growing cinquefoils and roses within the site. We can even specify a range of plants that could be successful within the site.
Potentilla fruticosa (Sulphurascens Group) ‘Elizabeth’
Rosa (RA) ‘Albéric Barbier’
Rosa Mary Rose ‘Ausmary’
Rosa (RA) ‘Félicité Perpétue’
Average Monthly Temperature Temperature
KEY: Highest Temp Lowest Temp
Average Days of Monthly Rainfall
Foliage
Diciduous
Diciduous
Diciduous
Diciduous
Bushy
Climbing
Bushy
Climbing
Highly Visual, grows vigorously and hardy.
Colour in Autumn
mm
16
The flower is highly aromatic/ fragrant with great colour and known to be easy to grow in England.
The Flower of the Jonathan Tyers family crest. Fitting to grow as a to bring back the legacy of the pleasure garden
Habit Days
The flower is highly aromatic/ fragrant and can be turned into flavourful tea or jam
Reason for choice
120 14
Colour in Spring
100
12 10
80
8
Colour in Summer
60
6 40
4
Sunlight
20
2 JAN
FEB
MAR
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MAY
JUN
JUL
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SEP
OCT
NOV DEC
JAN
FEB
MAR
Month
APR
MAY
JUN
JUL
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Month
Average Monthly amount of Rainfall
Full Sun
Partial Shade
Full Sun
Partial Shade
Sand
Chalk
Sand
Chalk
Full Sun
Full Sun
Partial Shade
Soil
mm 120 100
Sand
Chalk
Sand
Chalk
Loam
Clay
Loam
Clay
KEY: 80
80% 60
Loam
Average
Loam
40
20%
20 OCT
NOV DEC
JAN
FEB
MAR
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MAY
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Month
AUG
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Moisture
Well-drained to Moist but well-drained
Well-drained to Moist but well-drained
Well-drained to Moist but well-drained
Well-drained to Moist but well-drained
pH
Acid, Alkaline, Neutraldependant on plant
Acid, Alkaline, Neutraldependant on plant
Acid, Alkaline, Neutraldependant on plant
Acid, Alkaline, Neutraldependant on plant
Human relationship diagram
KEY STAKEHOLDERS IN REALIZING THE PROJECT Department for Education
CLIENTS
£
Department for Education
Mayor of London
Mayor of London
Lambeth council Circular feedback
Vauxhall Primary School- Principal and Board od Directors
Secondary Client:
£
KEY USERS
Vauxhall redevelopment scheme
Headed by
consultation/ inspection
Main Client:
Generation Z members Pupils of School
Generation Z members -from all over London
Vauxhall Primary School Principal and Board of Directors
SUPPORT AND MANAGEMENT
Hire
Teaching Staff of Vauxhall Primary School
Community input
Allotment Community Vauxhall City Farm
Hire
Generation Z members -from Vauxhall Primary School
User input
Employees of Vauxhall City Farm
Allotment holding community
Consultant
Hire
Architect
-Service Engineers -Structural Engineers -Access Consultant -Acoustic Consultant -Health and Safety Consultant -Fire Consultant -Planning Consultant
WIDER COMMUNITY
Contractor
Sub-Contractors
Emerging Public due to Nine Elms redevelopment scheme
FUNDING Due to the ‘Growing’ nature of the Production area and the Botanical Laboratory of the Pleasure Garden, It is necessary to consider how the gardens will fund its development. As suggested by the Stakeholders diagram, it can be seen that the initial funds are given by the Government.
ADVERTISING FUNDS FROM ACOUSTIC FANS
BI ANNUAL MARKET TO SELL PRODUCE FROM THE GARDENS
The acoustic fans will provide a prime platform for advertising, acting as a billboard and generating a stready stream of income from advertising revenue. In order to determine the pricing, Billboard hire prices in Vauxhall was researched:
Two markets are planned each year to sell produce from the Botanical Laboratory and the production area:
Initial funding:
Summer market- 2 weeks of month of June Autumn harvest market- 2 weeks of month of September
HARVEST MARKET The Botanic Laboratory changes to sell its harvest
GOVERNMENT LOAN The initial funds fot the Pleasure Gardens will be provided by the Government through the ‘Nine Elms On the South Bank’ development scheme. The scheme has given a £1bn loan for this scheme and this project is asking for £15 million for its initial start up. Its expansion will be funded by itself after this.
Current development scheme of Vauxhall as part of the Nine Elms development
source: http://www.nineelmslondon.com/category/transformation NINE ELMS DEVELOPMENT FUND
Initial asking fund for Vauxhall Pleasure Garden Start up:
£15 million =
1.5%
Each fan has
The revenue from these markets will vary dramatically depending on the harvest yield of each season. As the rate of production increases over time, it can be assumed that the profitablility of these markets will increase incrementally over each season.
1218 SQM
projected net profit from BOTH markets combined at end of phase 1 =
of advertising space to sell to advertisers
£ 22000 per Annum
“
The Government has confirmed a £1bn loan guarantee to fund
“ the scheme’ (Nine Elms on the South Bank development scheme)
This could generate a revenue of
£600 PCM
which will be compounded by 1.3% each year as the Botanical Labortatory and production area grows
per fan
MINOR FUNDING OPPORTUNITIES
Therefore, if all fans were rented out it could generate:
Profits can be made by: -selling excess compost -Running the Kitchen and Restaurant Area -Selling produce from the Herb Towers which grow all year around
£7200 PCM (£86400 per annum)
Profits from these funds will be used for maintence of the Pleasure Garden rather than an expansion
BASIC HUMAN ACTIVITY PROGRAM SCHEMATIC
HUMAN CONTEXTUSERS OF THE PLEASURE GARDEN GEN Z
The regeneration of Vauxhall Pleasure Gardens will target three distinct audiences that will have separate demands from the site. It is hoped these groups could learn and support each other to improve their knowledge and understanding of the natural environment through the plant growing process which it seeks to express and engage in.
recycle Food waste
learn & play
Compost
nutrients
Produce
recycle
USER KEY: Farm Animals
Generation Z
Allotment Holders
Vauxhall City Farm
waste
Sellable Produce
sales
Seasonal Markets
£££
Excess Produce
heat
GEN Z
GEN Z
Consumer
Manure and other organic Farm waste
recycle
General Public
Heated pavillions in winter
GENERATION Z
THE ALLOTMENT COMMUNITY AND CITY FARM
THE EMERGING PUBLIC
In the spirit of the Unit Agenda, the primary objective of the regeneration of Vauxhall Pleasure Gardens is to ‘Empower the Legacy of Generation Z’. As with the Botanic Laboratory that the Pleasure Garden incorporates, The Pleasure Garden will seek to engage them to improve their knowledge of nature through the demonstration and expression of the plant growing process.
The allotment community was an important support network for the Botanic Laboratory and certainly they will play a major part in the regeneration of Vauxhall Pleasure Gardens. In addition to the expertise of the Allotment community, there is the Vauxhall City Farm that already partially occupies the current site as paddocks for their animals.
The urban development plans for Vauxhall through the Nine Elms scheme as shown in the previous page has its focus mainly on commerical and residential projects. There is a need to maintain Vauxhall Pleasure Garden as a green space to offset growing urban density.
The idea is to use the City Farm in order to support the Allotment community. This could be done through the exchange of resources. The City Farm could provide the manure and other waste products that could be prime material for compost and the allotment community could use the compost to for produce that can be used to support the animals.
To address the emerging public, the Pleasure Gardens will also be able to act as a public venue capable of handling large scale public events.
It is the intent of the program to designate a portion of the site for production of plants.
Key role/ requirement: EDUCATION AND PLAY
Key role/ requirement: PRODUCTION
Key role/ requirement: GREEN and EVENTS SPACE
ENVIRONMENTAL CONSIDERATIONS FOR STAKE HOLDERS The environmental data from the site can be applied to set the project some objectives. Here is a breakdown of the environmental considerations and the environmental targets the Pleasure Garden should achieve:
NOISE POLLUTION
RAINFALL
The noise levels from the railway adjacent to the site is what eventually killed the Vauxhall Pleasure Garden in the past. Through DEFRA noise mapping, it can be seen that it still produces a significant level.
Rainfall is a major environmental concern for the site. The rain should be collected to a certain extent to grow the plants in the gardens.
Noise pollution should be reduced by at least 5dB from the railway station
Average annual rainfall is 1091mm (per sq metre) Wet in Winter with unpredictable rainfall in summer and autumn.
PLANT GROWING POTENTIAL OF THE GROUND
PREVAILING WIND The wind will pose some issues for the large structures within the park. To calculate the wind load applied, I will take the following into account: Average wind speed of 10 kts (knots) or 11.5 mph (miles per hour) Prevailing wind direction is South Westerly
The ground analysis has enabled me to identify plants that could be grown within the site without greenhouse conditions. Composting is possible with the help from the Vauxhall City Farm. This will be exploited.
Soil/ manure recyclage scheme
Farm Animals
waste
Manure and other organic Farm waste
SUNLIGHT AND TEMPERATURE Sunlight and temperature in London goes through noticable differences throughout the year. It therefore is necessary for spaces in the park to adapt to these changes. Perhaps store energy from times of long days and high temperatures of the summer and using them in the winter: Spring Ave temp: 8.8 to 10.3°C Summer Ave temp: 15.5 to 17.7°C Autumn Ave temp: 10.7 to 13.0°C Winter Ave temp: 5 to 8.7°C Solar energy should be taken advantage of through photovoltaic panels
recycle
Produce
Compost
INITIAL DIAGRAMS
DECIPHERING THE PROGRAMME
HIGH STREET
Taking into account the lost legacy of the Pleasure garden, the current redevelopment of Vauxhall and the agenda of promoting the heritage of Generation Z, the regeneration of Vauxhall Pleasure Garden would combine these seemingly separate briefs to a coherrent strategy where it would provide a haven for all its users, respecting and empowering their right to the park.
BL OC
K
REGENERATION
In order to accommodate the variety of programmes in the Pleasure Garden, it was decided that a common element was required to coherently order the park in a meaningful way. The inspiration for the solution came from the old pleasure garden itself. The Vauxhall Pleasure Gardens was a means of escape from the harsh and busy urban life, a sanctuary from urban environment. This was manifest by walling off the pleasure garden to protect itself from the outside. In a similar manner, the extensive built work would be present only on the periphery of the Pleasure Garden, framing the central space, treating the Gardens as a giant courtyard of activity.
SLOT
LIST OF POSSIBLE PROGRAMMES:
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INITIAL CONCEPT COLLAGES
M
•
REGENERATION
•
Music Pavilions Balloon ride station Temporary events to accommodate: circus, fireworks, concerts Retail spaces- for high street rejuvenation Riding School and paddock- to support and promote the Vauxhall city farm Sports courts- reinvented to attract people to actually use it New allotments in the style of the botanic laboratory - for the residents of the new Build apartments in Muscovy House Cookery school and café- to take advantage of the produce grown in the botanic laboratory but also allow for alfresco dining that the Pleasure Gardens were known for in the past Free modular spaces- it is unknown exactly in which Generation Z would entertain themselves in the future much like how there are jobs now that did not exist even 10 years ago. There will be a series of modular spaces as part of the Pleasure Garden that could be easily customized by generation Z for future use.
