Presentation is loading. Please wait.

Presentation is loading. Please wait.

Smart Cities: Low Carbon Solutions Per Sieverts Nielsen Urban Challenge Summer School 16 August 2016.

Published byMarylou Bennett Modified over 8 years ago

Similar presentations

Presentation on theme: "Smart Cities: Low Carbon Solutions Per Sieverts Nielsen Urban Challenge Summer School 16 August 2016."— Presentation transcript:

1 Smart Cities: Low Carbon Solutions Per Sieverts Nielsen Urban Challenge Summer School 16 August 2016

2 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Content Introduction Danish renewable energy sources Copenhagen Climate Plan 2025 Aspects of the energy system at Nordhavnen 2 23 September 201623 September 201623 September 2016

3 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” EU climate targets 3 23 September 201623 September 201623 September 2016

4 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Danish national energy plan 4 23 September 201623 September 201623 September 2016

5 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” CITIES is a research centre, which aims at integrating smart ICT solutions and low carbon solutions in all aspects of the energy system. CITIES: Centre for IT Intelligent Energy Solution in Cities

6 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Development in Danish energy consumption 6 23 September 201623 September 201623 September 2016 http://www.ens.dk/en/info/news-danish-energy-agency/renewables-cover-more-half-electricity-consumption

7 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Supply Solutions – Renewable energy sources Power from wind Power from solar PV Heat from solar thermal Heat and power from Biomass Etc.

8 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Wind and biomass in the Danish energy system 8 23 September 201623 September 201623 September 2016 http://www.energinet.dk/EN/KLIMA-OG- MILJOE/Miljoerapportering/Elproduktion-i- Danmark/Sider/Elproduktion-i-Danmark.aspx http://ing.dk/artikel/vi-importerer-traepiller-i- tonsvis-og-lader-halmen-radne-pa-markerne- 105947

9 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Solar PV in Denmark 9 23 September 201623 September 201623 September 2016 Solar PV systems in DKSolar influx in Denmark

10 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Wind in Denmark 10 23 September 201623 September 201623 September 2016 Wind resources in Denmark

11 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Biomass resources in Denmark 11 23 September 201623 September 201623 September 2016 Production of manure in Denmark Straw surplus in Denmark

12 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Bioenergy in Denmark 12 23 September 201623 September 201623 September 2016 Cooperativre plants Farm biogas plants Industrial plants Landfill plants Waste water treatment plants Tonnes of woodpellets per year

13 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” 13 Power production – Import/Export

14 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Electricity production (green) and electricity consumption (grey) 14 23 September 201623 September 201623 September 2016

15 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” The changes in the Danish power system 15 23 September 201623 September 201623 September 2016 Energinet.dk (presentation by Henning Parbo at Cambridge University, 2014)

16 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Change towards smart netvorks or decentral solutions From centralised to decentralised production

17 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” District heating in Danmark 17 23 September, 201623 September, 201623 September, 2016 http://www.fjernvarme.info/Udbredelse-i-DK.261.aspx

18 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” District heating in Greater Copenhagen 18 23 September, 201623 September, 201623 September, 2016 http://www.hofor.dk/fjernvarme/hvor-kommer-fjernvarmen-fra/

19 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Urbanisation In 2014, the urban population accounted for 54% of the total global population, up from 34% in 1960. The expectation is that the urban population will be increasing 1.84% per year between 2015 and 2020, 1.63% per year between 2020 and 2025, and 1.44% per year between 2025 and 2030. Copenhagen is modest at a current growth rate of 0.2% goes up with 1200 people per year. C40 points out that while cities only occupy about 2% of the world’s landmass, they account for more than two thirds of global energy consumption and more than 70% of global CO2-emissions. 19 23 September 201623 September 201623 September 2016

20 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” More copenhageners - less carbon emissions

21 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Copenhagen climate targets and green growth Broad political consensus on climate plan to make Copenhagen Carbon Neutral by 2025 Growth and climate action are each others prerequisites Focus on growth, employment and new technology Enforcing the Danish cleantech sector

22 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” How to achieve Carbon Neutrality? >Wide range of activities and areas of focus integrated into budget >Energy production as key area providing 2/3 of the planned >Innovation and Demonstration Projects >Partnerships with businesses and universities >North Harbour as test case

23 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” CO2 reduction in Copenhagen

24 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Copenhagen – a green growth role model –A political level that takes the lead –Cyclists –High share of renewable energy –Clean water in the harbour –District heating + cooling –Integrated public transport

25 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Copenhagen cooperates with many stakeholders

26 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Definition of Smart City Copenhagen had a cross department process in 2013 for deciding their definition of Smart Cities Use of data Use of new technologies/using old technologies in new ways Efficient use of resources New ways to involve citizens and stakeholders Innovation or technology-based growth Public-private partnerships Solve more than one problem at a time. 26 23 September 201623 September 201623 September 2016 Else Kloppenborg et al, 2015: Transformation agenda for Copenhagen (D2.2)

