ARISE WAN
ア リ ス ワ ン Volume 1 Architecture Projects 2009-2019
BIO
CONTENT
In 1991 , I was born in a humble family living in a small wooden house where nature was my entertainment. Since then, I have been fascinated and curious about how the world works. The architecture of the natural world; from the structure of plants and animals to the stars above in the heavens. It was tremendously beautiful in my eyes and therefore I taught myself sketching skills so beautiful moments could be recorded and frozen in time. Imagination naturally flourishes in my mind. Through the practice of sketching and my passion for sci-fi, I was able to become a manga artist /futurist for a certain period, drawing humans, buildings, perspectives, futuristic elements and more. In 2006 my passion for architecture ignited. I recall walking back from school on a warm evening. I saw that the forest in front of my house had been wiped out in a single night by machines for an unresolved and unsustainable building development. From that moment onward, I began to rethink the coexistence of humans, nature and technology. This moment gave me the drive and curiosity to seek better answers for this coexistence. In 2016 I decided to make a big move and travel 5970 miles in order to learn and better understand our technologies. Here I was inspired to think of new ways how our technologies can be utilized to create a more honest coexistence in this endless evolving universe. It has been a quarter of my life, the curiosity that has always been in my mind is perfectly reflected in this quote:-
“I am tormented with an everlasting itch for things remote.i love to sail forbidden seas,� Herman Melville#Moby Dick #Carl Sagan
CONTENT
01 Academic Research | M.A.Arch. + Researcher + Asst. Lecturer > 1 Robotics Architecture for Future Space Exploration |Final Thesis DIA +TU DELFT > 2 EAS:Evolving Asteriod starship |Research project Team D-START TU DELFT > 3 Bioplastic to Robotic production|Research project DIA + DDD > 4 Design to Robotics Production |Semester 2 DIA +TU DELFT 02 Competition Projects | International & National Level > 1 Timmendorfer strand Sport Hotel > 2 Reforming Waste Pipping Manshyet Naser |Confronting Informality Competition > 3 Rest -To-Run |Non-Architecture Competition-International > 4 Project NeuHaus 2 |TINYHOMES ,Chicago Homeless Solution by AIA - International > 5 Look Beyond-MH-17 Memorial +Park @Amsterdam|Mattersbetter-International > 6 Sync Bio-Tech|Evolo Skyscappers-International & Pertubuhan Arkitek Malaysia-National > 7 Project NeuHaus|Affortable Housing by PAM & Lafarge Student Competition -Malaysia 03 Built Projects | TETAWOWE Atelier + Studio 5ft2 + Project Neuhaus > 1 Glamping |5 star Glamorous Camping in Penang Tropical Forest@Pulau Penang,Malaysia > 2 Mush-Room |Capsule Hotel Living on reused city roof top@Kuala Lumpur,Malaysia > 3 WE Residence |Bunglow for Family of 4 @Subang,Malaysia > 4 Small Projects |Details for Capsule Hotel KLIA 2 @Kuala Lumpur,Malaysia > 5 Small Projects |Details for Container Hotel @PulauPenang,Malaysia > 6 MyEspresso Cafe | Micro Living space for Cafe space@Subang,Malaysia > 7 House 6331 |Plans Drafting , Seattle ,U.S.A 04 Personal Interest| hand sketches :Art + Science + IImagination
01 A
01 Academic | M.A.Arch.
01.1 MARS-Haus:Robotics Architecture Outerspace Architecture Development @TU Delft ,Netherlands to Planet Mars @Valles Marineris.
