RIBA Part 2(II) Architectural Portfolio - Hanyuan (Helen) Wright-Zhang - University of Bath by Helen H. Wright-Zhang

Hanyuan (Helen) Wright-Zhang - MArch & BSc University of Bath -

PORTFOLIO

Hanyuan (Helen) Wright-Zhang T: 0740 262 4747 E: helen.zhang@bath.edu

EDUCATION 2018 - 2020

University of Bath, M.Arch (Hons) Architecture (RIBA Part 2) - First Classification for Fifth Year Design Studio; - Thesis Design: “A Potato Centre” crafts the research centre through indigenous beliefs; - Thesis Research: “Joining the Anthropological and Automatic Architects” investigates how AI based software (using CNNs and GANs) can influence the design process for urban planners.

2013 - 2017

University of Bath, BSc (Hons) General Architectural Studies (RIBA Part 1)

PROFESSIONAL EXPERIENCE 2019

Architectural Assistant at Formation Architects, UK Oct 2018 - Jan 2019 - Provided design proposals for projects at design development stage, such as the St Mary’s Square re-generation in York, and several mid to large scale (20-100 unit) residential projects around London. - Worked on feasibility studies for residential projects ranging from smaller-scale capacity studies to larger residential masterplan.

2017 - 2018

Architectural Assistant at DP Architects, Singapore Oct 2017- Jun 2018 - Participated in designing several mixed-use projects (GFA ranging from 6,000 sqm to 86,000 sqm) in China and Singapore. Travelled between Singapore and the firm’s Guangzhou and Shanghai office to assist in a smooth project handover between both international offices. - Helped provide design proposals for several large-scale (over 42 hectares) master planning projects in China. Conducted in-depth research reports into local Chinese history, culture and lifestyle to inform vernacular design. - Prepared planning applications with Revit for a residential project (over 1000 units) in Singapore, with design proposals and drawings for clubhouses and show flat.

2016

Architectural Assistant at Mitchell Eley Gould Architects, UK Feb 2016 - Aug 2016 - Worked on a UK based Grade II change of use project (pub to residential houses), with experience in preparing planning applications and attending design meetings. - Assisted in multiple projects ranging from educational / leisure project (2,000 sqm) to smaller scale residential projects and produced orthogonal drawings and visuals.

2015

Architectural Assistant at Bean Buro Architects, Hong Kong Mar 2015 - June 2015 - Assisted in an F&B project in Chengdu, China, by producing construction drawings, selecting and creating material schedules, and liaising with local suppliers and contractors. - Participated in several interior design tenders for a range of office projects in Hong Kong.

ACHIEVEMENTS & VOLUNTEERING 2020

Presented a Webinar, following invitation from UMSA’s Department of Architecture and Urban Planning, on urban and architectural designs based in La Paz, Bolivia

2017

Certified Passive House Designer with PHI Aldwych Station Renovation project exhibited at the London Transport Museum

2015

Third place in RIBA Imagine Bath Competition Our team of 4 students won third place in the ideas competition with over 90 entries internationally. The project was also featured in Architects’ Journal. First place in the University of Bath Vertical Studio Competition

2012

Volunteered in design and construction of a primary school playground in Namibia

SOFTWARE

LANGUAGES

Revit Rhino Grasshopper AutoCAD Adobe Suite Sketchup Vray Microstation

English Bilingual Proficiency 8.0 out of 9.0 in IELTS; 110 out of 120 in TOFEL. Chinese Mandarin Native Proficiency Chinese Cantonese Intermediate Proficiency

STUDENT

M.Arch: Sep 2

BSc: Sep 201

T WORK

2018 - Jun 2020

13 - Jun 2017

A POTATO

4 Month Individu Studen

The humble potato plant entered the human w Bolivia over 10,000 years ago. Despite the signi it has suffered at its place of origin, due to the exacerbating social instability in the region, but t

The project seeks to trace the potato back to it practices and cultural beliefs of the Incan Empire capital of Bolivia, La Paz. This new internation combat the impact of climate change on potato engagement for training and awareness. In the p deeply from the local vernacular and native la potatoes thrive for life above the clouds.