HIGH STREET
• • • • • • •
REVIVING THE LEGACY OF VAUXHALL PLEASURE GARDEN
THE PLEASURE GARDEN AS A PART OF THE REGENERATION OF VAUXHALL
SPECULATING THE HERITAGE OF GENERATION Z
The pleasure garden was one of the leading venues for public entertainment in London from the mid-17th century to the mid-19th century. Under the management of Jonathan Tyers, the Gardens enabled ordinary Londoners to experience festivals, high quality music and al fresco dining. All qualities that have been lost in the late 19th century and relegating the current site into a non-distinct public green space. To revive its legacy, the pleasure garden will introduce past programmes that made it successful in its heyday
As part of the Vauxhall regeneration scheme, the pleasure garden will provide facilities that will rejuvenate the area, taking into account the activity that currently surround the site
In relation to Generation Z, the Pleasure garden will provide facilities to support the Botanic Laboratory explored in the first project while also serving itself
INITIAL DESIGN STRATEGY KEY: Permanent structure Tessilating landscape
1:1000
<A>
An extension of the functions of the Vauxhall garden community centre and the botanic laboratory,this area will be a dedicated refectory and kitchen that will be used the produce grown in the allotments and laboratory
Project 1-
Botanical L
aboratory
expansion
and further
developmen
t
<B>
To promote business in the shops underneath the bridge, a series of retail units facing the existing shops will be developed
<E>
<D> To help the functionings of the Vauxhall City Farm, The Pleasure Gardens will house a dedicated Riding stable and school. 2
<C>
An extension of the Royal Vauxhall Tavern, an outdoor platform area will be developed that leads onto the park
Seeking a solution into how the park could be divided
PLAN DEVELOPMENT
Filename: F:\BUILDING CAD\150225 botanic laboratory plan and section maker 2.dwg Plotted by: Tim Plot Time: 2/25/2015 10:12 AM
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Kohn Pedersen Fox Associates (International) PA Architects & Planning Consultants 7a Langley Street London WC2H 9JA, United Kingdom Tel: +44 (0)20 31195300 Fax: +44 (0)20 74971175
Architect
Covent Garden London 2nd Floor, Carriage Hall, 29 Floral Street London WC2E 9DP, United Kingdom Tel: +44 (0)87 0780 5001
Client
VAUXHALL PLEASURE GARDENS
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VAUXHALL PLEASURE GARDENS
1:2000
INITIAL SITE DIVISION To organise the site, the inital idea was to divide the large park space into zones that will have different functions, The idea was that each zone would be dedicated to an aspect of a flower promoting the idea of the park being a part or a representation of nature. The component based architecture will be seen as biodiversity of organism in the park.
GREEN
AND EV
ENTS S
PACE
SHELTE
RED AC
TIVITY
PRODU
CTION
3
9
1
10
5
4
11
12
6
7
13
14
8
2
1
-Flower Pavillion -Flower Pavillion
-Flower Pavillion 2
-Fan wall
N
PRODUCTIO
SHELTERED ACTIVITY
GREEN AND CE EVENTS SPA
-Botanic Laboratory
3
ool -Cookery Sch -Cafe
4 5
6 7 8
ch -Football pit ze a m -Flower -Reservoir Skate park
-Allotments
9
10 11
ard
-Flower Orch -Bee Hives
12
13 14
s
-Greenhouse
-Water tower ne -Compost zo
1:1000
BUILDING FORM AND SYSTEMS
Green and Events Space
The Original Vauxhall Pleasure Garden was a popular attraction for its greenery and as a venue capable of hosting a variety of festivals. It is the intent of the regeneration scheme to provide or retain a green public space with a series of deployable structures/ pavilions enabling it host outdoor public events, most notably a seasonal market where produce from the orchards, greenhouses and botanic laboratory could be sold to the public.
Sheltered Activity Zone
Production Zone
Plant production is not the only focus of the regeneration scheme. A park aimed at Generation Z, the Pleasure Garden will offer a sheltered activity zone that will provide a playground, sports facilities and cookery school cafe that can be enjoyed all year round not just when the plants need attention.
This plant growing aspect is continued into the Pleasure Garden where the scale is increased to provide a flower orchard and series of greenhouses. The proximity to Vauxhall City Farm is taken advantage of, where the farm would produce the raw materials for good organic compost while the Pleasure Garden would provide the produce for its animals.
Recycle centre for public where food waste could be collected for used for composting
Vauxhall City Farm waste usage
Seasonal market stall
Acoustic Fans
Flower Bed
Green and Events Space
Botanic Laboratory
Flower Pavillion
Sheltered Activity Zone
Reservoir Skatepark
Playground
Cookery School
Bee hives
Climate controlled greenhouses
Rose beds
Production Zone 3
2
1
1
2
1
2.1
2.2
Green
Sheltered Production
1 Green Nooks
2 Botanic Laboratory
Green
Sheltered Production
1 Flower Pavillion
2 Playground 3 Kitchen Units
4
3
3
2.3
4 Rosebed and Bee hives
Green
Sheltered Production
1 Stem Pavillion
3 2.1 Maze Green 2.2 Velodrome 2.3 Mini football houses
Green
Sheltered Production
3
2
1 Acoustic fan
1
2 3 1 4
1:2000
3 Allotment area
2
3
Reservoir skatepark
Compost making facility
1
Public recycle area
2
Manure and hay barn
3
Services hut
4
Paddocks
OVERALL PARK DEVELOPMENT 1
Leaf Canopy Activity Zone & Greenspace Zone
OVERALL PARK DEVELOPMENT 2
Botanical Laboratory Production Zone
OVERALL PARK DEVELOPMENT 3
OVERALL LAYOUT DEVELOPMENT The Pleasure Garden consists of many different components that have specialized functions depending on its zoning. The Portfolio will show the design development of the park by dividing it into 3 sections
Leaf Canopy Activity Zone Focuses on structural integrity of the canopy structure and goes into the small detail level for the joints and connections
Botanical Laboratory The modular nature of this area means that each component will be resolved in detail with a focus on the relationship they have with each other
Production and Green Zone Modular Structures The small pavillions and greenhouse modules seek to use the environment in some way and reacts to the seasons or weather, this package will focuse on these seasonally changing spaces
LEAF CANOPY ACTIVITY ZONE
2
1
CANOPY STRUCTURE DEVELOPMENT The Canopy that covers the sheltered activity zone was the main focus of discussion with the structural engineer. The concept was to have a large span, lightweight canopy with a minimal footprint: Concept Sketch
55m
50m Initial concept was first translated to a simple portal frame with a flat overhang canopy supported by secondary end poles
It was thought that by having a tension system with poles at the end, the number of columns could be reduced significantly
The 4 stages to the right demonstrates the options explored in creating this canopy. It focused on a portal frame initially that developed into a tension baseds system with large grounded poles to brace the opposing ends of the ‘leaf’ structure with cables. This inital design approach has couple of major structural issues that was brought on by the engineer. Both issues being related to the wind conditions of the site.
- Excessive wind load will catch the canopy and it could potentially float away
- Tension system will be insufficient to hold the canopy in place. The foundations needed for the poles need to be much thicker and this still does little to help the canopy be stable in excessive wind load
3
4
stru
ctur
al b
race
s
The issue! Wind Load on Canopy
The leaf canopy was given a 3D space allowing for rain run off. 2 structural beams was maintained to connect the leaves together to a single rigid structure
CANOPY STRUCTURE AND CONSTRUCTION SEQUENCE
The supporting collumns are triangulated for strength and small pavillions are hung from the primary structural beams
1
2
3
Foundations set in situ.
Steel half frame attached to foundations
Concrete and timber laminate panels attached to steel frame to achieve balance
4
5
6
Structural brace attached to join all canopy units
Steel frames of each canopy completed to strengthen entire structure
ETFE and GRP panels attached to steel frame to complete structure
The complete canopy is composed of 3 different sizes of the leaf structures. The sizes of the foundation for each is dependant on the size of the overhang. There is a a structural brace that holds the whole structure together just underneath the ETFE and GRP layers: Sketch section to show scale
Structural brace diagram- plan view
TYPE 1
TYPE 3
TYPE 2
precedent: Luigi Nervi’s concrete legged structures
TESTING THE CANOPY MODULES
Footing experiment paper model 1
Footing experiment paper model 2
Footing experiment paper model 3
To deal with the wind, the structural engineer suggested changes to the following characteristics of the design: Footing and ‘continuous structure’ option
option
1
The poles needed for the tension structure needs to be much wider and buried deeper for it to be effective.
By having a footing with a ‘heavy’ material like concrete and a ‘light’ frame such as aluminium like this will allow for greater stability.
2
Y HEAV
option
2
NEEDS SUPPORT
NEEDS SUPPORT
Model most like the option 2 diagram. However, with the model being entirely paper with no weighting towards the footing, it could not support itself. From this model, it was also evident that the footing footprint and overhang is an important part of finding the balance.
Footprint was widened and made heavier with creases to the central stem. Almost balance but still unbalanced.
SELF SUPPORTING support needed for more continuous shape to the ground
Made to self support by:
-Much denser base -Wider footprint -Fan shape with multiple creases to footing
TAKEN FORWARD
Structural integrity
Using the infomation from the footing experiment, I made a series of brass models with the same hexagonal canopy area to determine which solution would require the LEAST amount of weight on its footing for the structure to balance.
Weight experiment brass model 1
Weight experiment brass model 2
43.5g
Weight experiment brass model 3
52.0g
28.5g
The sturdiness of the overall frame was also examined, exploring triangulations and box frames.
CANOPY DEVELOPMENT AND VARYING MATERIALITY SELECTION FOR BALANCE This is the canopy structure developed from the tests. In order to balance the structure, it is necessary to use much denser material towards the area
Overhang
ETFE
GRP
Material Density Increase
Glass Reinforced Plastic
Timber Laminate
Concrete Panels
In-situ
ces bra py l a r o ctu can stru next to
Steel
frame
Concrete Foundation Foundation
es rac y b l ra op ctu t can u r t s nex to
Transluscent Acrylic Panel roofing
TENSILE FRAME WITH TRANSLUCENT ACRYLIC PANELS AND PETAL DRYING AREA
Detail F1
Underneath the ETFE panels and the steel frame, a decorative roofing system is employed that hang from the structural members and connected to the kitchen/ cafe area.
2.
1.
3.
Exploded axo of secondary PTFE cone roofing detail 4.
Aluminium Cross brace
1. 2. 3. 4.
Acrylic holding joint Steel cable net Acylic petal (size varies) PE joining connectors
Petal drying orbs area
Frame type B
1.
Detail F2 1. 2. 3. 4.
Wind
Aluminium mesh orb half Flower petals (from production area) Aluminium mesh orb half Orb holding steel frame
2.
Transluscent acrylic panel roofing
F1
3.
F2 Petal drying orbs area 4.
Sec Kitchen / cafe module
tion
T1
Transluscent Acrylic Panel roofing usage
Key precedent: Ball and Nogues Studio
SCALE 1:10
Petal drying orbs area acylic shading
This studio made a name for themselves using acylic panels to create fun and playful environments. It is the intent of the acylic shading to do the same thing.
Section T1 SCALE 1:10
SCALE 1:20
Frame type
Frame type
A
B
STEEL MAINFRAME BREAKDOWN The Leaf canopy can be seen as a complex portal frame composed of 2 types of steel frame. It was been created with the structural development in mind. This page explores how the frame in constructed:
ral
S3
S3
e
ac
br
S2
tu uc
str
B
e
rac
tu
uc
str
b ral
A
S1
S1
Frame assembly axonometric view
Frame assembly axonometric view
Structural materials:
In-situ concrete foundation
Steel
These are the materials only for the strucutral mainframe and foundation. The steel frame will consist mostly of I beams, with joints being welded or bolted together.
In-situ concrete foundation
In-situ concrete foundation
Detail S2
Detail S1
Detail S3
1.
1.
2.
2.
4.
2.
B
3. 1.
1. 2.
1. 2.
6.
1.
3.
4. 2.
2. 4.
A 3.
5.
4.
2.
Mechanically joined portal frame joint 1.
Steel I beam 100 x 100mm section with 6mm web
2.
L plate steel brace with 24mm nuts and bolts
3.