27 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Alternative definition of Smart City A SMART CITY – is a city that thinks about how it works: A city that is adapting to current and future challenges and demands A city that learns to handle for changing demographics A city that creates an attractive place to live and work A city that makes intelligent, efficient and sustainable use of natural resources A city that decides on and controls the necessary public infrastructure A city that can work with private expertise and excellence in efficient sustainable service provision A city that can make use of private companies to implement innovate solutions for the challenges ahead A city that is able to deliver in a low carbon economy 27 23 September 201623 September 201623 September 2016

28 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Data & ICT The idea in Copenhagen is to apply the means of data & ICT to a few areas first: Climate, energy, mobility, citizen services and, cross-cutting these themes while allowing for yet others: innovation and growth. More areas may be added before the strategy is adopted. The focus has shifted from a very open approach with an emphasis on the use of technology, data & ICT in particular, to a more goal-oriented approach in which the areas that should be supported are named (e.g. climate, energy, mobility etc.). This outlined shift reflects a typical result of coordination across the City Administration. And the outcome of this process has increasingly evolved into a more comprehensive smart city understanding. 28 23 September 201623 September 201623 September 2016

29 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Background and Status of CPH 2015 Copenhagen City’s ambition to become the world’s first carbon neutral capital by 2025. The current status (as of 2014) is that overall the City is well on track. The current climate plan: CPH 2025 commits the City Council to allocate resources on a continued basis to reach the goal. A total of 2.7 billion DKK (€ 363 million) public money was agreed for the entire period of CPH 2025, that is, from 2012 to 2025. Second, the roadmap for CPH 2025 includes 65 specific projects, and it includes budgets, time-horizons and desired impact. It makes the climate plan tangible to stakeholders, citizens and observers more generally. 29 23 September 201623 September 201623 September 2016

30 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” CPH 2025 – contributions for CO2 reductions Energy consumption – 7% of the total CO2-reductions in CPH 2025 Energy production – 74% Green Mobility – 11% The City Administration’s own climate initiatives – 2%, and New Initiatives – 6% 30 23 September 201623 September 201623 September 2016

31 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” CO2 emissions 2005 - 2025 Without initiatives from CPH 2025 31 23 September 201623 September 201623 September 2016

32 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Relative share of CO2 emission reduction 32 23 September 201623 September 201623 September 2016

33 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” CO2-reductions from energy production (74% share of CO2 emission reduction) 33 23 September 201623 September 201623 September 2016

34 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” CO2-reductions as a result of initiatives in CPH 2025 34 23 September 201623 September 201623 September 2016

35 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” HOFOR Energy Production in CPH 2025 – accounts for 74% of the planned CO2- reductions. It is therefore very important that HOFOR, the City-owned utility company, supports CPH 2025. HOFOR supports CPH 2025 in a number of ways: The primary strategic action is to substitute fossil fuels with biomass (wood chips) at Amagerværket, the Combined Heat and Power (CHP) Plant, which was purchased by HOFOR in January 2014. Secondly, HOFOR establishes wind farms primarily outside the City that will result in a surplus production of RES relative to the total energy consumption in Copenhagen. This wind power may serve not only to cover energy consumption in the city but also to compensate CO2 emissions from fossil-fuel based traffic in Copenhagen. Moreover, HOFOR creates energy savings in the district heating grids, facilitates energy savings at end-user level, and invests in climate change adaptation (e.g. rainwater management). 35 23 September 201623 September 201623 September 2016

36 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” 23. september 201636

37 23. september 201637

38 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer”

39 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Station-proximity planning; city area based on terms of cyclists and pedestrians 600.00 m2 in the years 2011-2030 Landowner: CPH City & Port Development 40,000 inhabitants A green cruise terminal 40,000 jobs Plan Basis in place in 2011, developed up to 2050. North Harbour – Building for the future

40 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer”

41 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Mobility: the 5 minute city

42 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Energy partnership: Nordhavn

43 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Principles for energy supply in North Harbour Basic supply ensures partial sustainability District Heating District Cooling CO2 neutral power from wind turbines (not located in the North Harbour) according to the Copenhagen climate plan Demonstration Initiatives that create value and Green Growth Geothermal Smart Grid integrated with heat production Land Power for shipping industry

44 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” District heating Solar heating Heat storage Geo thermal Smart grid Power plant Wind power Solar power Electric cooling Groundwater cooling Cooling storage Seawater cooling Current Short term Long term

45 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Concrete Smart City examples/options Energy system integration Real-time data Service architechture Digital masterplanning – cobled to the physical structure The smart building XXX – there are several sectors which can be smart

46 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Technical solutions Smart Energy Smart house Street lights On land electricity supply for cruise ships Electric cars Lowtemperature district heating District cooling Heat storage Geothermal

47 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” Battery in the Nordhavnen 47 23 September 201623 September 201623 September 2016 ABB/DONG. Power: 650 kW, Energy 650 KWh

48 DTU Management Engineering, Technical University of Denmark Add Presentation Title in Footer via ”Insert”; ”Header & Footer” 23. september 201648

Download ppt "Smart Cities: Low Carbon Solutions Per Sieverts Nielsen Urban Challenge Summer School 16 August 2016."

Similar presentations

Grenada Sustainable Energy Plan Stakeholders Meeting April 5, 2002.