01.2 Research & Design Team D-START TU DELFT EAS : Evolving Asteriod starship @Delft,Netherlands
01.3 Research & Teaching assistant Bio-plastic & 6-Axis 3D printing exploration @Dessau,Germany
01.4 Design to Robotics Production Exploration Student Housing@Netherlands,North Sea 01.5 Design to Robotics Production Exploration Student Housing@Netherlands,North Sea
01 A Robotics Architecture for Future SpaceExploration |Research Thesis | DIA +TU DELFT [ Best Studio Project / 1 PROJECT: MARS HAUS Nominated for Robert Oxman prize] Throughout the few decades, technologies had been tremendously growing better,allowing future long term space exploration more accessible in a hostile environment. Mars Mission which was one of the convincing proposal over the last century for humans space exploration due to the cogent evidences of elements to support life. Thus,a design solution is proposed to optimize a living habitat [MARHAUS] by the aid of robotics constructions on Earth and Mars.The focus of this research will be developing the possibilities of 3d printing with robotic arm by injecting biomimicry literation which will be beneficial into 2 phases of architecture process in a modular form :[ Phase01-On Earth ] developing lightweight architectural materials <manoeuvre membrane >to [ Phase2-On Mars] ISRU<in-situ resources utilization:Sand spray construction> extreme environment construction . Both phases will be synchronize and equally crucial as it will
be advantageous with one another .In addition, the aim of modular system design are to ready for future robotic mass production when the system are fully developed.
For more project info: http://uf.roboticbuilding.eu/index.php/Dia1:P2 Supervisors: Henriette Bier & Sina Mostafavi [ TU Delft/Hyperbody ] 2nd Supervisors: Angelo Vermuelen [ TU Delft/Former NASA collaborator /ESA ] Robotic production team :Mohammed Moharram Arwin Hidding
1
One Modular assembly
2
One Module Structure to be fit to fairing size + folded membrane
3
inflation of membrane
VALLE MARINERIS
01 A Robotics Architecture for Future Space Exploration |Research Thesis 1:ON EARTH 1 PHASE F0 Form Finding =Pressure + Nodes Control
Design Parameters: Layers
DIA +TU DELFT
Inspiration :Manoeuvre Membrane
Membrane structure are dominanting now for space exploration due to its ease of construction and cost, unfortunately it can only withstand several decades more like to be a temporary structure.Plantae species always a fascination, especially their metabolic system compare to animalia species.They do not need a central core like animalia need a heart to create pressure to transport nutrients to the overall system but a more smart and economic system ,â&#x20AC;&#x2122;Phloem & Xylemâ&#x20AC;&#x2122; . Imagine that , it relate back to our technologies today, heavy engines and choatic wiring were still embedded in every machine which contribute much of the weight , what if we can improve it by looking back to plantae metabolic system inject into the structural membrane.
From the analysis of design parameters variation enable forming of mutiple layers to address different functions and circumstances for optimizing the overall architecture comfort level for future long term humans space mission.The layers are to be design smartly , compressing functions in a thin single layer instead of a mass and heavy mechanical machines .Therefore , biomimicry plays an important role in this layering design ,for instance a great nature references is the vascular system of plant from the roots to the leaf .Therefore each layer of membrane is design and generated according to revelant collective data. Integrated Matrix:Manoeuvre Membrane Texture
01 A Robotics Architecture for Future Space Exploration |Research Thesis 1 PHASE 2:ON MARS 01.1 Gap/WaterVolume:Radiation Shielding
Astronauts must be protected from two sources of radiation: [1]The first comes from the sun [2]The first comes from the sun. Solution:Water molecule an effective radiation shield ing due to itâ&#x20AC;&#x2122;s unique absorption spectrum absorbs high energy short wavelength radiation. In addition, it also provide a interesting sense of interior spaces from the allowance of diffusses natural light in the visible spectrum. For more information about liquid water absorption: https://atmos.washington.edu/~sgw/PAPERS/2006_icemcx.pdf
DIA +TU DELFT
Air Gap :Pressure/Atmosphere For inflatable membrane structure several crucial aspect will need to be taken in to account of:[1]Air pressure/Atmosphere [2]Materialization/Strength [3] Wind/Climate on site. [1]Understanding the atmospheric pressure within MARS and Earth. The atmosphere of the planet Mars is composed mostly of carbon dioxide. The atmospheric pressure on the Martian surface averages 600 pascals (0.087 psi; 6.0 mbar), about 0.6% of Earthâ&#x20AC;&#x2122;s mean sea level pressure of 101.3 kilopascals (14.69 psi; 1.013 bar).While in space shuttle,interior atmosphere around 70 kPa.[2] The Dyneema reinforced membrane is the only pressure boundary, taking the load of 70 kPa of interior pressure.[3]Wind speed along the great canyon should be consider , to prevent inflatable structure lifted off its moorings.