O CENTRE

ual Project. 2020 nt Work

world when first domesticated near La Paz city in ificant influence of the everyday crop globally, changing climate. This development is not just threatening the very survival of its people.

ts roots, and explore the indigenous agricultural e to create a potato centre in the administrative nal centre offers opportunities to research and o yields, potato species preservation, and public pursuit of a rooted architecture, inspiration draws andscapes, generating an environment to help

XIS

NAT

AXIS

CU POT LTI AT VAT O ION

Decrease

51%

Average value of food production Bolivia (Plurinational State of) constant 2004-2006 1$ per person, at 3-year average

400

300

1$ per person

350

La Paz 250

2 00

0-2

0 20

LAN

4 00

-2 01 20

3 00

2-2

0 20

3-2

5 00

6 00

4-2

0 20

8 00

7 00

5-2

0 20

6-2

0 20

-2 07 20

9 00

1 01

0 01

8-2

0 20

9-2

0 20

-2 10 20

2 01

-2 11 20

3 01

12 20

-2

4 01

-2 13 20

5 01

-2 14 20

6 01

7 01

200

-2 15 20

Agriculture requires human and nature balance

Potato was first domesticated near La Paz 10,000 years ago

Recent climate led human and nature imbalance

Climate change cause reduction in potato yie

Research

Community

Stock House

Urban Agriculture

Exploded isometric showing research,community, stock house and urban agriculture functions

ed eld

10m 6.5m Site

22m

Site

Research

Upper Realm (HANA PACHA)

Shaded

Timber

The level for knowledge and wisdom

Glazing

The level for human activities

Community

Middle World (KAY PACHA)

Light

Stock House

Underworld (UCA PACHA)

Shadow

Stone

The level for preservation

The functional arrangement of Research, Community, and Stock House follows the sequence and beliefs of the Incan Chakana Cross.

L1 Plan Research Function

L0, B1 Plan Community Function

B1 Plan Stock House Function

Precedents Tiwanaku Temple

Terrace and Stock House

Quebrada de Palala Valley

Entrance

Lunar Valley

Reseach laboratory

Exhibition Corridor

Community Hall

Structural Strategy

LVL Roof Beams

LVL Floor Beams LVL Columns

In-situ 1-Way Span Ribbed Deck Pre-cast Concrete Transfer Beams

2-Way Span In-situ Waffle Slabs Pre-Cast Concrete Columns Load-Bearing Stone Masonry Wall

Secant Pile Foundation And Triple Pile Foundation

Research LVL Roof Beam

Research Concrete Ribbed Deck

Stock House Concrete Waffle Slab

Water

Courtyard

Potato Storage Hall

TRAINING THROUGH OBSERVATION

General guided tours and the subject specific training pro to farmers and residents. The general guided tour allows th a specific route to observe various aspects of potato cy specific training programme grants the participants acce The spatial arrangement of the potato centre allows con public training purposes. The diagram below exhibits the form, combining spaces of different floor levels in

3 1 2 4 5

Exhibition Area

Library

Laboratory

Lecture Rooms

Kitchen

Community

Research

Gen

Community

Guided training tour to different parts of the

Exhibition

Guided training tour

Kitchen / D

ogramme are available he participants to follow ycles, while the subject ess to specific locations. ntrolled access for semie training route in plan n one drawing.

2 3 4

1 8

7 6

Access to Allotments

Access to Allotments 6

ne Bank

Sensory Lab

Dry Storage

Allotments

Stock House

Urban Agriculture

e building

Area

Dinning

Library

Laboratory

Exhibition Corridor

Dry Storage

PASSIVE HOUSE STANDARD DESIGN To achieve passive house standards, continuous insulation and air-tight layer (with infiltration rate at n50<0.6 ACH @50 Pa) is designed in the detailing. The external wall for stock house and research centre have U-values of 0.134 W/m2K and 0.129 W/

m2K respectively, over-achieving the passive house requirement of 0.15 W/m2K for external walls. Other sustainability strategies are in place to reduce the energy life cycle for the building.

100km

50km Llama Wool Sourced From The Bolivian Herders

Llama Fiber Manufacturer Altifibers

Comanche Stone Quarry

La Paz

FSC Certified Timber Source

Pota increase in organic

Timber Manufacturer Laminados del Beni

Cement Manufacturer Sociedad Boliviana de Cemento S.A.

Energy generation through CHP

Passive and active ventilation

Sourcing all m within 100

5. 6.

Research Centre 20-23 째C

Dinning Hall

2,250m2 of rainwater collection area

17-20 째C 1.