Grenada Sustainable Energy Plan Stakeholders Meeting April 5, 2002.
Research and Innovation Research and Innovation Enabling & Industrial Technologies in Horizon 2020 Enabling & Industrial Technologies in Horizon 2020 Research.

Research and Innovation Research and Innovation Enabling & Industrial Technologies in Horizon 2020 Enabling & Industrial Technologies in Horizon 2020 Research.
Energy Efficiency Strategy. THE ENERGY WHITE PAPER Energy White Paper sets out four key goals for energy policy to: Cut the UK’s carbon dioxide emission.

Energy Efficiency Strategy. THE ENERGY WHITE PAPER Energy White Paper sets out four key goals for energy policy to: Cut the UK’s carbon dioxide emission.
Chemical Industry Value Chain Partnership for growth

Chemical Industry Value Chain Partnership for growth
11 Energy Policy in Denmark MONGOLIAN ENERGY DELEGATION 9 September 2013 Danish Energy Agency.

11 Energy Policy in Denmark MONGOLIAN ENERGY DELEGATION 9 September 2013 Danish Energy Agency.
DG REGIO – Unit Thematic Development EUROPEAN COMMISSION DG REGIO EUROPEAN COMMISSION ‘Bioenergy’ in Cohesion Policy Beth Masterson & Mathieu Fichter.

DG REGIO – Unit "Thematic Development" EUROPEAN COMMISSION DG REGIO EUROPEAN COMMISSION ‘Bioenergy’ in Cohesion Policy Beth Masterson & Mathieu Fichter.
Renewable Energies and Climate Protection Policy in Freiburg Dr. Dieter Wörner Director, Environmental Protection Agency City of Freiburg - Germany.

Renewable Energies and Climate Protection Policy in Freiburg Dr. Dieter Wörner Director, Environmental Protection Agency City of Freiburg - Germany.
COPYRIGHT © 2014 MITSUBISHI ELECTRIC EUROPE B.V. ALL RIGHTS RESERVED.

COPYRIGHT © 2014 MITSUBISHI ELECTRIC EUROPE B.V. ALL RIGHTS RESERVED.
Zero Emissions by 2025 - How Copenhagen Became Eco-Metropolis?”

Zero Emissions by How Copenhagen Became Eco-Metropolis?”
© Fraunhofer ISE 2015 Headquarter of Fraunhofer ISE, Freiburg, Germany The Leading Role of Cities: The Frankfurt Energy Scenario Gerhard Stryi-Hipp Coordinator.

© Fraunhofer ISE 2015 Headquarter of Fraunhofer ISE, Freiburg, Germany The Leading Role of Cities: The Frankfurt Energy Scenario Gerhard Stryi-Hipp Coordinator.
1 5.2 Low-energy strategies for the European Union Katharina Koch Manuela Steiner Barbara Unterrainer.

1 5.2 Low-energy strategies for the European Union Katharina Koch Manuela Steiner Barbara Unterrainer.
North Karelia – Fossil Oil Free Region in 2030

North Karelia – Fossil Oil Free Region in 2030
1 1 CURRENT ENERGY POLICY CHALLENGES. THE 2030 ENERGY AND CLIMATE FRAMEWORK DG Energy, European Commission.

1 1 CURRENT ENERGY POLICY CHALLENGES. THE 2030 ENERGY AND CLIMATE FRAMEWORK DG Energy, European Commission.
We can stop the deadly Impact of global warming. Boon and Bane of Energy The Agenda 21: Instrument to tackle Global Issues Master Source for Driving the.

We can stop the deadly Impact of global warming. Boon and Bane of Energy The Agenda 21: Instrument to tackle Global Issues Master Source for Driving the.
5 Engineering Technology Goals in the Energy Value Chain 2 EmpowerPromoteTransformReinventRevolutionize.

5 Engineering Technology Goals in the Energy Value Chain 2 EmpowerPromoteTransformReinventRevolutionize.
The renewable energy Directive by Claude Turmes, MEP Vice-President of EUFORES Rapporteur of the RES-Directive 9th Inter-Parliamentary Meeting on Renewable.

The renewable energy Directive by Claude Turmes, MEP Vice-President of EUFORES Rapporteur of the RES-Directive 9th Inter-Parliamentary Meeting on Renewable.
Copenhagen 2025 Climate and Green Growth Putting Visions into Practice BASE London 21June London Jørgen Abildgaard Executive Climate Project Director City.

Copenhagen 2025 Climate and Green Growth Putting Visions into Practice BASE London 21June London Jørgen Abildgaard Executive Climate Project Director City.
Irish climate policy and green jobs Neil Walker Global Solidarity Summer School 2 nd September 2011.

Irish climate policy and green jobs Neil Walker Global Solidarity Summer School 2 nd September 2011.
Concito and the Danish Energy and Climate policy Susanne Krawack 24 October 2014.

Concito and the Danish Energy and Climate policy Susanne Krawack 24 October 2014.
Environment SPC 24 th June 2015 New Climate Change Strategy.

Environment SPC 24 th June 2015 New Climate Change Strategy.

Similar presentations

Ads by Google