For more information about liquid water absorption: (Provided by S. C. R. Rafkin (unpublished data, 2004).)
01 A Robotics Architecture for Future Space Exploration |Research Thesis 1 EXPERIMENTS :HANDS-ON
DIA +TU DELFT
Experiments-Origami Tesselation StructureThe connecting nodes of the tesselation were secure by liquid superglue accordingly to the desire form design in order to have a structural stand.
EXPERIMENTS: 3D PRINTING
Experiments-Undertanding of computation aid & Materials-translating natureâ&#x20AC;&#x2122;s algorithm into a better generative system and 3d print production.Understanding of 3D print flexible material:TPE
01 A Robotics Architecture for Future Space Exploration |Research Thesis |DIA +TU DELFT 1 ROBOTIC PRODUCTION Test 1-Robotics arm printing [1]Arduino set up> [2]Extruder set up > [3]Silicon print > [4]>control+inspect [5]Prototype trial
Prototype Design
01 A Space Architecture Project | TU DELFT 2 Project: EAS-Evolving Asteriod starship A group of students and researchers at TU Delft University of Technology are designing a starship capable of keeping generations of crew alive as they cross the gulf between stars-incooporating with European Space Agency‘s [ESA] Melissa System– and they’ve turned to ESA:Evolving Asteriod Starship for the starship’s life support ,capturing existing asteriod and harvesting minerals from it for future developments. For more project info: h t t p s : / / w w w. o z y. c o m / f a s t - f o r w a r d / think-living-spaceships-are-science-fiction-think-again/90873?fbclid=IwAR1NGjmGCVY4XCWTLZ7QuPxE6m47VSjZRe15lAt8XJ5CkUxop2PJkaQf4Fs Coordinator:Angelo Vermeulen [TU Delft / Former NASA HI-SEAS 1 commander/ ESA collaborator ]
System Study Modules-transit
Module-2-Garden
Concept Sketches
Module-3-Garden
01 A Space Architecture Project | TU DELFT | BREDA PHOTOS EAS-Evolving Asteriod starship 2 Project: Exhibited @Breada Photos 2018,Breda,Netherlands
For more project info: h t t p s : / / w w w. e s a . i n t / s p a c e i n i m a g e s / Images/2018/04/TU_Delft_E_A_S_Evolving_Asteroid_Starships_project Design team:Angelo Vermeulen , Nils Faber, Joris Putteneers,Arise Wan,Sharon.V.Rijthoven ,Amelie Kim ,Antonio Bobrevski ,Jasper Wennekendonk
System Study Modules-transit
Exhibition info: https://www.bredaphoto.nl/edition-2018 /festival/the-photographers/dstart/?lang=en
Concept Sketches
Starshipâ&#x20AC;&#x2122;s Interior Architecture
01 A Bioplastic to Robotic production | DIA + DDD 3 Project: Second Skin The concept of our bioplastic project centers around making us feel more human in the future. In a world where algorithms and artificial intelligence surround and control us, it could become normal to interact with machines that simulate feelings. “SECOND SKIN“ is supposed to show and remind us of our true selves by displaying real emotions. The cutting pattern is inspired by what lies inside of us and the muscle fibres. By combining the bioplastic with a thermochromic pigment. So our product is able to detect and record for example physiological signs of stress and excitement by measuring temperature changes in the skin. In addition our aim was to create a material that feels comfortable and easily takes the shape ofthe body in order to reflect humanness.The best Ratio of water, gelatine and glycerol for the bioplastic we needfor our product is: 20:4:3. The patterns of the skinwere generated by the algorithm of attraction point method through the application to the most sensitive point ofthe human body and human heat mapping.The production method that we used in this design is 2d cutting by English wheel cutter fig 03 fixed inthe Robotic arm KUKA fig 01. Publication: http://nexttoparchitects.org/post/182982466511/ photo-text-sinamostafavi-secondskin-is-a?fbclid IwAR1vC-GsIRgmp4G-L5AE_hsWC-Q4TKde4 OplbR3NPuLuLGD6z45VO6youM0 Team Coordinators: Prof.Manuel Kratzer[DDD] & Sina Mostafavi [TU Delft] Assistant Researcher and tutor: Arise Wan Students: Dominique Lohaus, Johanna Müller, Quenna Leer, Amro Hamead, Neady Oduor
System Study Layering System
Prototype Design
01 A Design to Robotics Production |Semester 2 | DIA +TU DELFT Team 4 Project:Hybrid Assembly Architecture Digital Fabrication had justs started in the last few decades, it is very new and yet a wide range of amazing possibilties to be discover ,hence as a team we are ready for exploration with endless curiosity . The project focuses on the studies of digital fabrication in Assembly method and Layering system of the architecture structure design with the implemantation of Parametric System :Grid Distortion system which later on will be translated into KUKA prc operation literation for a prototype design outcome.The refinement of the architecture design & structure[Student housing unit] were crucial too for corresponding to the advance production level ,in terms of spatial quality,anthropometry,modularstructure, technology,environmental and thermal comfort analysis from the given specific site [Location :North Sea Netherland].