C plate steel brace with 24mm nuts and bolts
4.A
Steel square section beam 20 x 20mm section
4.B
Steel square section beam 20 x 20mm section (only for frame type B)
Complex brace joint 1.
Custom cast steel central column (120mm dia) with welded tabs
2. 3.
Rectangular steel sections 60 x 20mm section with 24mm nuts and bolts Steel tension cable brace Steel Cable (30mm dia)
Structural brace holding joint (rotation tolerant) 1.
Custom cast steel pin (40mm dia)
2. 3.
24mm nuts and bolts
4.
Structural ring brace (110mm outer dia 82mm inner dia
Structural brace (80mm outer dia)
Detail T1
TENSION BRACE FOR PTFE FABRIC ROOFING
Tension cable holding joint
The PTFE fabric is attached to the steel frame via cables with a series of joints attached on top of the joints of the steel mainframe explored in detail S2 and S3. Steel cables join to the joints via tension, keeping the PTFE fabric taut. Exploded axo of frame
with PTFE attachment scheme
A
PTFE sheets
1.
Steel Cable Brace Steel Cable diameter 30mm
2.
Steel Cable Brace plate Plate thickness 20mm
3.
Steel rotational joint
4.
Steel brace over S3 joint (male) Plate thickness 40mm
5.
Steel brace over S3 joint (female) Plate thickness 40mm
6.
12mm nuts and bolts
T2 2.
T1
frame
T3
1.
A
3.
only 4.
T2
Detail S3
6.
Axonometric view of frame
A
with roofing joints 5.
PTFE FABRIC ATTACHMENT The PTFE attachment to the steel cable is explored in detail T2. Detail T3 shows the joint attached to the complex brace joint. It uses the same cable brace as detail T1:
Detail T3
Cable Distribution Joint 12mm nuts and bolts
Detail T2 1.
1.
Rubber moulded cap
2. Steel Cable Brace joint (hinged) 3.
Steel Cable (30mm Diameter)
Steel Ring Frame 160mm outer dia 120mm inner dia
Steel Clip 2. 3. Steel Seem
T2
2.
T2
2. 2.
T2 Detail S2 Translucent PTFE fabric
Key Materials:
PTFE sheets
Steel Cable
Aluminium Profiles
T2
SECONDARY TENSION FRAME DETAILS
Exploded axo of secondary PTFE cone roofing detail
PTFE sheets
1.
Translucent PTFE fabric
2.
Aluminium ring brace (diameter: 340mm) (section thickness: 50mm)
3.
Steel cable in tension (diameter: 30mm)
4.
Aluminium central collumn (diameter: 100mm)
5.
Aluminium column brace (diameter: 20mm)
6.
Aluminium cross brace (rod diameter: 50mm)
7.
PTFE fabric anchor
Detail T4
PTFE cone forming aluminium frame
1.
T4
rame
um F
ini Alum
Aluminium Cross brace
2. 3. 4.
7. 5.
6.
Exploded axo showing aluminium cross brace and ETFE
ETFE panels
1.
Cast Aluminium plug
2.
Aluminium hexagon brace (section depth: 160mm)
3.
Custom Aluminium profile (Profile thickness: 10mm)
4.
Aluminium profile holding linkage
5.
Aluminium cross brace (diameter: 50mm)
Detail E1
ETFE holding aluminium frame joint
6. ETFE 7.
14mm nuts and bolts 1.
Aluminium Cross brace
Ground level E1
3.
6.
2.
7.
4.
Key Materials 5.
PTFE sheets
Aluminium Profiles
Steel Cable
ETFE sheets
OVERALL CANOPY ASSEMBLY AGAINST WIND FORCES The leaf canopy area suffers from the stress from the wind due to is large surface area, This page describes how sturdyness is achieved for structural integrity
1
Pad foundation to distribute forces from the portal frames much more evenly as compared to pile foundations
2
Leaf canopy is made of 6 module portal frames joined by a structural brace running through them for structural coherency
3
4
Lightweight PTFE fabric is used for the roofing while foundation and stem area uses heavier materials for ensure mimimal moment forces
4
Cross braced aluminium frame that supports ETFE cells while also providing much needed structural integrity to canopy
5
Load is not on the foundations alone, the kitchen modules are connected to the canopy to distribute weight more evenly 5
MONTHLY WIND ROSES
JAN
MAR
FEB
1
APR
3
MAY
JUN
JUL
AUG
ce
ra
b al
r
ctu
tru
SEP OCT
NOV
DEC
2
S
e
ac
ra
tu
c tru
r lb
S
SOUTH WESTERLY Prevailing Wind: 11.5mph
SECT
ION
S1
STRUCTURAL PERFORMANCE
SECTION S1
tension
Prevailing Wind: 11.5mph
tension compress ion
tensio n comp ressio
n
n
on
ssi
pre
sio
ten
com
Bending moment applies
AREA AFFECTED BY PREVAILING WIND
Steel Density 8,050 kg/m3
Timber Laminate Density 610 kg/m3
Concrete Density 2,370 kg/m3
Volumn 6.44m3
Volumn 2.32m3
Volumn 3.59m3
Mass 51842 kg
Mass 1415 kg
Mass 8508 kg Total mass = 61765
Sou pre th we s vai ling terly win d
72.23m2
kg
PRODUCTION AND GREEN ZONE MODULAR STRUCTURES
Compost Bin Key
MODULAR GREENHOUSE UNITS These units will be pre fabricated offsite and attached onto the base that will exist prior to their installation. It will use the smart compost bins to acess compost directly without the need for going outside the greenhouse module.
1.
Ventilation curtain grill (steel and perspex construct)
2.
Polypropylene panel with Perspex hatch (400 x 230mm)
3.
Polypropylene panel (thickness 10mm)
4.
Polypropylene panel with Perspex hatch (400 x 330mm)
5.
Steel frame construct with steel square sections (section 10 x 10mm)
6.
Polypropylene panel with Perspex hatch (400 x 330mm)
7.
Insulated cover SEE DETAIL C1.1 for laer detail
8.
Polypropylene panel covering (thickness 10mm)
9.
Heat conducting pipe (diameter 60mm)
10.
Moving trolley (Aluminium construct)
SMART COMPOST BIN MAKE UP The compost in the bins are used not just for plants but are used for the heat they produce. In order to exploit the heat, the bins are modular for ease of use.
Compost Bin usage
soil out to greenhouse
8. 6.
7.
Compost getting more potent over time and pressure producing heat
in t waste
Plan
5.
1.
st out
Compo
2.
Insulated wall for cover
Insulation strategy precedent 3.
9.
Polypropylene 4.
Silver insulation layer 10.
Vacuum
Scale 1:1
Fucntion Key: 1.
Rubber sealed waterproof edge for polycarbonate roof, opened when greehouse overheats
2.
Canal for service pipes
1.
2. 3. Water supply hose, used to control humidity 4.
Fan coil unit for mechanical ventilation if needed
3.
5. Soil holding side frame for plant growth 6.
Hatch to access soil when smart compost bin is put under
4.
5.
6.
Scale 1:20
FLOWERBED PAVILLION AND ITS HEATING SYSTEM The Flower pavillion utilizes the heat of the smart compost bin from the greenhouses in the winter. This page shows how heat is used in the flower pavillion.
Heat pump system in winter
Smart compost bin installtion process
Fully enclosed pavillion in winter
Samsung Air Source Heat Pump 9kw Mono HP RC090MHXEA Flowers Grown around pavillion
Heat exchange diagram
compressor
Heat released through fans
condenser
Function Key: 1.
Frosted Polyproplyn roofing to prevent glare from sunlight
2.
Locking overhang to hold smart compost bin when deployed
3.
Compost bin installation
4.
Permanent concrete seating
5.
Piping and heating exchange system to be deployed in winter for heated pavillions 1.
2.
3.
4.
5.
Scale 1:20
DEVELOPEMENT TRANSFORMATION SEQUENCE
ACOUSTIC FAN DEVELOPMENT The Acoustic Fans primary function is to reduce noise from the train line. This is achieved by having large noise cancelling structures that are closest to the source of the noise.
ACOUSTIC FAN ELEVATION
ACOUSTIC SECTION MAKE UP AXO
NYLON SKIN
ACOUSTIC FOAM HINGE WATER WEIGHT
ALUMINIUM FRAME
ACOUSTIC FAN ATTACHED TO RAILWAY BRIDGE
ACOUSTIC FAN SWAYING IN THE WIND
BOTANICAL LABORATORY
BOTANICAL LABORATORY STRUCTURAL DEVELOPMENT Seeking a way to improve the structural scheme of the first term project in its expansion scheme
MODULAR ETFE ROOF
MAINFRAME
HANGING GARDEN MODULES
WIND CORES
BOTANICAL LABORATORY STRUCTURAL STRATEGY 1
2
The main structural challenge of the Botanical Laboratory is its modular, hexagonal roofscape. The hexagonal units are created using two distinct units: -The Rooftop Allotment Cores -Allotment Light Canopy Units
KEY: The Rooftop Allotment Cores Allotment Light Canopy Units with retained column support Removed column
Aluminium ducts are given thickness and bolted onto the inner frame of hexagons
3
26 37
The surface area of the bolted aluminium ducts gives strength to the connection between hexagons
Hex to Hex connection
Columns Removed
Photo voltaic cell walkway panel
Diagram highlighting units connected to floor through columns and columns to be removed KEY: The Rooftop Allotment Cores Allotment Light Canopy Units with retained column support
Secondary inner frame
Load transmission
ned cts the m Du g n u e Str mini u Al er ris ric ator t c Ele ener g to res en to i W th d an
Electrical Invertor
Diagram showing load distribution from hanging hexagons to floor through columns and cores
CONSTRUCTION SEQUENCE REPEAT FOR PHASE 2 TO 7 following â&#x20AC;&#x2DC;Growthâ&#x20AC;&#x2122; Plan schematic arrangement
The Growth Plan has established the overall sequence of components to be added over time. However, it did not specify the hierarchy in which the components come together. Here is how the components should be assembled, taking phase 1 as the primary example:
1
2
3
4
Pipe installation by crane
site excavated to install MEP pipes leading to machine room
INSERT
ses
ver
do
nts
me llot
ace epl
ha er p
lat
er
to b
O O M
RE
RE
M
O
VE
VE
RE
RE
M
M
ar dul mo one non ture z c stru
VE
O VE
a
INSERT
Permanent/ non-modular structure constructed. MEP mainframe installed under the site
PHASE 1
Courgette beds and route maker installed as foundations to : rootop allotment cores allotment light canopy units vertical herb towers water collection tanks also installed
rootop allotment cores allotment light canopy units vertical herb towers fully installed
Excess stems of allotment light canopy units removed Modular structures made off site brought to site and installed: leaf shelter topsy turvy tomato planter and market stall harvestor bench
Component Key:
BOTANICAL LABORATORY DELIVERY ‘GROWTH’ PLAN SCHEMATIC
courgette bed and route maker
Rooftop allotment cores
Allotment light canopy unit
Vertical Herb Tower
Hangin Tree Nursery
Leaf Shelter
Topsy Turvy Tomato Planter & market stall
Harvester Benches
PHASE 3 PHASE 7
PHASE 6
PHASE 5
PHASE 3
PHASE 4
PHASE 2
PHASE 1
end
PHASE 4
PHASE 2
PHASE 5
start
Machine room
all allotment replaced
Compost heaps
1:2000
DELIVERY TIMELINE
PRE CONSTRUCTION Planning application Expansion scheme planning
Machine room
MODULAR COMPONENTS INSTALLATION
summer market
summer market
ss C on om sit pon e e
YEAR 13
Winter
Winter
Winter
Winter
YEAR 15
PHASE 4
PHASE 5
PHASE 6
PHASE 7
MODULAR COMPONENTS INSTALLATION
MODULAR COMPONENTS INSTALLATION
MODULAR COMPONENTS INSTALLATION
MODULAR COMPONENTS INSTALLATION
summer market
summer market
summer market
summer market
summer market
sold at seasonal markets
sold at seasonal markets
Production of plants to sell
28 to 24
sold at seasonal markets
Expansion scheme planning
MODULAR GREENHOUSE INSTALLATIONS
un it
Planning application
sold at seasonal markets
NON MODULAR CORE BASE AND GARDENS CONSTRUCTION
5
PRE CONSTRUCTION
autumn harvest
autumn harvest
autumn harvest
autumn harvest
autumn harvest
autumn harvest
PHASE 2
to
PHASE 1
un it 1
PHASE 0
autumn harvest
END
ETC.
