change the game in energy! springboard to global success ... · executive in residence aalto...
TRANSCRIPT
Change the game in
energy!
Smart Otaniemi as a
springboard to global
success introducing
Aalto Energy Platform
Wooden Vertical Farms Tatu KoljonenExecutive in Residence
Aalto University
Content
• Aalto university: Creating Game Changers• Top people
• Top research
• Entrepreneurship and ecosystems
• Uniquely collaborative campus
• Arts, creativity and design as renewers of the society
• Smart Otaniemi pilot examples
• Smart Otaniemi pilot phase 4
• Ecosystem example: Energy Platform, Samuel Cross
• Consept example: Wooden Vertical Farms, Panu Miettinen
2
Let’s re-discover energy
Global challengesDecarbonization
of societies
Climate-neutral
energy systems
Investors
World-class
knowledge and
competence
Citizens and
communities
Assets
Engaged local
and global
companies
Phasing out fossils in energy
New research problems
Investments
Systemic solutions and
joint offering
Global
networks
Co-creation
models with
winning
diversity
City as a
platform
Data sharing
platforms
End-to-end
piloting
capabilities
Regulatory
sandbox
Energy transition will be a story of systemic changes that need to be tested in real environment
Prototypes and references
Scalable breakthrough
innovations
Sustainable
energy infra
New business models
Smart Otaniemi offers a springboard for global winners
R&D efficiency
Fast lane to wider
markets
New revenues and
business opportunities
World-changing
solutions
Launchpad for top
excellence
World-changing
solutions
Talent attraction and
retention
Ecosystem with
winning diversity
Possibility to collect
and analyse data
Gateway to singular
and impactful co-
creation models
Interaction and
learning from each
other
Scouting for break-
through innovations
Fast lane to wider
markets
Regulatory sandbox
Local and
global
companies
Universities
and RTO’s
Test bed and
living labs
Networking
partners
Financers
and Enablers
Platforms, connectivity and
enabling technologies• Data sharing and analytics
• Connectivity
• Cybersecurity
• AI and blockchains
• Modelling and simulation
Building level intelligence• Smart buildings
• Energy efficiency
• Heating and cooling
Local flexibility• Demand response and virtual power
plants
• Maintenance and operations
• Storages
Enabling
Technologies
Smart mobility• Charging of vehicles
• Autonomous transportation
• Transportation system
Liv
ing
lab
an
d c
itizen
en
gan
gem
en
t
Platforms and
connectivity
Aggregator
business pilot
Underground
thermal energy
storage
Smart EV charging
Building
level
intelligence
Local
flexibility
market
Sec
tor
co
up
lin
gan
d s
yste
min
teg
rati
on
5
Energy related services, business cases
Enabling technologies, platforms & connectivity
How to build sustainable, reliable and affordable
smart energy system in local context?Focus areas of Smart Otaniemi
World’s most silent
refuse collection
Novel integration
of prosumers and
hybrid energy
systems
A Novel Marketplace
for Energy Flexibility
Operational
reliability in smart
energy systems
Smart EV charging
Smart
Otaniemi
platform
VPP
Visitors
Employees
Car sharing
Visitors
Logistics
E-taxis
Employees
Students
Wireless charging
Basic charging
Superfast
charging
Slow charging
DC
DC
Electric car charging can
have a significant impact
on the electric grid load
without smart charging.
1. To develop charging (slow,
normal, fast and wireless)
technologies.
2. Learn to use EV charging
stations as providers of
flexibility for the energy
market in collaboration
with the aggregator pilot.
Challenge
Goals
Pilot leader:
Marko Paakkinen
+358 40 183 0255
Open source framework for simulation of Electric Vehicle (EV) charging• Discrete simulation of EV charging in 1-sec resolution• Scalable simulation from the point of buildings and chargers• Output: power consumption profiles and ratios of successful events (charging)• Input: arrival hours, charging duration, EV parameters• Allows to upload custom data for simulation of EV charging• Possibility to model future demand response events• Initial data received from Plugit
Simulating Otaniemi example (11 kW chargers):
• 3х buildings with 2x chargers (TUAS, Fat Lizard, Kirjasto)
• 1x building with 4x chargers (Dipoli)
• 1x building with 8x chargers (Väre)
https://version.aalto.fi/gitlab/power_systems_research_group_aalto/ev_charging_sim
Software link:
Aggregated average power profile for Otaniemi
Underground thermal energy storage
New VÄRE-building at Otaniemi has 77 heat wells, which are
320 m deep. Distributed Temperature Sensing (DTS) cables
monitoring temperature in the surrounding ground have been
installed. By monitoring temperatures in the ground we will
produce guidelines for using building automation system
more efficiently.
In the second phase of piloting new services to enable
demand-response will be developed.
To learn to use heat from the ground and building
automation system as efficiently as possible to diminish
the need for purchased energy.
Challenge
Goals
Pilot leader:
Antti Säynäjoki
+358 50 364 3745
Konemiehenkortteli refurbishment: Aalto Works
9
Scenario work: The use of DLT
10
In Search for Nakamoto Moments
11
”Bitcoin is a combination of proven technologies applied in a new way. It was the
particular orchestration of three technologies (the Internet, private key
cryptography and a protocol governing incentivization) that made bitcoin creator
Satoshi Nakamoto’s idea so useful.
The result is a system for digital interactions that does not need a trusted third
party. The work of securing digital relationships is implicit — supplied by the
elegant, simple, yet robust network architecture of blockchain technology itself.”