DIA student: Leong Chee Chung ,Arise Wan, Lim Tian Jing Coordinators: Henriette Bier & Sina Mostafavi [TU Delft] Workshop research team/tutors TU Delft Students: Arwin Hidding, Marco Gali, Benjamin Kemper, Daniel Fischer ,Olav van der Doorn.
For more project info: http://ip.hyperbody.nl/index.php/Msc2G9:Group
System Study Layering System
Assembly Method
Assembly method and Layering system
Prototype Design
01 A Design to Robotics Production |Semester 2 | DIA +TU DELFT 4 Architecture Student Housing The Architecture aspect focuses on environmental analysis meanwhile redefining human anthropometry into the next level by understanding data driven design which can correspond to human body movement with environmental aspect to recreate space parametrically and componential logic from micro to macro scale.Student housing were selected as study focus in a specific develop site by student of TU DELFT[more info: refer to the link ]:http://rbse.hyperbody.nl/index.php/project01:P2 Motion + Anthropometry
Fragment to Develop
Environmental Analysis
Componential Logic
1
2
3
4
01 A Computation Aid Design |Semester 1 |DIA [ Best Studio Project nomination ] 5 Project: Neuhaus@Berlin The last few decades, the issue of the relentless need for affordable housing has been brought to worldwide cities attention. The proposed solution, NEUHAUS , aims to redefine the term â&#x20AC;&#x153;affordable housingâ&#x20AC;? beyond its boundaries through revitalizing old unused spaces by emulating and learning from Biomimicry> Plant Metabolism sytem, an organic biological growth which include the process reaction of transporting and digestion substances for life sustaining purpose had siezed a potential use in future self sustain-building system. tutors: Karim Soliman,Ksenia Kalacheva,Peter Ruge.
System Study Layering System
Biomimicry
01 A Computation Aid Design |Semester 1 5 Ideas + Sketches
DIA
2
Sectional Perspective
Sectional
02 C
1-Timmendorfer Strand Sport Hotel @Timmendorfer Strand, Germany 2-Reforming Waste:Pipping Manshyet Naser @Cairo,Egypt 3-Rest-to-Run @Tokyo/applicable to any site 4-Project Neuhaus 2 @Chicago,IL, U.S.A
02 Competition Projects International/National Level
5-MH-17 Memorial + Park @Amsterdam,Netherlands 6-Sync Bio-Tech @Worldâ&#x20AC;&#x2122;s Cities 7-Project Neuhaus 1 @Kuala Lumpur,Malaysia.
02 C 1
Timmendorfer sport hotel | Rimpf Architecktur @Timmendorfer Strand,Germany.
An old ice skating and a tennis hall from the 1960â&#x20AC;&#x2122;s along the Baltic Sea need a new concept for the coming future,while some structure need to be maintain due to the provided cost .It is a challenge to merge all the requirements harmoniously in terms of new concept adapt to the old,especially implementation of the organic shape roof and the new sport hotels.
Teams:Stefan Rimpf / Arise Wan/ / Senta Elisabeth Patsch
Design Stage
02 C 2
Reforming Waste Pipping Manshyet Naser|Confronting Informality Competition by TU DELFT -International -[Finalist] 2018 @Cairo ,Egypt.