KEY: Fund generation Short Term events
PRE CONSTRUCTION
DESGIN
Phases or project milestones
PHASE 1
PHASE 0 PREPARATION
Leaf Canopy Activity Zone & Greenspace Zone
nt
nt
nt C on om sit pon e e
C on om sit pon e e Components made off site
summer market
Fundraising autumn harvest
CONSTRUCTION
See RIBA Plan of Work
END
Phase explanation and time extents
IN USE Revenue Generation from Acoustic Fan advertising
£86400 per annum
£86400 per annum
£86400 per annum
£86400 per annum
et
et ss
et ss
A l ge lotm ne e ra nt tio n re
re
C on om sit pon e e
nt
A l ge lotm ne e ra nt tio n
ss
et
et ss nt C on om sit pon e e
re MODULAR COMPONENTS INSTALLATION
summer market
summer market
Compost heaps
Components made off site
Components made off site
YEAR 11
PHASE 3
autumn harvest
Production Zone
YEAR 9
PHASE 2 MODULAR COMPONENTS INSTALLATION
NON MODULAR STRUCTURE CONSTRUCTION
A l ge lotm ne e ra nt tio n
ss
et
PHASE 1
PHASE 0
Botanical Laboratory
C on om sit pon e e
Winter
START
YEAR 7
Winter
YEAR5
Components made off site
Winter
YEAR 3
Components made off site
Components made off site
Components made off site
YEAR 1
nt
A l ge lotm ne e ra nt tio n re
re
C on om sit pon e e
nt
A l ge lotm ne e ra nt tio n
ss
et
The different rate in which the buildings are constructed is summed up in this time line diagram.
ETC.
autumn harvest
END
BOTANICAL LABORATORY MODULAR SYSTEM FOR GROWTH OVER TIME
Vertical Herb Tower
Allotment Light Canopy Units
Rooftop Allotment Cores The Botanical Laboratory part of the Pleasure Gardens is a modular system where new elements can be added on over time as the Garden makes money by selling the produce it grows. These are the 8 modular elements of the system:
Courgette Beds and Route Makers
water collection trumpet
solar panel walkway
roof top allotments
garden unit water collection trumpet
Plant light: Ceramic metal halide (CDM)
electrical riser Steel brace guide
Rotating herb pot shelves
generator hatch
footing same as rooftop allotment cores
circulation upwards
Courgette beds Excess collumn can be removed when braced by neighbouring unit
Herbs grown
Function
Route making blocks
to steel brace taps
to allotments
Function
Function
Function
These components guide the arrangement of the botanic laboratory. The steel brace guides function as foundation to the courgette beds and route making blocks and rough the pile, able to draw water collected in the rooftop allotmen cores
These cores allow people go up to the hexagonal allotments gardens while also collecting water to be used got the plants below. It also has electrical riser that functions to regulate the solar panels from the allotment light canopy units
These units join onto the rooftop allotment cores to cover the level below. The energy gained is used to power CDM lights to promote growth of the courgettes
Hanging Tree Nursery
Leaf Shelter
Topsy Turvy Tomato Planter and Market Stall
Varient of the rooftop allotment core, these tower hold pots that grows herbs that can be harvested all year round. The vertical stacking lets for compact and ecomonic growth
Harvester Benches Hanging Tree Nursery
normal use tree holder plugin
Leaf shelter provide access to topsy planters
generator
leaf light ladder roofstop allotments core halves
harvest use
Topsy turvy pot
Hinge mechanism
Market mode Transformation sequence tool storage
1.
2.
3.
4.
Function These units are attached to adjacent rooftop allotment cores. Trees are grown in specialized pods where some roots are exposed were children can actually rouch them and understand the plant anatomy. Once the tree reaches a certain size, it is replanted and replaced.
Function These installations provide shelter from rain and holds the topsy turvy tomato plants in place in times of non harvest. It also has a storage unit for tools to look after the tomatoes.
Function
Function Function
These are the main units of education for Generation Z, Tomatoes are grown unside down where the ladder, when rotated will generate light. In harvest time, these can be transformed into market stalls.
Used units to travel route to makers during harvest time These are the attached adjacent rooftop allotment cores. Trees are grown in specialized pods where some roots are exposed were children can actually rouch them and understand the plant anatomy. Once the tree reaches a certain size, it is replanted and replaced.
Water is collected from the water collection trumpets and stored in the tank under each core and herb tower units
1
3
The botanic Laboratory aims to recycle rain water collected through its water trumpets. The water will be collected and stored at the foot of the core and herb towers. The water will then be filtered and pumped from the machine room to the allotments and courgette beds
BOTANICAL LABORATORY WATER COLLECTION/ PLUMBING SYSTEM
2
1
Filtration system
Water is pumped into the machine room and filtered, ready for redistribution
Water pump
2
Watering fountains placed in the allotment area and courgette growing units will utilize the collected water when needs be
3
Distribution around Pleasure Garden
Machine room generator
e fa ctric Pl cil ity ea iti su es to o re in th Ga th er rd e en
El
Plant Grow light
Battery in core
Electical riser in core
Electical Inverter
Photovoltaic cell walkway
SUNLIGHT
The botanic Laboratory havests sunlight and converts them to electical energy to be used in the sheds and other parts of the Pleasure Garden.
BOTANICAL LABORATORY ENERGY HARVEST AND DISTRIBUTION SYSTEM
1
Ele ct Po ricit we y f r G rom rid
1
Photovoltaic Cells can now be developed to be transparent to an extent. The light canopy units will have these cells covering the hexagonal units to gain sunlight for electricity.
2
The harvested electrical energy is used in times of low light for the courgettes below. The bulbs used will be plant growing light bulb that expell light wavelengths most beneficial for plant growth
2
Route maker foundations exploded view axo
COURGETTE BED AND ROUTE MAKER FOUNDATIONS Interchangable Pin tops
The modules introduced in the growth plan in section 1 are explained in terms of construction and their relationship to other components. Materiality and structural and mechanical properties are also explored
1
Normal Pin
2
Decking Support Pin
3
Tap attachment Pin
1. 2. 3. 4. 5. 6. 7. 8. 9.
Steel holding jig (male) Steel arms 100mm Steel Connection Plates 30mm Nuts and Bolts M12 Steel Holding jig (female) Steel pillar to concrete base welded structural fins Concrete Pile PVC pipe 6mm
3 2
Location Key:
1
1. 2.
2.
Tap attachment piping 2. 2. 3.
Ground floor plan
4.
5. 2. 6.
7.
9.
8. to Plumbing system
COURGETTE BED AND ROUTE MAKER BLOCKS These units are what plugs into the route making foundations. The three blocks shown below are simple concrete blocks that fit snuggly into the gaps created by joining the star shapes. The Courgette Bed themselves are more involved in there construct as to prevent frost overcoming the courgettes in winter.
Slope Block
Courgette Bed route making block exploded axo
1
Block insertion into route making foundation
Direction Block 1. 2. 3. 4. 5. 6. 7.
Corner Block
Anti frost nylon mesh net (Net length: 1200mm) Steel Bracket (Rectangular section: 80 x 20mm) Mesh holding pins (Pin length: 230mm) Pin holding case (Pine plywood) Pine veneer Laminate clear toughness coating (thickness: 6mm) Pre-cast reinforced concrete base M10 nuts and bolts
2.
1.
2
Courgette Bed normal use
Key Materials: 3.
Concrete Block
Nylon Mesh 4.
5.
Timber Laminate
Concrete Pile 7.
3 Steel
PVC pipe
6.
Courgette Bed winter covering
Foundation for Vertical Herb Tower and Rooftop Allotment Cores
BOTANICAL LABORATORY FOUNDATION TYPES PILE FOUNDATION INSTALLATION SEQUENCES
4
3
2
1 The pile foundations are installed differently according to which modular component it holds up. This page will explore the different configurations in the foundationâ&#x20AC;&#x2122;s installation:
1 2.Steel pin assembled as shown in the exploded axo Site excavated with reinforced concrete cylinder for water tank placement
Route maker foundation installed as shown in the sequence on left column
Steel frame of Vertical herb tower and Rooftop allotment cores attached
Concrete block stair added to complete stabilisation
7.
1. Concrete Pile first installed
1. 3.
5.
3.
2.
2 3. Structural fins welded in place 6.
3
4. Foundations are joined mechanically via connection plate
1. 2. 3. 4. 5. 6. 7.
Pre cast concrete water tank (wall thickness: 100mm) Route maker foundation with decking support pin see detail A0 Route maker blockPre cast concrete block Reinforced concrete cylinder Pine veneer Laminate Timber decking -clear toughness coating (thickness: 6mm) Compacted Earth Steel frame of Vertical herb tower/ Rooftop allotment
4.
SCALE 1:25
Foundation for Light Canopy Units
1.
SPECIAL COURGETTE BED FOR LIGHT CANOPY UNITS It has been identified that the stems of some Light Canopy units will be removed with the growth of the Botanic Laboratory. This page will show how this is achieved:
3.
5.
6.
2.
Exploded axo of foundation for light canopy units 7.
Timber Decking
Concrete pot foundation for courgettes
Light canopy unit stem (can be removed)
1. Stem from light canopy unit Steel section 100 x 40m 2. Route maker foundation with decking support pin see detail A0.0 3. Route maker block Pre cast concrete block 4. Reinforced concrete pile Cast in-situ 5. Pine veneer Laminate Timber decking -clear toughness coating (thickness: 6mm) 6. Steel brace system for foundation 7. Compacted Earth
4.
SCALE 1:50
Steel stem connection to pile foundation Route maker foundation see Detail A0.1 Route maker Blocks see Detail A0.2
Foundation for Light Canopy Units- Stem Removed 1.
3.
5. 2. 6.
1. Timber cap seat 2. Route maker foundation with decking support pin see detail A0.0 3. Route maker block Pre cast concrete block 4. Reinforced concrete pile Cast in-situ 5. Pine veneer Laminate Timber decking -clear toughness coating (thickness: 6mm) 6. Steel brace system for foundation 7. Compacted Earth
7.
4.
SCALE 1:50
1.
TOPSY TURVY TOMATO PLANTER
TOPSY TURVY TOMATO PLANTER SECTION
2.
The planter is capable of changing into a market stall (as shown below) This section shows how it slots into the leaf shelter and the inner mechamism of the light generating rotating ladder. Further details will be extracted from this section in the next page.
1. 3. 2.
3.
Upside town tomato pot installation
4.
4. 6. 5. 7.
5.
8.
9. 6.
Plan View 1. 2. 3. 4. 5. 6.
SCALE 1:20
Plywood identification plate Generator and battery area Tomato pot holding frame Steel column Light emitting leaf step Market/ storage area
10.
POWER GENERATION DETAIL These details show the system used to generate energy for the light leaf steps slot 11.
Leaf Shelter 1.
DETAIL A9
2. 7.
8.
Foldout stall cabinet detail
9.
10. 4.
5.
3.
11. 12.
1.
2. DETAIL A9.2
3. 4. 5. 6. 7.