Turn your bold ideas into real services
Smart Otaniemi – How to build a pilot?
13
Gather your local stakeholders
(eg. research, funders, 2-3 key
companies) around the same table.
Take a look at your local
conditions and assess what is
really needed in energy
transformation.
Decide focus areas that would
best support your area and
companies. We start from small
and grow from there.
Take a look at what is already available in
Otaniemi to avoid re-inventing the wheel.
Put the pilot up together with the
best forces from your local
stakeholders and Smart Otaniemi.
Re-discover energy!
1.
2.
3.
4.
5.
6.
Energy Platform
Introduction 2020
energy.aalto.fi
Image by Helén Marton
Multidisciplinary platforms at Aalto
2014
Energy Platform
Digi Platform
Living+ Platform
Health Platform
Materials Platform
Experience Platform
Entrepreneurship Platform
Aalto Sustainability Hub
2013
2016
2015
2018
2017
• Foster multidisciplinary
research & education
• Single access point to Aalto &
collaboration for external
stakeholders for the field of the
platform
• Joint vision and co-creation
• Joint study packages
Multidisciplinary platforms at Aalto
Aalto Energy Platform
Themes
• Energy meets Information
• Energy meets Materials
• Energy meets Society
For 2019, an additional theme:
• Energy meets Mobility
Community
• Over 400 energy researchers at
Aalto
• Strong corporate link with Finnish
industry
• International links with Energy
platforms at other Nordic 5 Tech
universities and at EU level
Platform Activities
Network Visibility
Access to
collaboration
Seed funding Events
Advanced Energy Project course
Student groups carry out projects for external
companies, with parallel lectures on consultancy
skills. The course expands the student experience as
follows:
• Skills: Need to introduce work/life skills into Energy
MSc education.
• Content: Fast-moving energy business sector is not
always paralleled by speed of university education
development.
• Interdisciplinarity: Multifaceted projects in course
supports Aalto aim to deliver multidisciplinarity in
research and education.
Course runs September - December
2019 partners:
We will start recruiting companies for the 2020
course in April
Upcoming events
March 25th - Energy Modelling forum series #1 (Registration open)
April 17th – Helsinki Energy Challenge Aalto launch event
April 29th - Energy Modelling forum series #2
May 20th - Energy Modelling forum series #3
June 10th – Energy Modelling forum series #4
All details at energy.aalto.fi
A new research, business and
design ecosystem of sustainable
plant production in Otaniemi
Campus
VIS - Sustainably built to last
VIS TUTL
20.2.2020
VIS – Wooden Vertical Farms
A new wood-based
construction technology -
Sustainably built to last
What is Vertical Farming and why the hype?
• Innovative, tech and data-driven way of producing
food within cities
-99% less water usage
-One m² of Vertical Farming replaces 100+ m² of farmland
• Excellent fit for the sustainability megatrend
• Climate Change Adaptation
• Market growth $1B to $7B by 2024
Need – A scalable, economical and
sustainable solution
• The consumers need to be convinced of sustainability, cleanliness etc.
• Extremely high humidity makes VF a hard case for insulation materials
• Current structural solutions are:
- Unscalable and expensive (Containers)
- Unsustainable (Steel and Concrete)
• Could there be a scalable, sustainable and economical solution?
VIS – a Wooden structural solution for
Vertical Farms
• VIS – a new construction element technology
• Combines wood & vacuum technology to achieve a scalable,
economical and effective structural solution
• A scalable solution for any vertical farm anywhere in the world
• Commercialization path will be a combination of:
1) License and sell VIS-elements as a structural solution
2) Partner up with the most innovative companies in the field
to create the best turnkey Vertical Farm in the market
Project
Milestones
• Business Finland R2B-project, funded till the end of 2020
• Pilot Wooden Vertical Farm in co-operation with Luke
(2020 summer)
• Start up a company
• Scale up: a Showcase Vertical Farm in Otaniemi
(2021)
Showcase of Carbon Negative Food
Production in Otaniemi Campus
Bringing Business and Research
Together
Research
• Sustainable Food and Plant Production
• Carbon negative vegetables production
• Algae production
(cost-effective source of edible
protein and nano-selluloce)
• Plant-made-pharmaceuticals
• Sustainable growing medium
• Wood construction in extremely humid
conditions
• Ethnography
Business
• More than 500 000 € of lettuce sold per year
• Self-sustaining business model
• Part-time jobs for students
• Capture and provide heat and balance the grid
• Data collection and analysis via machine
learning
• A platform to create and develop Future
Business Concepts (Plant-made-
Pharmaceuticals, Biomaterials, Superfoods…)
Profitability and
sustainability through
Smart Energy usage
• Fully controllable environment enables us to make better choices
• Electricity demand flexibility
• Excess heat capture and re-use in district heating
• IoT and sensors: Data is power – an iterative optimization system
Partners and Funding
Case: Floor Area 350 m²
• 1M € including materials, construction and planning phase
• 500k€ + turnover from Ota-Lettuce alone, profitable business from day 1
• A stepping stone for global Vertical Farming markets
• Partner and funding search ongoing, currently in talks with Fortum, Nohewa (heat-re-
use), YieldSystems (AI), VTT&LUKE, Signify (LED-lights), VCs…
Thank you for your attention
Contact:
Research Group Lauri Rautkari:
[email protected] (maternity leave)
Innovation Services:
www.aalto.fi/vis
Keep an eye out for the next Aalto Magazine (April)!