JL
Jian Hwan Lai ARCHITECTURE and Design works 2015-2020 / Tamkang University
Create SPARKs and Inspire the World
Create Sparks Build up an Inspiring World and Bring some SPARKs into people’s LIFE Design spaces that drive innovation, stimulate imaginations, and foster a better future By placing innovative designs in the space we live in, we can create brand new approaches for people to experience the world, and also motivate people to engage in creative activities
“ Well, the best way to Predict the Future, is to
create it”
Abraham Lincoln
#Architectural Design #Product Design #Virtual Land Design #NFT Design #Traveling #Spinning #Hiking
2015-2020
Bachelor of Architcture, Tamkang University Design a space that drives innovation, stimulates imaginations, and foster a better future
Experience 2018 Tokyo Housing Design Workshop
TKU × JWU
Housing design in Kagurasaka, Tokyo
2018 Conservation Volunteer Work, Melbourne Coastal Environment Conservation at CVA (Conservation Volunteer Australia)
2021 Tracks Design and Manufacture for Tracking Robots
Fresh Mind, Fresh Perspective, and Young Power
Coastal Environment Conservation at CVA (Conservation Volunteer Australia)
2021 NFT Artworks design and sell Designing diverse non-fungible ttokens selling om Opensea
Works 01
Arctic Accupunture
02
Auto-Logistic Park
03
Holoscape
04
Mixed Reality Racing Tracks
Refreeze Station on Melting Glacier / Greenland
Decentralized Logostic Stations
Holographic cityscape design
/ Product Design /
Mixed Reality racing tracks design / Product Design
Taipei
/ Taipei
03 Arctic ACCUPUNCTURE Glacier Maintaining Station / Extreme Environment Engineering Endangered Western Greenland
Increasing moving rate of Greenland Glacier Surface Melting is speeding flow of Greenland Glaciers. Each summer, the meltwater seeps through crevasss and moulins to the bottom of the ice sheets. At the bottom, the water can lubricate the base of the ice, while it also releases heat when ir re-freezes, softening the surrounding ice and allowing it to flow faster. “Warmer, softer ice within the ascal unit together with llubriation at the ice sheet base contributes to the onset of fast flow. ”In the onset regioin, the ice moves 10-100% faster than the adjacent ice.” (from the study published in the journal Nature Geoscience)
Aug 31 2019
Create Ice-Stablizing Network Moulin drainage events influence Greenland Ice Sheet dynamics on hourly to interannual timescales. However, direct observations are rare, and, to date, no in situ studies exist from fast-flowing sectors of the ice sheet.
Step 1 Block the Meltwater
Moulin drainage events influence Greenland Ice. To stop the water from seeking, install a water block to stop it is the first step
Influence Area
Step 2 Recover Melted Ice
Meltwater Draining Point
Cover the melting ice with cooling panel that provides meltwater with a new layer to refreeze and set up a stronger structure that avoids melting.
Influence Area
67°40 N
67°20 N
Calving line
67°00 N
DRAINING SPOT
Cause of Weakening Glacier Moulin drainage events influence Greenland Ice Sheet dynamics on hourly to interannual timescales. However, direct observations are rare, and, to date, no in situ studies exist from fast-flowing sectors of the ice sheet. Here, we present observations of a rapid lake drainage event at Store Glacier, west Greenland, in 2018.
47°40 W
47°60 W
47°20 W
Draining
Draining
Draining Point / Moulin KT-041
Meltwater Draining from moulin
Moulin drainage events influence Greenland Ice Sheet dynamics on hourly to interannual timescales. However, direct observations are rare, and, to date, no in situ studies exist from fast-flowing sectors of the ice sheet. Here, we present observations of a rapid lake drainage event at Store Glacier, west Greenland, in 2018.
Moulin drainage events influence Greenland Ice Sheet dynamics on hourly to interannual timescales. However, direct observations are rare, and, to date, no in situ studies exist from fast-flowing sectors of the ice sheet. Here, we present observations of a rapid lake drainage event at Store Glacier, west Greenland, in 2018.
Refreezing Station
External Freezing Panel
( extendable ice skin )
Moulin drainage events influence Greenland Ice Sheet dynamics on hourly to interannual timescales. However, direct observations are rare, and, to date, no in situ studies exist from fast-flowing sectors of the ice sheet. Here, we present observations of a rapid lake drainage event at Store Glacier, west Greenland, in 2018.
Water Tank
Internal Freeze panel
( everlasting ice skin that stablizes the old surface )
Cooling Fin
( Alumni / total 1876 m² )
External Freezing Panel Hyper Cooling Tube Cooling Loop
Freezing Wind
Coldness Transfer System The upper aero-fin is designed in the shape to gain the coldness from the Arctic winds that blow at night. Bringing -8°F east wind to the coldness storage tank and maintian the low temperature that would help maintain the surface ice and stablely thicken the top layer of the surface.
Coldness Transfer
Cooling Process 01 Collect Coldness
The upper aero-fin is designed in the shape to gain the coldness from the Arctic winds top layer of the surface. The heat tank and the heat transferring fin are installed under the glacier surface from -10m -80m, in order to extract the longlasting coldness in the mid glacier. Also, it would be the best place to storage the coldness.