DETAIL A9.3
6. Identification panel Oak veneer laminate Thickness: 24mm GRP connector to thread rod Custom mould Steel Threading Screwing Rod Diameter: 60mm Evopower EVO1000i 1kW Suitcase Inverter Generator Type 027 Varta Silver Dynamic Battery 12V 63Ah (Short Code: D15) Electrical inverter (Extract from inverter generator 4.) Pine cross laminate timber frame Thickness 26mm
8. 9. 10. 11. 12.
Injection moulded Tomato pot (PP) Diameter: 20mm Steel leg collumn Diameter: 60mm Leaf step Pine cross laminate door Ball Bearing wheel Wheel diameter: 120mm
12.
13. 14.
18.
17.
16. 15.
SECTION 1:20
4.
5.
SCALE 1:5
1. Polycarbonate waterproofing cap Thickness: 20mm 2. Evopower EVO1000i 1kW Suitcase Inverter Generator 3. Polycarbonate hatch door 4. Oak cross plywood Thickness: 60mm 5. Type 027 Varta Silver Dynamic Battery 12V 63Ah (Short Code: D15) 6. M6 nuts and bolts 7. Steel bracing branch 8. Electrical inverter (Extract from inverter generator 2.) 9. Steel Threading Screwing Rod Diameter: 60mm 10. Thead holding brace PP plastic coating to prevent electrical conduction 11. Pine cross laminate timber frame Thickness 26mm 12. Electricity transfer wire 13. M8 pile bolts 14. Copper wire 15. Panel closing brace 16. Steel section Thickness: 10mm 17. LED plant grow lights 18. Polycarbonate access panel
SCALE 1:5
DETAIL A9
Foldout stall cabinet detail
SCALE 1:10
BOTANIC LABORATORY GA PLANS
Ground Level Plan
SECTION B
4.
6.
SECTION C 10.
1. SECTION A
7. 3.
13.
8.
11.
2.
15.
5.
14.
9.
12.
Key: 1. 2. 3. 4. 5. 6. 7. 8. 9. 10.
Leaf Shelter Play area for Generation Z Children Picnic area with harvestor benches Slope into Courgette Beds Entrance to Rooftop Allotments Topsy Turvy Tomato Planter Watering tap for Courgette Beds Machine room Semi Sheltered Composting area Allotment Shed Allotment Area entrance
11. 12. 13. 14. 15.
Harvestor resting platform Water faucet for watering cans Allotment patches Vertical herb towers Courgette growing beds
1:500
First/ Roof Level Plan
1.
11.
10. 5.
6.
12.
13.
4.
7.
2.
3.
8.
9.
Key: 1. 2. 3. 4. 5. 6. 7. 8. 9. 10.
Rooftop Allotment Core Allotment Light Canopy units Hanging Tree Nursery Routes for Harvester Benches Allotment overseeing area Picnic Area Vertican Herb Tower Topsy Turvy Tomato Planter Water collecting trumpet Market area for harvest times
11. 12. 13.
Harvestor bench Repair area Vehicle drop off area Teacher Sitting Area
1:500
Section Key:
1.
Section A
2.
BOTANIC LABORATORY LONG SECTION
Section Key:
Section B
BOTANIC LABORATORY SHORT SECTIONS
4.
3.
5.
1. 2. 3. 4. 5.
Key:
1. 2. 3. 4. 5.
Key:
1.
3.
Topsy Turvy Tomato Planter Leaf Shelter slope entrance to roof Water collection Trumpet Vertical Herb Tower Rooftop Allotment
6.
Vertical Herb Tower in section showing how it funnels water into its base Rooftop Allotments Courgette Beds amd lighting overhead Electical room with riser leading to solar paneled roof Structural column removed unit
2.
6. 7. 8. 9. 10. 11.
Light emitting unit Rooftop Allotment core for access Allotment canopy sloped entrance Hanging Tree Nursery Harvestor Benches Water collection thank foundations
7.
5.
4.
8.
1:100
SCALE Section Key:
Section C
9.
3.
1. 2. 3. 4. 5. 6.
Key:
1.
10.
Electical room with Solar inverter Electrical generator room with battery storage Foundations for allotment light canopies Vertical Herb Tower in section showing how it funnels water into its base Leaf Shelter roofing in section Pots and tools storages
2.
4.
6.
5.
11.
1:100
SCALE
1:100
SCALE
CALENDAR ANNEX
VAUXHALL PLEASURE GARDENS NATURE PEDAGOGIC MODULES This annex explains the different modules shown in the calendar and explains how they help Generation Z members empower their knowledge of nature.
A
B
C
D
E
F
G
H
VERTICAL HERB TOWER
ROOFTOP ALLOTMENT CORES
ALLOTMENT LIGHT CANOPY
HANGING TREE NURSERY
LEAF SHELTER
TOPSY TURVY TOMATO PLANTER
HARVESTOR BENCHES
FLOWERBED PAVILLION
I
J
K
L
M
N
O
ARTIFICAL TREES
FLOWERBED NOOKS
ACOUSTIC FAN
ACOUSTIC FAN DOCK PAVILLION
LEAF CANOPY
ROSE BED
MODULAR GREENHOUSE UNIT
A
VERTICAL HERB TOWER
Herbs grown
Vertical Herb Tower exploded axo
Varient of the rooftop allotment core, these tower hold pots that grows herbs that can be harvested all year round. The vertical stacking lets for compact and ecomonic growth
1. 2. 3.
Polycarbonate with aluminium frame water collection trumpet Polycarbonate panel filler (thickness: 12mm) Same tower configuration as Detail A1 (part 2) Steel Frame Steel section 100 x 40mm Steel cable diameter 20mm
water collection trumpet
1.
Rotating herb pot shelves 2.
1 pot for each student
3.
footing same as rooftop allotment cores (see B)
Pedagogic Approach Each student will be given a pot of herbs that are exclusively for them. It can be customized to the herbs grown and the personality of the pupil. This is so that the pupils feel a sense of responsibility to the plant.
Childrenâ&#x20AC;&#x2122;s engagement with nature achieved through this module (according to Stephen R. Kellert)
Direct
Indirect
Vicarious
Herb Pot installation into tower
B
ROOFTOP ALLOTMENT CORES
Rooftop Allotment Core exploded axo
These cores allow people go up to the hexagonal allotments gardens while also collecting water to be used got the plants below. It also has electrical riser that functions to regulate the solar panels from the allotment light canopy units
roof top allotments
1. 2. 3. 4. 5. 6.
Oak Laminate Pots -clear toughness coating (thickness: 6mm) Polycarbonate with aluminium frame water collection trumpet Pine veneer Laminate Timber fencing -clear toughness coating (thickness: 6mm) Steel Frame Steel section 100 x 40m Polycarbonate shader (thickness 4mm) Steel secondary frame (Steel section 100 x 40m)
2.
1.
water collection trumpet
3.
electrical riser
circulation upwards
Electrical riser section
Stair core funnel 4. 8.
5.
9.
6.
to allotments
to steel brace taps
7. 10.
Pedagogic Approach
The Cores are where the allotment holders have full control over what to grow. Pupils are encouraged to learn from the allotment holders to gain their green fingers.
Childrenâ&#x20AC;&#x2122;s engagement with nature achieved through this module (according to Stephen R. Kellert)
Direct
Indirect
Vicarious
7. Corrugated panel footing (thicknessL4mm) 8. Polycarbonate panel filler (thickness: 12mm) 9. Waterproof GRP panelling (thickness 6mm) 10. Pre cast Concrete walls (thickness 120mm)
C
ALLOTMENT LIGHT CANOPY
Allotment Light Canopy exploded axo
These units join onto the rooftop allotment cores to cover the level below. The energy gained is used to power CDM lights to promote growth of the courgettes
solar panel walkway
1. 2. 3. 4. 5. 6.
Solar Panels 280W Panels transluscent dot matrix Toughened glass treatment Pine veneer Laminate Timber pot -clear toughness coating (thickness: 6mm) Steel Frame Steel section 100 x 40m Polycarbonate panelling (thickness: 6mm) Plant grow Lights Halide type 240W bulbs Polycarbonate panel filler (thickness: 120mm)
1.
garden unit
2.
Allotment Light Canopy joint view generator hatch Plant light: Ceramic metal halide (CDM)
A. B. C. 3. 4.
5.
6.
Pedagogic Approach D.
The light canopyâ&#x20AC;&#x2122;s garden unit is Childrenâ&#x20AC;&#x2122;s engagement with nature designed so the children can emachieved through this module munalte what the adults are doing (according to Stephen R. Kellert) in the allotment cores. It is learning Direct Indirect Vicarious through immitation.
A. B. C. D.
Pine veneer Laminate Timber plug panel -clear toughness coating (thickness: 60mm) Pine veneer Laminate Timber step -clear toughness coating (thickness: 60mm) Pine veneer Laminate Timber panel -clear toughness coating (thickness: 80mm) Secondary support cross frame Welded steel joints (Steel section 100 x 40m)
Stem connection to hexagonal roof units
D
HANGING TREE NURSERY
Hanging Tree Nursery exploded axo
These units are attached to adjacent rooftop allotment cores. Trees are grown in specialized pods where some roots are exposed were children can actually rouch them and understand the plant anatomy. Once the tree reaches a certain size, it is replanted and replaced.
1. 2. 3. 4. 5.
1.
Steel Railing Section Diameter 100mm Steel Ring Brace (thickness: 80mm) Steel cable diameter 20mm Nylon Mesh tree holding pot Pine veneer Laminate Timber panel -clear toughness coating (thickness: 80mm)
2.
3.
4.
Tree to be frown and replanted in park
Rooftop Allotment Core Half 5.
Porous pot
6.
Rooftop Allotment Core Half
Hanging unit in sectional view
Pedagogic Approach The pupils can reach out to touch the roots of the growing trees. This being a direct engagement with nature that is semi controlled. The units are hanging to give the children a literal new perspective to trees.
Childrenâ&#x20AC;&#x2122;s engagement with nature achieved through this module (according to Stephen R. Kellert)
Direct
Indirect
Vicarious
E
LEAF SHELTER Leaf Shelter exploded axo These installations provide shelter from rain and holds the topsy turvy tomato plants in place in times of non harvest. It also has a storage unit for tools to look after the tomatoes.
1. 2. 3. 4. 5. 6. 7.
Grass Reinforced Plastic decking (transluscent resin with Green Pigment) mould thickness 10mm Steel Portal Frame Steel section 100 x 40mm Reinforced concrete pad foundation Rubber Tyer wheel diameter 400mm Steel skeletal frame Steel section 100 x 40mm Steel ball bearings Diameter 320mm Reinforced concrete pad foundation with hinge core
Leaf Shelter Quarter Hinge
5.
1.
6.
2.
Leaf able to part to allow topsy unit o
7.
3.
4.
Pedagogic Approach Joint to Topsy units
This area is designed to emmulate Childrenâ&#x20AC;&#x2122;s engagement with nature nature and see what it would be like achieved through this module to inhabit a leaf. It is the primary (according to Stephen R. Kellert) source of Vicarious interaction with Direct Indirect Vicarious nature in the park.
Joint to mainframe
F
TOPSY TURVY TOMATO PLANTER
1.
Tomato Planter section
2.
These are the main units of education for Generation Z, Tomatoes are grown unside down where the ladder, when rotated will generate light. In harvest time, these can be transformed into market stalls.
generator
leaf light ladder
9.
Topsy turvy pot
1. 2. 3. 4. 5. 6. 7.
Strenghthened steel rod Diameter: 50mm Steel I beam ring Section dimension: 20 x 30mm Nylon fabric roll Fireproof spray treatment Structural Timber base Hardwood: Oak Oak veneer cross plywood Thickness: 20mm Oak veneer crosss plywood door Thickness: 60mm Steel leg on rotational hinge
8. 9. 10. 11. 12. 13. 14.