Potato Storage 10-12 째C

Water Courtyard

Organic Waste from building operation and allotments

ato Field n yield with fertiliser

15-17 째C

Food within the building operation

Combined Heat And Power Plant

Gas and Fertiliser generated through anaerobic process in the composting plant

1. 2. 3.

Heat and Electricity from building operation and allotments

5. 6.

Ra dius

Application principles for CHP on site

Prevailing wind coming from the North-East drawn in. Built-in labyrinth at the air shaft and underground using thermal mass to balance the temperature. Air supplied to the potato dry storage drawn through underground river channel cooled by convection and evaporation. Indoor air heated through radiation from human and appliances, creating constant heat flux. Glazed solar atrium heated by sun light, promoting stack effect. Strong up-flow generated from the buoyancy difference between different parts of the building.

00 >1

main materials 0km radius

Rainwater harvesting and purification

Appropriate natural strategies at different function zones

Thermal mass

AQUATIC AMALGAMATION A STORY OF WATER AND THE COMMUNIT 4 Month Individual Project. 2019 Student Work. Bristol, the UK

This Bristol based mixed use project, including a community centre, a co-living wing and a fusing the characteristics of the context and site seamlessly, calling for a community centre cultural diversity, but is able to bind the groups together to form one shared identity. To c abandoned adjacent warehouse, a tower was designed as the concrete beacon of the shared facilities for the 3 interlocking timber wings hosting the community, co-living a

Site Analysis

Island

Layers

Border Site Condition Symbiosis Character of Community

Liquid Site Condition Archaeology Character of Community

a co-working wing, begins with e that not only celebrates the compete with the intimidating new development, providing and co-working functions.

Amalgamation

Disparate Site Condition Synthesis Character of Community

Design development through sketches Mainly northern light, with occasional views to landscape

Meeting Room ll

g e etin fic Me om Of ff Ro Sta l ua ivid Ind ffice O

Co Cr

Sto

h ec

Plant

O Fa ffic cil e itie s

Kitchenette Gallery Foyer

e at s Priv fice Of

ain

Green Room

Live

Service

Reception and Shop

Generous views to the Entrance landscape

Generous southern and eastern views (dual aspect)

Landscape Shared Amenity

Ground Floor Plan

Shared Amenity

g orkin Co-wffice O

ity unge mm ra

Work

Landscape

rag

Sto

Entrance

Warehouse

Tower Step well

Step well

All the major spaces are placed in a comfortable d from one another, allowing sequential focal point

Second Floor Plan

First Floor Plan

distance ts.

Co-living

Timber structure: Laminated Veneer Lumber

Co-working

Community

Concrete with 40% GGBS Cement Substitution

Shared Facilities

d ar lY

fa l

nsio

ridg

de r

Sus

Chocolate Path Warehouse and Step well

River River

Steel connection plate

45째

55째 55째

Primary Truss for Ground Floor Support

55째

Primary Truss for First Floor Support

Secondary truss for more intimate space

Secondary truss for more intermediate space

The angle of the LVL truss provides different spatial qualities

Seconda open

LVL

ary truss for n space

35Â°

THE JOURNEY TO HOPE A SANCTUARY FOR THE SUICIDAL 4 Month Individual Project. 2017 Student Work. Dorchester, the UK The aim of the project is to design a respite centre for two of the leading suicide prevention organisations: Maytree and Samaritans, to work together with the local community in the historical town of Dorchester. Unlike general psychiatric hospitals, the centre aims to provide a non-medial, homelike environment for people who are suffering from suicidal ideation, providing relaxing space for the staff and volunteers to work and opportunities for the community to

integrate. A key design response is to introduce the application of â&#x20AC;&#x153;grainâ&#x20AC;&#x153; along the North-South axis, to combine the characteristics of nature and community in the site: opportunities for both self-reflection and social integration. In achieving this, the Maytree guests can have the choice of the most appropriate recovering situation depending on their personality or need.

Nature

Former Prison

Site

Community

Guest

Community Staff

Walled Garden Original Walled Condition

Space Allocation Three functions placed across the site depending on the purpose.

Conne Community quarter is enhance

ections s divided into four to e access.

Grain Introduction of heavy masonry walls to emphasize the grain.

Local Council

Community

Volunteers

Breaking Out The idea of breaking out and individuality is reinforced by push and pull.