Inside the Moulin Englacial vertical temperature
Upper Cooling Fin
( Above Glacier Surface / total 1876 m² )
Under-ice Cooling Fin
Depth (m)
The Central Panel covers the draining stream and serve as a new layer for ice to refreeze and then stablize the melting area around the supraglacial streams. The panels are formed in hexagon to stregthen the bonds that conncet each unit, and also is the better shape for the meltwaater to storage and refreeze.
Lowest temperature of Glacier
200
( Installed in moulin or crevasse / total 1124 m² )
02 Freeze the Panel
0
Place to storage coldness
400
600
Internal freezing panel
800
( Covering the meltwater stream / Hexagon Panel )
-20
-10
Temperature (º C)
00
02 Auto Logistic Park Delivering gadgets from Cyberworld to Real world
Create an innovative logistic systems to bring new experiences of delivering and also receiving packages
Hyper Connection
Decentralized Logistics
Automatic Delivery
Vertical Storaging
Packages would be storaged in vertical network, to maximize the efficiency of space using in the city. And Drones and vertical moving robot allows packages to move vertically.
Interactive Package Station
Decentrlized Logistic
From centralized logistic warehouse to decentralized delivering network, replace traditional warehouse as numerous delivery and storage stations. The decentralized network can support a mega logistic economy and also boost the efficiency of delivery.
Centralized Warehouse
Decentralized Logistic Network Node 01
Package Flow
Node 02
Node 04
Node 03
Warehouse Node 05
Node 07 Node 06
Decentralization
Dynamic Storage and Delivery
Packages would be storaged in vertical network, to maximize the efficiency of space using in the city. And Drones and vertical moving robot allows packages to move vertically.
Randomly Moving Packages
Aggregated Packages
Dynamic Platform
Package Staiton Network
AI Storage System
These conceptual drawings illustrate the hypernetwork that connects objects, human bodies, and also environments, which allows people to connect with IoT and acquire surrounding data immediately.
Sta Stacking
Adjustment
AI Detecting System
Frame / Aggregating
Storage
tio
Frame / Aggregating
n0
2
Automatic Delivery
Trucks and human would be replaced by delivery robots, drone and the systematic logistics network. These elements would boost the efficiency of delivery and offer a new logistic experience.
Delivery Robot
Drone
Delivery System
Dynamic Platforms
Sta
The grid mobile system on the ground are implemeted with detecting AI, which allows people to connect with IoT and acquire surrounding data immediately, in order to interact with the smart packages.
Delivery Circulation
Logistic Plaza
tio
n0
01
Delivery Plaza
The station serves as a decentralized logistics node and also an public space for people to gather and experience the new technology of delivering process.
Sta
tio
De
Sta ry N
4
Delivering System
tio
live
n0
n0
3
etw
ork
Dynamic Screen
The vertical storage station can be viewed as a dynamic digital facade, packages can move vertically by mobile robots to acquire the dynamic entertaining effects.
Screen type Station
Inerative Screen
The systematic delivery network expands in the whole city, in order to deliver and deposit packages at any decentralized node and maximize the serving area.
HoloScape A Digital Cityscape that integrates hologram with city model “Holographic Cityscape” incorporates holograms into cityscape model, offering a brand new experience of viewing the microscape with realtime data and events happened in a city. The 3D space information includes the transportation system, human activities, climate data and all GIS data collects from the city. Allowing kids and students to clearly observe the city in a interesting and easy way. In addition, the mobility of the building units allows children to freely arrange the layout. Undoubtedly, the data would react immediately after the change of the arrangement in order to provides highly interactivity. This product is design to boost the experience of studying city and architecture in early age, also for academic use in higher education of architecture and urban design.
Digital Cityscape
Holo Scape
Current Weather
8°
RealFeel 5° RealFeel Shade 9°
Some sunshine giving way to clouds; good weather for putting up outdoor decorations
A holograhic cityscape that combines 3D-printed cityscape with holograms, creating a new viewing experience of urban space. By implementing datas, activities, scenes and animes, creating a new viewing experience of urbn space Combining 3D-printed cityscape with holograms, creating a new viewing experience of urbn space Combin-
Accident 246 Spring St, New York, NY 10013 09:32
Events
race day bib pickup NYRR Frosty 5K and RNYRR at the NYRR Frosty 5K
× AR app
× Hololens
Cityscape
MR Track Racing From realworld track racing to immersive race experiencing Track 1.0 - for Racing In 2018, we start the 4wd tracks building team to design and build up racing tracks with cardboards for mini4wd race.
Track 1.0 / 2019
Track 2.0 - for Robot / AI experiment
In this year, we started to work on a new project with SYE. Ltd. to build up a track system for the tracking robots. Which offers tracking robot design teams a brand new environment to test
Track 2.0 - for tracking robots / 2021
Track 3.0 - for Immersive Experience In the future, we hope to integrate tracks with virtual reality and hologram. We would like to design series of track “toys” which could be placed in the virtual environment. By doing so, players can put the tracks designed on their own in diverse virtual scenes such as cities, natural environments, and gain immersive experiences from the products.
Track 3.0 - Virtual Tracks / planning
“Holographic Cityscape” incorporates holograms into cityscape model, offering a brand new experience of viewing the microscape with realtime data and events happened in a city. The 3D space information includes the transportation system, human activities, climate data and all GIS data collects from the city. Allowing kids and students to clearly observe the city in a interesting and easy way. In addition, the mobility of the building units allows children to freely arrange the layout. Undoubtedly, the data would react immediately after the change of the
Design portfolio
JL Design Taipei, Taiwan
jeff10842@gmail.com +886-933-003-106