Oak veneer cross plywood cabinet Rotational hinge with 60mm ball bearing Ventilation slats Toughened acrylic thickness: 20mm Steel L bracket for door end Oak cross ply door Polycarbonate door base Oak section
3.
4. 10. 5. 11.
6. Market mode
12.
7.
Tomatoes as main produce
8.
Pedagogic Approach A new way of engaging the planting process. By giving a new persepctive in tomato growing, the children will come to understand the importance of gravity in plants.
Childrenâ&#x20AC;&#x2122;s engagement with nature achieved through this module (according to Stephen R. Kellert)
Direct
Indirect
Vicarious
9.
13. 14.
SCALE 1:10
G
HARVESTOR BENCH
Harvestor Bench axo
Used to travel the route makers during harvest time. These Harvestor benches are used throughout the park in order to aid the harvests or provided a simple platform for children and adults to interact
1. 2. 3. 4. 5.
Steel Railing Section Diameter 100mm Steel Ring Brace (thickness: 80mm) Steel cable diameter 20mm Nylon Mesh tree holding pot Pine veneer Laminate Timber panel -clear toughness coating (thickness: 80mm)
Bench Mode
1. 2.
3.
4.
routes for harvestor benched
5.
Bench Transformation sequence
Harvestor Mode
Pedagogic Approach
These modules are not strictly Childrenâ&#x20AC;&#x2122;s engagement with nature architectural but provide a function achieved through this module in the harvest time that is critical in (according to Stephen R. Kellert) aiding the children to engage nature Direct Indirect Vicarious in a more convienent way
H
FLOWERBED PAVILLION The flowerbed pavillion is a part of the Greenspace zone that act as sun and rain shelter in the summer and spring while, via the use of the Compost Bins, be transformed into a heated, internal pavillion.
Flowerbed Pavillion exploded axo 1.
Polycarbonate roofing 10mm thick panel (transparent)
2.
Steel frame construct with steel square sections (section 10 x 10mm)
3.
Double glazed energy saving glass doors
4.
Pre-cast concrete seating and foundation
5.
Pine fenced flower bed
6.
Compacted earth
7.
Hatch for heat pump
Pavillion Locations
Smart compost bin installtion process
Fully enclosed pavillion in winter
1.
2.
3.
4. 7.
5.
6.
Pedagogic Approach
By harnessing the heat of the com- Childrenâ&#x20AC;&#x2122;s engagement with nature post the children are leaning about achieved through this module the energy giving side of nature and (according to Stephen R. Kellert) give them a direct insight into being Direct Indirect Vicarious environmentally responsible.
J
FLOWERBED NOOKS
Flowerbed Nook exploded axo
The flower bed nooks are created using the soil that has been excavated within the other parts of the Pleasure Gardens. It offers an intimate space where people could enjoy some private space within the park. Conversely, in times of markets, it can be used as a dock for the market stalls. Flower Bed Nook unit- normal use
1.
Oak veneet ply laminate holding jig 10mm thick panel
2.
Pre-cast concrete seating and foundation
3.
Flower bed
Pavillion Locations
4. Gravel
oh baby!
5.
Compacted earth hill
6.
Compacted earth landscape
7.
Normal soil composition
1.
Flower Bed Nook unit- market stall docking 2.
3. 4.
5.
Pedagogic Approach 6.
7.
These modules blend into the land- Childrenâ&#x20AC;&#x2122;s engagement with nature scape and gives the sense of the soil achieved through this module around the people sitting within it. (according to Stephen R. Kellert) Children can engage this also like a Direct Indirect Vicarious payground.
K
ACOUSTIC FANS
Acoustic Fan semi exploded axo
The Acoustic fan is largely of steel frame construct at its base with the fan element being of much more lightweight construction with an aluminum frame and layers of fabric as shown below:
Fan panel materiality
Commercial poster layer
Waterproof nylon surface Acoustic foam
1.
Steel cables in tension (diameter 100mm)
2.
Poly/plastic Water tank (capacity 19000 litres)
3.
GRP anchoring plate (thickness 20mm)
4.
Hanging baskets
5.
Heat treated steel hinge rod (diameter 200mm)
6.
Hinge mechanism (See Detail A2)
7. Wheels 8. Fan frame and module (see Fan panel materiality) A. Ball bearing diameter 300mm
Aluminium modular frame
B.
Steel Hinge frame (custom cast)
C.
Heat treated steel hinge rod (diameter 200mm)
D.
Poly/plastic Water tank (capacity 19000 litres)
8.
Waterproof nylon surface
M14 nuts and bolts 1. 5.
Pedagogic Approach 6.
2. 3.
4.
C.
A.
The acoustic fan sways in the wind and provide noise control to the park. It is an easy way for Generation Z pupils to gauge the wind in an exaggerated visual way.
Childrenâ&#x20AC;&#x2122;s engagement with nature achieved through this module (according to Stephen R. Kellert)
Direct
Indirect
B.
A.
D.
Vicarious Rotation Mechanism
7.
L
ACOUSTIC FAN DOCK PAVILLIONS
Acoustic Fan Dock exploded axo
Varient of the rooftop allotment core, these tower hold pots that grows herbs that can be harvested all year round. The vertical stacking lets for compact and ecomonic growth
1.
Docking Sequence
Acoustic Fan
2. Reinforced Concrete anchor foundation 3.
Water tank holding steel frame
4.
Pre-cast concrete arch
5.
Steel rod bracing and decking supporting joints
6. Oak veneer plywood decking (treated for waterproofing and toughness) 7.
Steel railing
8.
Pin anchor
9.
Docking cylinder
8.
9.
6.
1.
Diagram showing the anchoring process
5.
Pedagogic Approach
4.
3.
These Modules hold the acoustic fans at different occasions and is also used as flowerbeds that are tended to by the pupils of Vauxhall Primary School
Childrenâ&#x20AC;&#x2122;s engagement with nature achieved through this module (according to Stephen R. Kellert)
Direct
Indirect
Vicarious
2.
M
LEAF CANOPY Leaf Canopy exploded axo The Canopy that covers the sheltered activity zone. The concept was to have a large span, lightweight canopy with a minimal footprint able to host many different activities.
ral
Leaf canopy clean module
e
Tension Brace and PTFE Fabric Roofing Secondary PTFE Cone Roofing Detail
ac
br
tu uc
str
ral
ctu
u str
e
ac
br
Aluminium Cross Brace Frame with ETFE Panels Tensile Frame with Transluscent Acrylic Panels and Petal Drying Area Pad Foundation System
Pedagogic Approach
The Primary focus of this area is to have a facility for Generation Z to run around and be active all year around. However, the canopy does offer Vicarious engagement as it is based on oversized leaves.
Childrenâ&#x20AC;&#x2122;s engagement with nature achieved through this module (according to Stephen R. Kellert)
Direct
Indirect
Vicarious
O
MODULAR GREENHOUSE UNITS
Modular Greenhouse exploded axo
These units will be pre fabricated offsite and attached onto the base that will exist prior to their installation. It will use the smart compost bins to acess compost directly without the need for going outside the greenhouse module.
soil out to greenhouse
1.
Rubber sealed waterproof edge for polycarbonate roof
7.
Steel frame construct with steel square sections (section 10 x 10mm)
2.
Polycarbonate roofing 10mm thick panel (transparent)
8.
Steel panel for foundation clipping
3.
Double glazed energy saving glass window
9.
Copper water pipes (diameter 20mm)
4.
Steel hinge for polycarbonate roofing
10.
Clear glass paneling
11.
Steel brace for glass railing
5.
Ventilation unit support frame Aluminium 10mm thick panels
12.
Hatch to C1 detail unit
6.
Plant grow light halide rods
Diagram showing module dimensions 2500mm
2600mm
3600mm
2.
1.
Compost getting more potent over time and pressure producing heat
aste in
Plant w
st out
Compo
4.
5.
6.
Compost Bin usage
7.
Pedagogic Approach
8.
A climate controlled modular green- Childrenâ&#x20AC;&#x2122;s engagement with nature house run by allotment owners and achieved through this module a great teaching platform to teach (according to Stephen R. Kellert) generation Z about plant growth Direct Indirect Vicarious directly in all year around.
9.
10.
11.
12.
3.
I
J
H A
B
C
E
F
D
G
M K
N
O
L
A
B
C
D
E
F
G
H
VERTICAL HERB TOWER
ROOFTOP ALLOTMENT CORES
ALLOTMENT LIGHT CANOPY
HANGING TREE NURSERY
LEAF SHELTER
TOPSY TURVY TOMATO PLANTER
HARVESTOR BENCHES
FLOWERBED PAVILLION
I
J
K
L
M
N
O
ARTIFICAL TREES
FLOWERBED NOOKS
ACOUSTIC FAN
ACOUSTIC FAN DOCK PAVILLION
LEAF CANOPY
ROSE BED
MODULAR GREENHOUSE UNIT
CALENDAR KEY
VAUXHALL PLEASURE GARDENS MASTER PLAN Vauxhall Pleasure Gardens are divided into several zones, specializing on different functions to empower Generation Z. These functions vary from physical activity zones to plant growing areas. The architecture of the Pleasure Gardens are component based with many being able to be plugged in and out depending on the season. The seasonal changes are shown in the Calendar and this plan labels the key components as they are located in the park.
1:500
KEY STAKEHOLDERS
Vauxhall Primary School Students
GENERATION Z MEMBERS (NON PUPILS)
WIDER PUBLIC
Children around the Vauxhall Area not necessarily from the local Primary School
Public brought in by regeneration of wider Vauxhall area by ‘Nine Elms regeneration scheme’
Vauxhall Primary School Teachers
Community Allotment Holders
Vauxhall City Farmers
JANE
TOM
RAJDEEP
JAKE
SUE
Ms. PETERS
Mr. ROGERS
FRED
JAMES
MARGRET
HELEN
TERRANCE
YEAR 6 pupil (Final year of Middle School)
YEAR 5 pupil
YEAR 4 pupil
YEAR 3 pupil (Final year of Primary School)
YEAR 2 pupil
FORM TUTOR
Head of PE in Vauxhall Primary School
Veteran greenfingered allotment holder
Young adult allotment holder- 2~3 year experience
Lady with most productive allotment in area
Paddock manager
Farmer In charge of composting
Botan
ical L
abora
Artifi cal
Tree P ic
nic A rea
tory
Leaf Canopy Activity Zone Rose Flower Beds
Vauxhall City Farm Paddocks
Festival Green Zone
Greenhouse and Compost Zone
VAUXHALL PLEASURE GARDENS FOR GENERATION Z
2018 JANUARY
MONTH OF ACTIVITY 01
IMAGE LOCATION KEY:
MONTH HIGHLIGHTS:
KEY NATURE PEDAGOGIC MODULES:
January is dedicated to the Generation Z’s physical health.The leaf canopy area, although open all year around will hold more events in January despite the weather, since they are protected by the giant shelter and the lack of plant maintenance during this time. Generation Z members need to be in good shape for the nature pedagogies awaiting them in the spring!.