The Suicidal

Charity - Samaritans

Charity - Maytree

Nature (North of the site)

Private Meditation Pavilion Guest Quarter

First Floor Plan

Private Kitchen, Lounge and Bedrooms Guest Quarter

Basement Floor Plan

Public Chapel Community C

Urban (South of the site)

Centre

Community Forum

Public Multi-Function Room Community Centre

Private

Private Staff Quarter

CLT structured buildings with strong flint and brick wall breaking out of the existing wall.

Special In-situ concrete structure with alternating coursed flint and brick cladding.

Communal Enclaves

Material Expression

CLT Structured Buildings

Heat Absorpsion (W/m2)

Vertical South-West Facing Glazing

Heat Flow

Day

Night D

Month

Daily Heat Gain Through Glass with South-Facing Windows

Concrete and Brick as Thermal Control to De time Heat Gains to the Colder Nights

Overall sustainability principles 1

Sun light at Summer Solstice, 62.1Â°. The roof fins would reduce heat gain in the summer, while allowing daylight into the room. Sun light at Winter Solstice, 15.9Â°. Direct sunlight can enter the building for additional thermal comfort in the winter. Light Shelf. The light shelf with reflective surface would allow more natural daylight to enter deep into the building. South-west facing glazing. The heat transmission of a vertical glazed surface in this direction would drop slightly in the summer as the angle of sunlight increases. Polished concrete floor and existing brick wall. Concrete and brick has high thermal mass which can absorb excess heating during the day, and re-emit when the temperature drops at night. Diffused daylight from the North opening.

The application of ground sourced heat p

Hours

elay Days

pump

LA PAZ CON PACHAMAMA SUSTAINABLE MASTERPLAN OF LA PAZ CITY 10 Weeks Group Project with: James Wright-Zhang, Siyu Wang, Lewis Liu, Lucy Liu. 2019 Student Work. La Paz, Bolivia The masterplan proposal envisages a sustainable future for La Paz, addressing existential water issues, severe topographical issues and minimised urban cultural expression, to produce a city that can Survive, Stabilise and Thrive. Strategies integrate cross-continental trade, down to critical decentralisation and human-scale interventions. Key moves form into three comprehensive toolkits: the Water Network, Super-blocks and La Arteria to provide a complete solution. Water becomes a cycle based on indigenous sustainability and reverence for Pachamama (Mother Earth) making the city entirely self-sufficient from rainfall. Super-blocks and Arteries facilitate reorientation of key spaces to the human-scale, providing fast transport routes to link these together. Once integrated, a selfsufficient network of water, energy, waste and transport manifests while minimising local displacement and providing for citizens at a community level. Urban interventions re-invigorate community life. Water beacons become centres of local nodes and polycentres, while a community framework runs along La Arteria, inspiring locals to build their own street-scape in a way that suits them.

Locale Highest Point of La Paz City: Altitude approx. 4000m

Lowest Point of La Paz City: Altitude approx. 3200m

La Paz City Centre:

Altitude approx. 3600m

El Alto: Altitude

approx. 4050m

City scale height difference: approx. 800m

(Applicantâ&#x20AC;&#x2122;s work) 3D Terrain Model of La Paz with its twin city El Alto

(Collaborated Work)

Strategy hierarchy (Applicantâ&#x20AC;&#x2122;s work)

Using the 3 tool-kits to improve the 3 identified qualities of the city Tool-kit La Ateria

Tool-kit Super-block

Tool-kit Water Netw

(Team

Water Cycle

Energy and Waste Cycle

Culture Cycle

WATER

TOPOGRAPHY

CULTURE

(Team M

WATER NETWORK

work

m Member’s Work)

SUPER-BLOCKS

Applicant’s Work)

Member’s Work)

ARTERY

(Team Member’s Work)

Proposed Artery acting as either regional market hub or landscaped spine.

(Team Memberâ&#x20AC;&#x2122;s Work)

(Applicantâ&#x20AC;&#x2122;s work) Proposed Poly-centre formed around the Artery route, outlining the new sustainable living cluster including localised water storage, community, commercial and work opportunities.