Outskirts of Cairo, Egypt - the world’s largest garbage village[Manhsyet Naser]: the Garbage city piled with large amount of nylon bags filling the streets. The residing “Zabbaleen” (Arabic for garbage people), sort thegarbage to retrieve useful or recyclable items into trash trade, making a livelihood out of what theycollected. The lack of proper sanitation creates odor and diseases easily spread within the city, affecthe perception of the Cairo citizens towards the slum, one place local Egyptians would not step in.This small-scale initiatives ideas intentionally create a healthy community, empowering all individualsand communities, an act of stimulus for future sustainable growth. Idea of changing one street, one initiatives at a time that could stir up a pride in the people of the garbage city, improve their livingquality while diminishing the prejudice against them in the process. We are convinced every slum is unique and would like to make it a success starting from Garbage city.
Team: Arise Wan/ Charlene Chan Huishan / Mohamed Moharram/ Lee Xiao Hui / Kareem Nems Media:Handsketches & photoshops
Perspective
02 C 3
Rest-To-Run |Eating-Non Architecture Competition -International -[Honorable Mention] 2017 @Tokyo /applicable to any site
Make every meal a hearty meal – within just a few steps! “Restaurant”. Defined as a place where people pay to sit and eat meals that are cooked and served on the premises. We often refer to a restaurant as a place, as a physical location. But what if the restaurant itself is not a stagnant but a moving object, or even more, actually resembling a living creature, which could self-sustain by growing food on its own. Because of that, it serves food fresh! And what if, instead of walking into a restaurant, you can have a walk side by side with the restaurant! Take a journey with Rest-ToRun by hopping on for your next meal, now available within the new city loop. Prefer to stay home? Worry not, it is also able to serve warm food right outside your window. So check out our schedule now! Experience eating like you never have before. Experiencing good taste with every step! http://www.nonarchitecture. eu/portfolio/rest-to-run/
Team: Arise Wan Meizhen, Catherine Keh Yee Cents, Chee Seng Kong, Melissa Chong Sook Lynn, You ShingSoh Media:Handsketches & photoshops
Sectional Perspective
02 C Tiny Homes |Chicago Homeless Solution by AIA - [Participants] 2015 @Chicago,U.S.A 4 NeuHaus hopes to serve as a stable home for homeless young adults to tran-
sition themselves into an independent, confident individual. The prototype is designed to be stackable, allowing it to be replicated easily in cities where land is scarce and expensive.
Team: ,Arise Wan,Tan BK,Alian Chan ,Lee BinLi, Keith Tan
Panel System Sense of belonging is strengthen architecturally by spatial adaptability and flexibility. These 250 square feet modular homes consist of openable wall panels and retractable fur-
DIY Mannual -Panel System
02 C 5
Look Beyond |MH-17 memorial + Park International Open Idea-[Top 50-Semi FInalist] 2015 @Amsterdam, Netherlands
The memorial is portrayed as a monumental figure, a symbol of defiance and human determination towards the flight tragedy that has struck the Dutch nation and the world as a whole. The memorial aims to harness the power of journey and discovery to create a strong immersive experiences when one walks through it. In regards to creating such spaces, it is hope that the memorial could evoke a sense of being overwhelmed at first, but when one moves from one end to another, the feeling is gradually being replaced with peace and tranquility and finally, HOPE. Publication : https://matterbetter.com/library/?competition=4
Team: Wong ChunFei ,Arise Wan,Howie Lam,Ho KJ, Keith Tan
Plan
Plan
Section
02 C Sync Bio-Tech |EVOLO Skyscappers -[Participant] 2015 6 |Architecture Student Competition,University Malaya -[2nd Prize] 2015
Team: ,Arise Wan,Tan BK, Niragira Lysette
02 C Neu Haus |PAM -Lafarge Student Competition --[2nd Prize] 7 @Kuala Lumpur , Malaysia
2015
Team: ,Arise Wan,Tan BK, Niragira Lysette,Alian Chan,Lee Binli
03 DB
1-Glamping[Boulders Valley 5-starCamping Resort] @Pulau Penang ,Malaysia 2-MUSH-Room[Capsule Hotel on Cities Rooftop] @Malaysia/Future:Japan,Korea,United Kingdom 3-WE-Residence[Bunglow for family of 4] @Subang,Malaysia