A
B
M
VERTICAL HERB TOWER
ROOFTOP ALLOTMENT CORES
LEAF CANOPY
KEY STAKEHOLDERS:
MONTHLY INPUT:
Mr. ROGERS
JANE
TOM
RAJDEEP
JAKE
SUE
Head of PE in Vauxhall Primary School
YEAR 6 pupil (Final year of Middle School)
YEAR 5 pupil
YEAR 4 pupil
YEAR 3 pupil (Final year of Primary School)
YEAR 2 pupil
GENERATION Z MEMBERS (NON PUPILS)
WIDER PUBLIC
Children around the Vauxhall Area not necessarily from the local Primary School
Public brought in by regeneration of wider Vauxhall area by ‘Nine Elms regeneration scheme’
Money From Previous Year’s Harvest Rainwater since January is the wettest month of the year
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
M football tournament
football tournament
football tournament
football tournament
total fee: £400
total fee: £400
total fee: £400
total fee: £400
total fee: £100
Skating and Cycling lessons
total fee: £100
skate lessons
M
skate lessons
ACTIVITY 2
cycling lessons
Weekend Football Tournaments
cycling lessons
ACTIVITY 1
MON
total fee: £100
total fee: £100 Skatepark and velodrome open to public all year around
(skatepark and velodrome open all year around)
ACTIVITY 3
A
B
Passive Water Collection water collection all throughout the year through water collection trumpets
MONTHLY OUTPUT: Rainwater collection
Healthy Children ready to engage nature
HEALTH EMPOWERED
To use Use through year
water collection all throughout the year through water collection trumpets
VAUXHALL PLEASURE GARDENS FOR GENERATION Z
2018 FEBRUARY
MONTH OF SEED COLLECTION 02
IMAGE LOCATION KEY:
MONTH HIGHLIGHTS:
KEY NATURE PEDAGOGIC MODULES:
The advantage of the modular greenhouse units are that they are able to be used all year around to grow plants regardless of exterior conditions. During February, in preparation for the spring, seeds will be collected from greenhouse grown vegetation in case there is a shortage of flowering plants from the botanical laboratory and production zone in the spring.
ACTIVITY 1
N
O
FLOWERBED PAVILLION
ROSE BED
MODULAR GREENHOUSE UNIT
KEY STAKEHOLDERS:
MONTHLY INPUT:
Manure and other waste from farm
H
FRED
JAMES
MARGRET
HELEN
TERRANCE
JANE
TOM
Veteran greenfingered allotment holder
Young adult allotment holder- 2~3 year experience
Lady with most productive allotment in area
Paddock manager
Farmer In charge of composting
YEAR 6 pupil (Final year of Middle School)
YEAR 5 pupil
Money From Previous Yearâ&#x20AC;&#x2122;s Harvest
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
1
2
3
N
Manure acquired from Paddocks
O
Manure shovelled into smart compost bin
O
Pupils will move the bins into greenhouses
moved into greenhouses
Composting
ACTIVITY 2
Growing period
H
Modular Greenhouse use for accelerated plant growth
500 seeds
500 seeds
500 seeds
500 seeds
500 seeds
O
Greenhouse Seed Harvest
ongoing process
MONTHLY OUTPUT: Compost
Compost made from manure and waste from farm To use Use through year
500 seeds
Smart Compost bin removed from flower pavillions
ACTIVITY 3
Rainwater collection
500 seeds
Seedings for:
Harvest seeds
VAUXHALL PLEASURE GARDENS FOR GENERATION Z
2018 MARCH
MONTH OF PLANTING 03
IMAGE LOCATION KEY:
MONTH HIGHLIGHTS:
KEY NATURE PEDAGOGIC MODULES:
March marks the start of the Spring Season and as such the Botanical Laboratory is prepared to grow the courgettes, tomatoes and other vegetables that will be grown and sold during the harvest season. The children of Generation Z will be the primary workers, with the Guidance from the Allotment Community and their teachers to teach them about the planting process.
A
B
C
D
G
VERTICAL HERB TOWER
ROOFTOP ALLOTMENT CORES
ALLOTMENT LIGHT CANOPY
HANGING TREE NURSERY
HARVESTOR BENCHES
KEY STAKEHOLDERS:
MONTHLY INPUT:
JANE
TOM
RAJDEEP
JAKE
SUE
Ms. PETERS
FRED
JAMES
MARGRET
YEAR 6 pupil (Final year of Middle School)
YEAR 5 pupil
YEAR 4 pupil
YEAR 3 pupil (Final year of Primary School)
YEAR 2 pupil
FORM TUTOR
Veteran greenfingered allotment holder
Young adult allotment holder- 2~3 year experience
Lady with most productive allotment in area
Money From Previous Yearâ&#x20AC;&#x2122;s Harvest Rainwater
Seedlings from Modular Greenhouses
ACTIVITY 1
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
A
B
C
D
Allotment holders teach and are aided by pupils of Primary School
G
Planting ends
G
Botanical Laboratory seed/ leaf planting
B
ACTIVITY 2
C G
Rose Bed Planting and Allotment Sowing
ACTIVITY 3
Planting ends
Allotment holders teach and are aided by pupils of Primary School
A
Irrigation and Planting Lessons Teacher contextualises what they are doing in the month of planting
Planting lessons will occur throughout the month
MONTHLY OUTPUT: Rainwater collection
To use Use through year
VAUXHALL PLEASURE GARDENS FOR GENERATION Z
2018 APRIL
MONTH OF PRUNING 04
IMAGE LOCATION KEY:
MONTH HIGHLIGHTS:
KEY NATURE PEDAGOGIC MODULES:
Following the rigious planting month of March, April is dedicated to pruning and overseeing the growth of the plants. This is the time the Generation Z members have the most guidance by their teachers and the allotment holding community about plant care in a tacit way.
B
C
D
VERTICAL HERB TOWER
ROOFTOP ALLOTMENT CORES
ALLOTMENT LIGHT CANOPY
HANGING TREE NURSERY
KEY STAKEHOLDERS:
MONTHLY INPUT:
Compost
A
JANE
TOM
RAJDEEP
JAKE
SUE
Ms. PETERS
FRED
JAMES
MARGRET
YEAR 6 pupil (Final year of Middle School)
YEAR 5 pupil
YEAR 4 pupil
YEAR 3 pupil (Final year of Primary School)
YEAR 2 pupil
FORM TUTOR
Veteran greenfingered allotment holder
Young adult allotment holder- 2~3 year experience
Lady with most productive allotment in area
GENERATION Z MEMBERS (NON PUPILS)
Money From Previous Yearâ&#x20AC;&#x2122;s Harvest
Children around the Vauxhall Area not necessarily from the local Primary School
Sunlight become viable source of havestable energy
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
1
Maintenance lessons will occur throughout the month
A
B
C
D
Basic training done by allotment holders to school children
Allotment Maintenance lessons
ACTIVITY 2
lessons end Weekly check up by form tutor
A
B
C
D
Basic training done by allotment holders to school children but also anyone who are interested
Courgette Bed Pruning
ACTIVITY 3 Solar power collection done throughout year
Passive Solar Gain
MONTHLY OUTPUT: Rainwater collection
Sunlight Storage
To use Use through year
To use Use through year
Weekly check up by form tutor
Solar Panel energy efficiency ratio evaluation date
ACTIVITY 1
Weekly check up by form tutor
Solar power collection done throughout year
VAUXHALL PLEASURE GARDENS FOR GENERATION Z
2018 MAY
MONTH OF POLLINATION 05
IMAGE LOCATION KEY:
MONTH HIGHLIGHTS:
KEY NATURE PEDAGOGIC MODULES:
During May time, much of the roses in the flower bed are starting to flower and the bee hives are getting more and more active. Generation Z members will be helping with the pollination process using the pollination orbs that will be available only during this month. The bees will gather nectar for honey that will be primary rose based but also be in good health for the courgettes and other plant life in the botanical laboratory area.
G
N
HARVESTOR BENCH
ROSE BED
KEY STAKEHOLDERS:
MONTHLY INPUT:
JANE
TOM
RAJDEEP
JAMES
MARGRET
HELEN
TERRANCE
YEAR 6 pupil (Final year of Middle School)
YEAR 5 pupil
YEAR 4 pupil
Young adult allotment holder- 2~3 year experience
Lady with most productive allotment in area
Paddock manager
Farmer In charge of composting
GENERATION Z MEMBERS (NON PUPILS)
WIDER PUBLIC
Children around the Vauxhall Area not necessarily from the local Primary School
Public brought in by regeneration of wider Vauxhall area by ‘Nine Elms regeneration scheme’
Sunlight become viable source of havestable energy Rainwater
Bees for pollination
ACTIVITY 1
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
N
Rosebed open up to reveal pollination orbs
G
Harvestor benches used to help with orb storage and transportation
Public welcome to participate
Potentilla fruticosa (Sulphurascens Group) ‘Elizabeth’
Rosa (RA) ‘Albéric Barbier’
Rosa Mary Rose ‘Ausmary’
Rosa (RA) ‘Félicité Perpétue’
Rose Pollination End of human pollination
Beehives maintained by Vauxhall City Farm
ACTIVITY 2 Bee Hive Maintenance
ACTIVITY 3 Rose Picking
Rose Picking Days
The flower is highly aromatic/ fragrant with great colour and known to be easy to grow in England.
The Flower of the Jonathan Tyers family crest. Fitting to grow as a to bring back the legacy of the pleasure garden
Foliage
Diciduous
Diciduous
Diciduous
Diciduous
Bushy
Climbing
Bushy
Climbing
Habit
Allotment holder supervision
The flower is highly aromatic/ fragrant and can be turned into flavourful tea or jam
Reason for choice
Highly Visual, grows vigorously and hardy.
Colour in Autumn Colour in Spring Colour in Summer
Sunlight
MONTHLY OUTPUT: Rainwater collection
Full Sun
Partial Shade
Full Sun
Partial Shade
Sand
Chalk
Sand
Chalk
Full Sun
Partial Shade
Soil
Sunlight Storage
Loam
Loam
Sand
Chalk
Sand
Chalk
Loam
Clay
Loam
Clay
Moisture
Well-drained to Moist but well-drained
Well-drained to Moist but well-drained
Well-drained to Moist but well-drained
Well-drained to Moist but well-drained
pH
Acid, Alkaline, Neutraldependant on plant
Acid, Alkaline, Neutraldependant on plant
Acid, Alkaline, Neutraldependant on plant
Acid, Alkaline, Neutraldependant on plant
ROSES TO BE GROWN
To use Use through year
Full Sun
To use Use through year
VAUXHALL PLEASURE GARDENS FOR GENERATION Z
2018 JUNE
MONTH OF BLOOMING 06
IMAGE LOCATION KEY:
MONTH HIGHLIGHTS:
KEY NATURE PEDAGOGIC MODULES:
June marks the start of summer and the plants that were planted in the spring are starting to bloom into flowers. The architecture of the park also reacts to the change in season with the artifial trees providing more shade for users of the park to enjoy the shade. This month is when the seeds are exchanged and sold to the public so everyone can enjoy growing their new summer crops.
F
G
I
VERTICAL HERB TOWER
TOPSY TURVY TOMATO PLANTER
HARVESTOR BENCH
ARTIFICIAL TREES
KEY STAKEHOLDERS:
MONTHLY INPUT:
Flowers picked in the previous month
A
JANE
TOM
RAJDEEP
JAMES
MARGRET
Ms. PETERS
YEAR 6 pupil (Final year of Middle School)
YEAR 5 pupil
YEAR 4 pupil
Young adult allotment holder- 2~3 year experience
Lady with most productive allotment in area
FORM TUTOR
GENERATION Z MEMBERS (NON PUPILS)
WIDER PUBLIC
Children around the Vauxhall Area not necessarily from the local Primary School
Public brought in by regeneration of wider Vauxhall area by ‘Nine Elms regeneration scheme’
Money From Public
Sunlight become viable source of havestable energy
ACTIVITY 1 Flower and Herb Harvest
ACTIVITY 2 Artificial tree Deployment
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
1
G
A
Pupils guided by allotment holders
Herb Pots
220 pots
220 pots
220 pots
220 pots
Rosa (RA) ‘Albéric Barbier’
Rosa Mary Rose ‘Ausmary’
Rosa (RA) ‘Félicité Perpétue’
Harvestor benches would transform to aid the harvest
I
Artificial trees changed to canopy mode by pupils
Potentilla fruticosa (Sulphurascens Group) ‘Elizabeth’
F
ACTIVITY 3 Summer Market
G
Market Stalls run by pupils to sell their harvested produce
MONTHLY OUTPUT: Rainwater collection
Sunlight Storage
To use Use through year
To use Use through year
Profits from summer market
VAUXHALL PLEASURE GARDENS FOR GENERATION Z
2018 JULY
MONTH OF FESTIVALS 07
IMAGE LOCATION KEY:
MONTH HIGHLIGHTS:
KEY NATURE PEDAGOGIC MODULES:
July is the peak of activity due to the school holidays, so Generation Z members have much more free time to enjoy the Pleasure Gardens. During this month, many short term festivals are held to engage the children but also the general public. This is what the original Pleasure Garden would have done in the 18th Century at its historical peak.