DELIVERY AND DISCOVERY OXFORD TRAIN STATION 10 Week Group Project with James Wright-Zhang and Hugh Pearce. 2016 Student Work Our team of four, with three architectural students and an engineering student, collaborated in the train station design with master planning of the adjacent area for the city of Oxford. In response to the present British train station typology and Oxford’s hidden culture, we decided our design ethos was Discovery and Delivery. We wanted to not only encourage people to slow down and discover the historical city’s humanitarian aspect through our design, but also allow commuters in Oxford to be delivered to their destination with efficiency. During the project we worked closely as a multi-disciplinary team using a central Revit model to coordinate between us.

Platform over Looking the City (Team Member’s Work)

Elevated

Sectional Perspective across the station (Team Member’s Work)

Delivery Space Static Discovery Space City Square (Team Member’s Work)

(Applicant’s work)

Dynamic Discovery Space

(Team member’s work)

ALDWYCH STATION RETROFIT 4 Week Group Project. 2015 Student Work The brief of the project was to renovate London’s abandoned Aldwych underground station into a theatre with an underground poster exhibition. This project was later selected as one of the three outstanding student works to be exhibited in the London Transport Museum in early 2016.

(Applicant’s work)

(Applicant’s work) 1

Route for exhibition goers

Route for theatre goers

This project was later selected and exhibited in the London Transport Museum in early 2016.

4 The original station lift shaft is adapted as a poster exhibition tunnel. Visitors can enjoy the progression of Underground posters in the slow moving glass lift. 5 6

Atrium with theatre boxes of varying scales supported at levels. The original station concourse is renovated to multi-media theatre entrance

(Applicant’s work)

(Applicantâ&#x20AC;&#x2122;s work)

(Collaborated Work)

(Applicantâ&#x20AC;&#x2122;s work)

PROFESSIONAL WORK Work and Placement Periods: Formation Architects, UK: Oct 2018 - Jan 2019 DP Architects, Singapore: Oct 2017 - Jun 2018 Mitchell Eley Gould Architects, UK: Feb 2016 - Aug 2016 Bean Buro Architects, Hong Kong: Mar 2015 - Jun 2015

SINGAPORE EYE EXHIBITION CENTRE 2 Week Group Project. 2017 Professional Work by DP Architects, Singapore Project Scale: 6,000 GFA The aim is to design an expo like exhibition pavilion to showcase the cultural essence of Singapore in a Southern Province in China. My role was to produce the digital model for the design and various analysis drawings following daily group design discussions. As the only person in charge of formulating the digital model, I learned from scratch and applied several parametric plug-ins to model the curvy form within a tight 2-week design period.

(Applicantâ&#x20AC;&#x2122;s work)

The catc hum

form exhibits a fluid and grand gesture. It is not only eyeching from the surrounding high rises, but it also contains various man scaled elements to encourage public interaction.

Ground Floor Plan (Collaborated Work)

(Rendered by team member)

CHONGQIN JIANGBEIZUI DISTRICT MASTER PLAN 3 Week Group Project. 2018 Professional Work by DP Architects, Singapore Project Scale: 510 Hectares Chongqin Jiangbeizui District Master Plan looks into the current condition of the Jiangbeizui Area in Chongqin city, central China, to propose a distinct identity for this historic district’s modern and energetic future. Our team of 7 urban planners and architectural designers from the firm’s Guangzhou and Singapore office worked together collaboratively on different parts of master plan. My role in the project, was to explore and propose under the supervision of another senior designer, the design of the central 450m height super tower complex and its surrounding spines (sky bridges) linking the rest of master plan. The tower design drew inspiration from Chongqin’s vernacular landscape: bamboo forest, to create a central focus point for the entire master plan.

Roof Top Garden Mood Image

Indoor Garden Mood Image

Terrace Garden Mood Image

Sky Deck Mood Image

City Living Room Mood Image

(Applicant’s work) Exploded Isometric of the Super Tower Complex

(Rendered by team member) Artist’s Impression of the Super Tower Complex

NANNING TOWER 1 Week Group Project. 2018 Professional Work by DP Architects, Singapore Project Scale: 86,000 GFA Nanning Tower is a mix-use project located in the South West of China. The brief is to design a building complex with commercial podium and residential towers with the target clientele of young working elites. The design challenge lies in creating a complex that both satisfied clients’ demanding 3.6 plot ratio requirement while allowing the architectural form to appear dynamic and lively. I worked with the firm’s Singapore team to produce the initial week-long concept design and successfully won the design competition. The project has then been moved to the firm’s China team to prepare for the planning permission. After our first internal design meeting to set out the dual-tower concept, I continued the drafting of the initial 2D and 3D skeletons, including setting out the grid plan based on the residential unit sizes, testing different massing, and produced several options for the unit and commercial layout. My other team members then further designed the residential tower and commercial tower while I assisted in producing diagrammatic drawings and some visuals for the final presentation. (Applicant’s work)