03 DesignBuilt Projects International/National Level
4-Small Projects[KLIA 2 international airport] @Kuala Lumpur,Malaysia 5-Small Projects[Capsule Hotel Penang] @Penang,Malaysia 6-MY Epresso Cafe @Subang,Malaysia 7-House 6331[A Bunglow for family of 5] @Seattle,U.S.A
03 P Glamping |Boulders Valley Resort 5-star Camping |TETAWOWE Atelier 1 @Pulau Pinang , Malaysia
The Masterplan In this project ,the assigned task were to design and plan the overall masterplan of a 24acres Jungle resort named â&#x20AC;&#x153;Boulders Valleyâ&#x20AC;?, with 25 significant units of Glamping [glamarous camping ].In this particular project,extra consideration of deforestation ,landscape and maintaining the environment were being priortize due to the alluring exisiting natural elements of the surroundings.The site consist of approximately 100 of large appealing boulders and varies of local tropical trees.Thus, most of the building design and structure were design with profound analysis and site measurements accordingly to the coordination of the existing boulders and trees.Hence the overall architecture end outcome will be naturally blended to the nature,maintaining the wonders of the nature meanwhile co-exist with a glimpse of architecture beauty. Climate & Geology Pulau Pinang consist of tropical rainforest bodering on a tropical monsoon climate,though Penang does experience slightly drier conditions from December to February of the following year.The climate is vey much dictated by the surrounfing sea and the wind system.There are 3 main geological formations in Penang i.e the orthoclase to intermediate microcline granite and the Mahang Formation(mainl ferruginous slate).Penang island has no sedimentary rocks and
2014-2018
Tender and Construction Stage
03 P Glamping |Boulders Valley Resort 5-star Camping |TETAWOWE Atelier 1 @Pulau Pinang , Malaysia
2014-2016
On site Construction Task :Project Architect -site inspection
Glamping unit | Safari tentâ&#x20AC;&#x2122;s Interior
Glamping unit | family tentâ&#x20AC;&#x2122;s Interior
03 P MUSH-Room |Capsule Hotel on cities roof top|TETAWOWE Atelier 2 Future@Malaysia,Korea,Japan,United Kingdom
2014-2016
Tender and Construction Stage
03 P MUSH-Room |Capsule Hotel on cities roof top|TETAWOWE Atelier 2 Future@Malaysia,Korea,Japan,United Kingdom
2014-2016
On site Construction Task :Project Architect -site inspection
03 P WE-Residence |Bunglow for family of 4|TETAWOWE Atelier 3 @Subang Jaya,Malaysia
Concept The overall planning of spaces lies in a strong linear arrangement, allowing a sense of continuous towards space.In the meantime, the arrangment create a series of framing through each functional spaces .The overall plan were also design to be very open due to the hot climate and the surroundings environment .Each spaces consist of a big opening framming specific views .In addition , the concept of material and colours were to keep as minimalist,allow only raw texture from the selected material such as concrete stones and bricks along the surface , only some will be painted and coated.
2014-2016
Tender and Construction Stage
03 P WE-Residence |Bunglow for family of 4|TETAWOWE Atelier 3 @Subang Jaya,Malaysia
2014-2016
Tender and Construction Stage
03 P Small Projects |Details for Capsule Hotel KLIA 2 | TETAWOWE Atelier 4 @Kuala Lumpur International Airport 2 , Malaysia
Concept Capsule Hotel is a compact yet affordable temporary living for customers who are waiting for the next flight in the Malaysia secondary International Airport .The overall concept pretty much inspired by japanese idea of compact spaces in a modular system with the interplay of minimalism.It is categorized into few typologies of living space such as single room,share room or a family room. Such interesting design space had successfully attracted alot of customers,therefore extension is needed interms of customer storage area and cabinet for keep more resources for the hotel.
2014
Tender and Construction Stage
03 P Small Projects |Details for Container Hotel Penang | TETAWOWE Atelier 5 @Pulau Penang, Malaysia
2014
Tender and Construction Stage
03 P My Epresso Cafe|Micro Living space for Cafe haus | Project Neu-haus 6 @SubangJaya , Malaysia
2014-2015
Tender& Construction Stage
detail D
detail C wood NO.