G
K
L
HARVESTOR BENCH
ACOUSTIC FAN
ACOUSTIC FAN DOCK PAVILLION
KEY STAKEHOLDERS:
MONTHLY INPUT:
JANE
TOM
RAJDEEP
JAKE
SUE
JAMES
MARGRET
YEAR 6 pupil (Final year of Middle School)
YEAR 5 pupil
YEAR 4 pupil
YEAR 3 pupil (Final year of Primary School)
YEAR 2 pupil
Young adult allotment holder- 2~3 year experience
Lady with most productive allotment in area
GENERATION Z MEMBERS (NON PUPILS)
WIDER PUBLIC
Children around the Vauxhall Area not necessarily from the local Primary School
Public brought in by regeneration of wider Vauxhall area by ‘Nine Elms regeneration scheme’
Sunlight become viable source of havestable energy
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
K
ACTIVITY 1 Advertising Revenue from Acoustic Fan Fans open to be advertised all year around for a fee
ACTIVITY 2 Summer Fan Deployment
K
K
Revenue generation:
Revenue generation:
£300
£300
per fortnight
per fortnight
L
Allotment holders move the giant fans in place and deploys them Music Festival 1 Budget:
ACTIVITY 3
K
L
Music Festival 2 Budget:
Festivals and take down G
Sunlight Storage
To use Use through year
Profits from Advertising and festivals
L
K
L
£20,000
£20,000
MONTHLY OUTPUT:
K
G
Allotment holders move the giant fans back to bridges
VAUXHALL PLEASURE GARDENS FOR GENERATION Z
2018 AUGUST
MONTH OF IRRIGATION 08
IMAGE LOCATION KEY:
MONTH HIGHLIGHTS:
KEY NATURE PEDAGOGIC MODULES:
The hot month of August can play havoc with the plant life of the Vauxhall Pleasure Garden if the water level of the land is regulated properly. During August, the irrigation system will be working harder than any other month. This is the time that shows the extent of which the modules promote the rights of the plants, using artificial nature to aid real nature.
B
C
D
I
N
VERTICAL HERB TOWER
ROOFTOP ALLOTMENT CORES
ALLOTMENT LIGHT CANOPY
HANGING TREE NURSERY
ARTIFICIAL TREES
ROSE BED
KEY STAKEHOLDERS:
MONTHLY INPUT:
Rainwater collected in winter and spring
A
JANE
TOM
RAJDEEP
JAKE
SUE
Ms. PETERS
FRED
JAMES
MARGRET
YEAR 6 pupil (Final year of Middle School)
YEAR 5 pupil
YEAR 4 pupil
YEAR 3 pupil (Final year of Primary School)
YEAR 2 pupil
FORM TUTOR
Veteran greenfingered allotment holder
Young adult allotment holder- 2~3 year experience
Lady with most productive allotment in area
Sunlight become viable source of havestable energy
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
A
ACTIVITY 1
B
C
D
Allotment holders are aided by school children
Pupils help allotment holders
ACTIVITY 2
I
Grass of park watered by pupils
Overall Park Manual Irrigation
ACTIVITY 3
Tutor supervision
N
Rosebeds watered by pupils
Rosebed Irrigation
MONTHLY OUTPUT: Sunlight Storage
To use Use through year
Rainwater collected in winter and spring used in rose bed watering
VAUXHALL PLEASURE GARDENS FOR GENERATION Z
2018 SEPTEMBER
MONTH OF PICNICS 09
IMAGE LOCATION KEY:
MONTH HIGHLIGHTS:
KEY NATURE PEDAGOGIC MODULES:
To mark the transition to Autumn, the artificial trees will be deployed that exaggerates the change in colour that the Autumn season brings. The panels of the canopy are fabric coated/ painted with photochromatic paint that is made to react to the slight drop in temperature from the hot summer season. The Topsy Turvy Planters are harvested and put into position for harvest time in early October.
F
G
I
J
TOPSY TURVY TOMATO PLANTER
HARVESTOR BENCH
ARTIFICIAL TREE
FLOWERBED NOOKS
KEY STAKEHOLDERS:
MONTHLY INPUT:
JANE
TOM
RAJDEEP
JAKE
SUE
JAMES
Ms. PETERS
YEAR 6 pupil (Final year of Middle School)
YEAR 5 pupil
YEAR 4 pupil
YEAR 3 pupil (Final year of Primary School)
YEAR 2 pupil
Young adult allotment holder- 2~3 year experience
FORM TUTOR
GENERATION Z MEMBERS (NON PUPILS)
WIDER PUBLIC
Children around the Vauxhall Area not necessarily from the local Primary School
Public brought in by regeneration of wider Vauxhall area by ‘Nine Elms regeneration scheme’
Money From Summer
Rainwater
ACTIVITY 1
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
1
F Projected Harvest: 200kg Tomatoes
Tomato Plucking
Tomato plucking is supervised by the allotment holding community
J
ACTIVITY 2 Artificial Tree and Market Stall Deployment
I
Stall installed in nook by pupils
Movement of stalls supervised by teacher
Artificial trees changed to canopy mode by pupils
I
ACTIVITY 3 School Picnics in the Park
School Picnic 1
School Picnic 2
School Picnic 3
G
School Picnic 4
MONTHLY OUTPUT: Rainwater collection
Tomatoes from planters
Harvestor benches brought near the artificial tree canopy for picnics to be enjoyed by everyone including the public
To use Use through year
VAUXHALL PLEASURE GARDENS FOR GENERATION Z
2018 OCTOBER
MONTH OF HARVEST 10
IMAGE LOCATION KEY:
MONTH HIGHLIGHTS:
KEY NATURE PEDAGOGIC MODULES:
This month marks the pay off in all the hardwork in the spring and summer! The produce from the Botanical Laboratory and the Greenhouses are sold in the Pleasure Garden to the public, with the tomato planters units being transformed into market stalls and put throughout the park.
A
F
G
This allows the children not just learn about nature but gives them a platform to learn how to exchange financial trasactions with each other and others.
VERTICAL HERB TOWER
TOPSY TURVY TOMATO PLANTER
HARVESTOR BENCH
MONTHLY INPUT:
KEY STAKEHOLDERS:
Plucked Tomato from September
TOM
RAJDEEP
JAKE
SUE
JAMES
MARGRET
Ms. PETERS
YEAR 6 pupil (Final year of Middle School)
YEAR 5 pupil
YEAR 4 pupil
YEAR 3 pupil (Final year of Primary School)
YEAR 2 pupil
Young adult allotment holder- 2~3 year experience
Lady with most productive allotment in area
FORM TUTOR
WIDER PUBLIC
Children around the Vauxhall Area not necessarily from the local Primary School
Public brought in by regeneration of wider Vauxhall area by ‘Nine Elms regeneration scheme’
Money From Public for market
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
Harvest done by pupils with guidance of allotment holders and teachers
G Pupils transform the benches to aid the harvest of courgettes and herbs
Projected Harvest: 2300 courgettes
Courgette Harvest
Bench Transform
ACTIVITY 2
Harvestor Benches moved around the Pleasure Garden for Harvest
A
Herb Pots
520 pots
520 pots
520 pots
520 pots Moved to market Stalls
ACTIVITY 1
JANE
GENERATION Z MEMBERS (NON PUPILS)
Allotment and Herb Tower Harvest
F
ACTIVITY 3 Harvest Market
Moved to market Stalls
Moved to market Stalls
Projected Harvest: 200kg Tomatoes
MONTHLY OUTPUT: Harvest Market Profits
G
Market Stalls run by pupils to sell their harvested produce
VAUXHALL PLEASURE GARDENS FOR GENERATION Z
2018 NOVEMBER
MONTH OF PREPARATION 11
IMAGE LOCATION KEY:
MONTH HIGHLIGHTS:
KEY NATURE PEDAGOGIC MODULES:
Winter is coming, and to prepare for the cold season, the heab towers need to be tended so the herbs will be able to survive the harsher conditions, expecially their protection against frost is important. Generation Z members will take ownership of the pots and put nets around their personal pots to ensure safe storage in winter.
ACTIVITY 1
B
E
F
J
VERTICAL HERB TOWER
ROOFTOP ALLOTMENT CORES
LEAF SHELTER
TOPSY TURVY TOMATO PLANTER
FLOWERBED NOOK
KEY STAKEHOLDERS:
MONTHLY INPUT:
Compost
A
JANE
TOM
RAJDEEP
JAKE
SUE
JAMES
MARGRET
Ms. PETERS
YEAR 6 pupil (Final year of Middle School)
YEAR 5 pupil
YEAR 4 pupil
YEAR 3 pupil (Final year of Primary School)
YEAR 2 pupil
Young adult allotment holder- 2~3 year experience
Lady with most productive allotment in area
FORM TUTOR
Frost protection equipment
THUR
FRI
SAT
SUN
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TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
1
2
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9
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18
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26
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29
30
1
A
B
Courgettes are protected by a nylon mesh to prevent frost
Courgette Bed Anti Frost Treatment
ACTIVITY 2
Preparation end
A
The Herb pots are taken down by the Allotment holders
The Herb pots are covered by a mesh to prevent the herbs from freezing Teacher Supervision required
Herb Tower Potting
Preparation end
F
ACTIVITY 3
J
After the Harvest Market, the market stalls must be returned
J
Returned to normal use
E
Tomato Planter returned to leaf area
Market Stall Put Back
F
MONTHLY OUTPUT: Rainwater collection
Frost Preventioned plants Moved easily due to ball bearing wheels
To use Use through year
VAUXHALL PLEASURE GARDENS FOR GENERATION Z
2018 DECEMBER
MONTH OF DORMANCY 12
IMAGE LOCATION KEY:
MONTH HIGHLIGHTS:
KEY NATURE PEDAGOGIC MODULES:
During this winter month, the cold means the production side of the Vauxhall Pleasure Gardens is ceased. Instead, reaping the efforts of November, the vegetation are protected and the flower pavillions turn into their winter forms, using the heat of the compost from the production area to create cosy spaces that visitors can enjoy during the chilly season.
H
O
FLOWERBED PAVILLION
MODULAR GREENHOUSE UNIT
KEY STAKEHOLDERS:
MONTHLY INPUT:
JANE
TERRANCE
YEAR 6 pupil (Final year of Middle School)
Farmer In charge of composting
GENERATION Z MEMBERS (NON PUPILS)
WIDER PUBLIC
Children around the Vauxhall Area not necessarily from the local Primary School
Public brought in by regeneration of wider Vauxhall area by ‘Nine Elms regeneration scheme’
Manure from City Farm animals
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
TUES
WED
THUR
FRI
SAT
SUN
MON
1
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31
ACTIVITY 1
Manure acquired from Paddocks
H
O
Manure shovelled into smart compost bin
Contimue to January
moved into Flower Pavillion
Compost Bin Setting
ACTIVITY 2
H
Pupils move compost bin place for public use
Contimue to January
Compost Bin Deployment in park
O
ACTIVITY 3 moved into Modular Greenhouses
Compost Bin Deployment in Production Area
MONTHLY OUTPUT: Compost
To use Use through year
Pupils move compost bin place for their own plants