Residential

Commercial Connection Strong street and visual connection to the nearby city Art Centre

View Clever residential layout arrangement to maximise surrounding views

Function Clear architectural language to distinguish different functions

(Rendered by team member)

SOHO

(Applicant’s work)

2ND STOREY

Grand stairs that lead from the Ground floor to the basement activate the basement to become the second Ground Level, establishing are more lively “Dual Ground Level” concept.

1ST STOREY

LOWER 1ST STOREY

(Applicant’s work) Clear commercial zoning arrangement and active circulation route

(Applicant’s work) GF Commercial Space

(Rendered by team member)

AFFINITY AT SERANGOON On-going 10 Month Group Project. 2017 - 2018 Professional Work by DP Architects, Singapore Project Scale: 106,000 GFA Affinity at Serangoon is a residential project located in Singapore, with over 1000 apartment units. Our team obtained this project by winning the design competition, and since then the team has been appointed to carry on the design development and obtain various stages of planning approval of the project. I first joined the project when it is already in its design development stage. My role in this project consisted of assisting in preparing the planning application using Revit, such as 3D modelling, GFA calculations and information tabulation, as well as providing design proposals and further design development for clubhouses and sales office.

(Collaborated Team Work Generated by Revit) 1st Story Plan

(Rendered by team member) Proposed club house

(Rendered by team member) Proposed entrance gate

(Applicantâ&#x20AC;&#x2122;s work) 1st Story Plan of the proposed Sales Office

(Rendered by team member) V I L L ATheG Proposed E Sales Office

(Rendered by team member) The Proposed Sales Office

(Rendered by team member) Artistâ&#x20AC;&#x2122;s Impression of the residential complex

DATANSHA MASTER PLAN 3 Week Group Project. 2018 Professional Work by DP Architects, Singapore Project Scale: 440 Hectares Datansha is an island located within a Southern Chinese city. The local government wishes to re-boost the island town through careful master planning. My role was to assist in developing design improvements on a portion of the island, which includes introducing a multi-functional landscape spine and few blocks of architectural arrangement.

(Rendered by team member)

HANGZHOU ASIAN OLYMPIC GAMES MASTER PLAN 2 Week Group Project. 2018 Professional Work by DP Architects, Singapore Project Scale: 65 Hectares For this proejct, I traveled to the firm’s Shanghai Office for 2 weeks to assist in the design packages for the Hangzhou Asian Games Master Plan tender. When I joined the Shanghai team, the project was near its completion, thus, I mainly worked on consolidating the sustainable design features, producing illustrative drawings to outline the design and presentation layouts.

绿色交通网人行、自行车专用天桥系统的设置进一步完善了绿色交通体系网。此措施有望大幅度降低交通出行造成的碳排放问题。

绿色交通区场地内设置了专用的自行车、电动车的停放、充电区，为人们使用绿色交通提供更多便利。

雨水回收及储存利用建筑屋顶来收集雨水。雨水回收系统中的消毒、杀菌措施可以防止水在储存、输配过程中被污染，并辅以严格的监测控制措施。供水系统设有备用水源、溢流装置及相关切换装置，以保证水量安全。

绿色植被屋顶绿植屋顶不但为建筑使用者提供了更多的绿色空间，还能有效地减少屋顶对阳光产生的热能的吸收，并有雨水储存功能。

利用植被来收集雨水

高热工性能玻璃天窗玻璃采用比相关节能设计标准高10% 的高热工性能玻璃，以满足传热系数、遮阳系数，减少玻璃在杭州炎热的夏季对热能的吸收，从而减少人工室内温度调节而产生的能源消耗。