Parts of wood(mm) P1 P2 P3 P4 P5
P6
P7
P8
P9
total length
_
_
_
_
_
_
_
_
_
_
15595
15595mm
_
_
_
_
_
12785
12785mm
_ _ 1980
6765
8100
14865mm
14742
17100mm
2358
14742
17100mm
2508
14592
19080mm
2358
6020
17860mm
3012
6020
17640mm
610
760
4403
7843
1140
3137
2400
8830
460
4403
1140
3137
2400
8830
310
4403
1140
_
3237
8608
760
887
1140
460
887
1140
_
887
1140
310
887
1140
2376
5537
detail B
20520mm 20370mm
14367
1140
detail E
18
20220mm
1140
7690
20670mm
9053
1140
4880
17560mm
9053
1140
6570
18790mm
9053
1140
6570
19550mm
_
18790
18790mm
610
18790
19400mm
310
18790
19100mm
13
9
29mm dia spacer
29mm dia spacer Bolt and nut joints
0
15
29mm dia spacer
steel plate welded to 10mm dia. steel bar
Bolt and nut joints
Welding joint
25mm dia.steel rod
Stainless steel dowel Bolt and nut joints
25mm dia.steel rod
Stainless steel dowel and bolt
Laminated thick plywood Blot and nut joint[flange] - a nut with a built in washer like flange.
Laminated thick plywood
detail E
detail D
detail C
detail B
detail A
12
7
detail A
25mm dia.steel rod
10mm dia steel bar
11 10
15
Project [MyEspresso] date:11.04.2015
1. Only figured dimensions are to be worked from. 2. Contractor must check all dimensions on site. 3. Discrepancies must be reported to the Architect before proceeding.
drawn by: Arise & Howie
ALL RIGHTS RESERVED
1
2
3
4160
4840
6050
26320
4
5
2920
17100 counter / bar water filter corner
stairscase
Merchandise area
counter chiller
ice maker
2
7
6
3020 1650
8
2680
2650 A
4970
2
dish washer
refuse chamber
counter / bar 50DP
50DP
1030
100DP
proposed storage
5538 150
1800
Pastry freezer
w.c
150
840
1179
a/c 2031
a/c
888
150 1140
840
840
a/c
1140
50UP
1179
5000
Ice cream freezer
2375
w.c
3042
1515
DB box
5990
scale :nts
1030
FOR INFORMATION
selfie corner
store room
6040 B
track light - RIO
single 1200mm L fluo light conceal (warm colour-mild yellow)
small exhaust fan
17
03 P House 6331|Plans Drafting for Bunglow renovation |5ft2 Studio 2017-2018 7 @Seattle, U.S.A
Proposal Stage
04 PI
03 Personal Interest Imagination & Sketches
Evolving Starship #D-start Team.TU Delft
ICARUS
Vitruvian Human Proportion
04 PI 1
Evolving Starship |D-Start Team |TU Delft 2018
Proposal Stage
An Evolving Starshipâ&#x20AC;&#x2122;s Anthropometry Imagine architecture is not just 1g ,now we need in zero gravity too in the coming future.It will create more possibility from the unlimited surface dimension
May 2018 | Netherlands
04 PI
Motion to Anthropometry 02
Proposal Stage
Motion to Anthropometry 02 Imagine the motion of human body can be detected accordingly to the motion of each human individual .It could possibly shaped according to individualâ&#x20AC;&#x2122;s desire anthropometric
May 2017 | Netherlands
04 PI 2
Icarus 2018
ICARUS Imagine spaceships can be build in the outerspace, ICARUS the Starship Factory with hundreds of robotic arms which willfully powered by the Sunâ&#x20AC;&#x2122;s limitness energy. September 2016|Germany
04 PI 3
Vitruvian Human Proportion 2018
Vitruvian Human Proportion Leonardo Davinci believed the workings of the human bodyto be an analogy for the workings of the universe. I do have the same though. April 2018 |Germany
Arise Wan
ariseone1991@gmail.com +49 15737048669 |Germany
To See more: https://issuu.com/ariseone/docs/arisedrawings