自然通风根据杭州当地的季节性风向，在建筑高层的适宜方向使用可打开的玻璃天窗、并在建筑两侧使用带开口的铝板幕墙，以产生足够的空气压强差，来形成良好的自然通风环境。

太阳能发热板利用光能等可再生能源为建筑提供电能。因场南部并没有高层建筑遮挡，建筑将能得到充足的太阳光照。

杭州全年风向分析

绿色交通终点休息室建筑内亦包含了冲凉房、更衣室等设施，以鼓励绿色交通的使用。

废水利用雨水及其他灰水可在清洁、过滤后用于植被浇灌、洗手间冲水等。

建筑日照分析

降低光污染建筑表面避免使用大面积的平滑的幕墙材料，以减少因光线反射而产生的光污染。

热岛效应在建筑、场地周围加入适量的乔木、构筑物等遮阴措施，缓解热岛效应。

全热热回收系统建筑在天气条件良好时采用自然通风，在夏季或冬季时采用效率不低于70%的全热热回收系统的机械通风。

使用绿色建材及本地建材采用对环境影响较小的可再循环材料，或施工现场内500km以内生产的本地建材，来减少建筑材料生产、运输中产生的碳足印。

高性能隔热层建筑采用低U-Value的隔热材料，以减少热能的流失或吸收。

Sustainable Strategies Overview

场地风环境这设计中，合理的天井比例，及曲面建筑表层设计能很好地避免局部强场地风的问题。

STRONG WIND

场地风环境分析显示，建筑周围的风速在舒适的水平以内。

(Applicant’s work)

Exploded Isometric diagram showcasing the functions of one of the athletic centre (Applicant’s work)

PLACEMENT IN MITCHELL ELEY GOULD ARCHITECTS My roles at Mitchell Eley Gould Architects included: - Worked on a UK based Grade II change of use project (pub to residential houses), with experience in preparing planning applications and attending design meetings. - Assisted in multiple projects ranging from educational / leisure project (2,000 sqm) to smaller scale residential projects and produced orthogonal drawings and visuals.

(Applicantâ&#x20AC;&#x2122;s work) Proposed Orthogonal Drawings for the renovation of a Grade II Listed Building

(Applicantâ&#x20AC;&#x2122;s work) Proposed rendered perspectives for a swimming pool

PLACEMENT IN BEAN BURO ARCHITECTS My roles at Bean Buro Architects included: - Assisting in an F&B project in Chengdu, China, by producing construction drawings, selecting and creating material schedules, and liaising with local suppliers and contractors. - Assisted in the developed design of a residential project in China. The work includes master planning (4 hectares) and interior design. - Participate in several interior design tenders for a range of office projects in Hong Kong.

BB106 Tasty Chengdu SK-15 3F ceiling slats 正斗成都 SK-15 3楼天花金属板 Date: 27 / 11 / 14 15/04/15 Slats Plan View 金属板俯视图

Slats Axo View 金属板立体正投影图 Part 1

Part 2

Part 1 第1部份

Part 2 第2部份

Part 2 Mirrored 第2部份镜像

Part 3 第3部份

To be Extended towards the WC. 延伸至洗手间。 Always Allign to the Top Edge. 所有金属板都沿上端对齐。

B C

Always Allign to the Top Edge 所有金属板都沿上端对齐。

E F

D. WD-5

F. WD-5

A A

E. WD-4

A. WD-5 B. WD-5

B. WD-4

E. WD-5 F. WD-4

Sloping Up 向上倾斜

C. WD-4

Part 3

C. WD-5

Sloping Up 向上倾斜 A. WD-5 : 600mm x 30mm x 120mm, WD-5

Detail A The end of the fins need to be cut to match the junction. 细节A 上部的金属板末端需切割成合适的角度，以与接合点相符。

3F Elevation 3楼侧视图

D. WD-4

Always Allign to the Top Edge 所有金属板都沿上端对齐。

A. WD-4

: 600mm x 30mm x 120mm, WD-4

B. WD-5

: 800mm x 30mm x 60mm, WD-5

B. WD-4

: 800mm x 30mm x 60mm, WD-4

C. WD-5

: 784mm x 30mm x 120mm, WD-5

C. WD-4

: 784mm x 30mm x 120mm, WD-4

D. WD-5

: 1050mm x 30mm x 60mm, WD-5

D. WD-4 E. WD-5

Detail A

: 1050mm x 30mm x 60mm, WD-4 : 500mm x 30mm x 120mm, WD-5

E. WD-4

: 500mm x 30mm x 120mm, WD-4

F. WD-5

: 634mm x 30mm x 60mm, WD-5

Sloping Up 向上倾斜

F. WD-4

: 634mm x 30mm x 60mm, WD-4

G. WD-4

: WD-4, Length varies. WD-4，尾部末端金属板，长度根据实际距离调整。 T +852 2690 9550

E info@beanburo.com

Our office Unit 2803, 3/F 248 Queen’s Road East, Wan Chai, Hong Kong

Our Workshop 19B, Block 6, Larvotto, 8 Ap Lei Chau Praya road, Aberdeen, Hong Kong

BB106 Tasty Chengdu Sketch drawing

BB106 Tasty Chengdu SK-17 Wine Cellar Design 正斗成都 SK-17 酒窖设计 Date: 27 21/04/15 Date: / 11 / 14

Plan 1:50 @ A3 平面图 Total Storage Capacity: On the Shelfs: Up to 477 bottles Red Wines In the Wine Cooler: Up to 156 bottles White Wines and beers. 总共储存能力架子上：最多477瓶红酒红酒恒温器中：最多156瓶白葡萄酒或啤酒

Wine Cellar Position 酒窖位置

(Applicant’s work) An Illustration of an office design

Contractor to propose strengthing wall to support the wine bottles 由承包商来提议加强墙体的方案，以支持酒瓶的重量。 Contractor to propose ventilation & temperature control 请由承包商来建议空气对流及温度控制方案。 Tinted glass 茶色玻璃 Omit 4 seated table. 取消四人桌。

vi v v

v v

Wine Cellar Reference Image 酒窖参考图片

The service counter will be moved to here. Contractor to refer to SS-5 to change. 服务柜移至此。请承包商根据SS-5图纸自行修改。

Elevation 1:20 @ A3 侧视图 Timber Proposed by Contractor 木材请由承包商建议

Wine Cooler Sample v (For Reference Only) Dimension: 595mm(width) x 590(deep) x 840(height) Storage Capacity: Up to 48 bottles Supplier: Xin Gai Nian Jian Kang Electrical Equiptment Price: RMB 1890 Link: http://item.taobao.com/item.htm?spm=a1z10.3-c. w4002-4975386887.48.qsDpgZ&id=36257407283

iii

Wine Cooler Sample vi (For reference Only) 红酒恒温器 vi （仅供参考）

Wine Cooler Sample vi (For Reference Only) Dimension: 260mm(width) x 495(deep) x 650(height) Storage Capacity: Up to 12 bottles Supplier: Xin Gai Nian Jian Kang Electrical Equiptment Price: RMB 599 Link: http://item.taobao.com/item.htm?spm=a1z10.3-c. w4002-4975386887.36.qsDpgZ&id=36421616587

红酒恒温器样品 v （仅供参考）大小：595mm（宽）x 590mm（深）x 840mm（高）储存能力：最多48瓶供应商：新概念健康电器价格：人民币1890 网址：http://item.taobao.com/item.htm?spm=a1z10.3-c. Wine Cooler Sample v (For reference Only) 红酒恒温器 v （仅供参考） w4002-4975386887.48.qsDpgZ&id=36257407283 Please note that wine cooler samples are for reference only, contractor to propose wine coolers. 请注意，红酒恒温器样品仅供参考。请承包商提供红酒恒温器建议。

T +852 2690 9550

E info@beanburo.com

Our office Unit 2803, 3/F 248 Queen’s Road East, Wan Chai, Hong Kong

Our Workshop 19B, Block 6, Larvotto, 8 Ap Lei Chau Praya road, Aberdeen, Hong Kong

红酒恒温器样品 vi （仅供参考）大小：260mm（宽）x 495mm（深）x 650mm（高）储存能力：最多12瓶供应商：新概念健康电器价格：人民币599 网址：http://item.taobao.com/item.htm?spm=a1z10.3-c. w4002-4975386887.36.qsDpgZ&id=36421616587

Please leave around 50mm space around the wine cooler v to ventilate. 请在恒温器周围预留大约50毫米空间，以供散热。 Storage Capacity (Unit: bottle): i: 5 ii: 11 iii: 10 iv: 22 v: 48 vi: 12

储藏能力（单位：瓶）： i: 5 ii: 11 iii: 10 iv: 22 v: 48 vi: 12

BB106 Tasty Chengdu Sketch drawing

(Applicant’s work) Construction drawings for a F&B project in China.

(Collaborated work) Design proposals for the interior design of a F&B project in China and its final outcome

(Collaborated work) An Illustration of an office design

Hanyuan (Helen) Wright-Zhang

THANK YOU