CPH 2025 CLIMATE PLAN. Lykke Leonardsen Program director
|
|
|
- Lauren Edwards
- 5 years ago
- Views:
Transcription
1 CPH 2025 Lykke Leonardsen Program director
2 GLOBALE TEMPERATURE
3 CITIES ROLE
4 S Developed in in Roadmap Overall The first plan Climate for a Plan CO 2 - in neutral Copenhagen Copenhagen Second implementation period First Reducing implementation CO 2 emissions period with % in comparison to 2005 COP15 in Copenhagen Vision of CO 2 -neutrality in 2025
5 ROADMAP FOUR PILLARS ENERGY CONSUMPTION ENERGY PRODUCTION 7 % 80 % 8 % 5 % GREEN MOBILITY CITY ADMINISTRATION
6 ROADMAP INITIATIVES
7 ROADMAP ENERGY CONSUMPTION
8 ENERGY CONSUMPTION SAVE ENERGY AND CO2 LOW ENERGY CONSUMPTION
9 ENERGY CONSUMPTION GOALS MAJOR GOALS FOR pct. Reduction in heat consumption 20 pct. Reduction of electricity consumption in commercial and service companies 10 pct. Reduction of electricity consumption in households Installation of solar panels corresponding to 1% of electricity consumption in 2025
10 COPENHAGEN CLIMATE PROJECTS ENERGY LEAP Purpose Reduce energy consumption in buildings Establish partnership with building owners, developers and organizations Actions Network, knowledge sharing, workshops, communication and target setting Focus on active energy management and retrofitting of building Results 29 partners 10 pct of the building stock in Copenhagen 3 pct reduction in energy consumption in partners before 2020 / 17 pct of the building stock
11 COPENHAGEN CLIMATE PROJECTS ENERGYLAB NORDHAVN Purpose Develop and test the future energy system in the new development of Nordhavn Focus on flexibility and efficiency Actions Bring together researchers, utilities, urban developers and private companies 13 partners and 25 mio. Euro Collect energy data from consumers and production Test solutions and employ technologies in new buildings Results EnergyLab Nordhavn will collect consumer data in projects concerning urban will be planned and executed
12 Showroom and visualisation Integrated markets and control centers Flexibility from heat and cooling grids Power grid operation Storage flexibility Smart charging infrastructure Smart network services Measurements and data warehouse ENERGYLAB NORDHAVN Flexible buildings and users
13 hotos: By & Havn, ABB, DTU 13
14 COMING PROJECTS SOUTH HARBOUR A living lab in the existing building stock What One of the cities highest heat and water consumption Demonstrate new solutions for energy efficiency and flexibility Goals Create an urban area for companies to test and demonstrate their solutions in 1:1 lab Reduce the energy consumption
15 COMING PROJECTS NEW BUSINESS MODEL FOR ENERGY RETROFITTING Purpose Increase the amount of private investments in energy retrofitting Raise the quality and comfort of the buildings with the worst building envelope Actions Identify buildings with most potential through Energy Labels Create a new business model between energy consultants, banks and building associations. Engage the private market
16 ENERGY PRODUCTION CO 2 -NEUTRAL BY 2025 SUSTAINABLE SUPPLY
17 ENERGY PRODUCTION GOALS GOALS FOR 2025 District heating in Copenhagen is carbon neutral Electricity production is based on wind and biomass and exceeds total electricity consumption Plastic waste from households and business is separated Biogasification of organic waste
18 THE ENERGY SYSTEM AN OVERVIEW MAIN FOCUS Wind turbines Solar panels District heating Sustainable biomass Cooling with seawater Town gas Biogas Electric cars Electric and gaspowered busses Collecting plastic
19 THE ENERGY SYSTEM DISTRICT HEATING 18 municipalities 4 integrated DH systems 34,500 TJ (9,600 GWh) Approx 20 % of heat demand in Denmark Copenhagen since % of all heat consumption from district heating
20 ONGOING PROJECTS ENERGY EFFICIENT DISTRICT HEATING Purpose Convert the steam district heating network to a water-based network A fifth of the total heat requirement in HOFORs supply area is distributed as steam. Actions Replacing the old steam heating plants with efficient district heating systems Replacing more than 100 km pipes in order for them to transport water instead of steam Results Reduce heat loss by 140 GWh Operation and maintenance is ten times smaller for water based installations than steam
21 ONGOING PROJECTS SEAWATER FOR DISTRICT COOLING Purpose Reduce CO 2 emissions from district cooling Actions Using seawater as primary cooling resource Cooling plants distribute seawater to customers in insulated pipes Results Estimated saving potential of 150 MW from businesses in the city centre HOFOR has already signed contracts for 42 MW
22 CITY ADMINISTRATION INITIATIVES A GOOD EXAMPLE
23 COPENHAGEN CLIMATE PROJECTS RENEWING THE STREET LIGHTS Purpose Reduce energy consumption from street lights Actions Replace street lights with LED new lighting poles Results Deliver 57 % energy savings Basically maintenance free for 25 years Short payback time
24 COPENHAGEN CLIMATE PROJECTS ENERGY SURVEILLANCE IN PUBLIC BUILDINGS Purpose Reduce the energy consumption within the public buildings Actions Establish a central energy surveillance of the entire municipal property portfolio Collecting data from heat, water, and electricity meters on an hourly basis Implement energy efficient solutions with a short payback time Results ~ 10 % reduction in energy consumption Potential for more energy savings Average payback time on 6 years
25 COPENHAGEN CLIMATE PROJECTS ENERGY SURVEILLANCE IN PUBLIC BUILDINGS
26 OUR EXPERIENCE Generate, analyze and understand energy data Saving potential in optimizing the operation of the energy systems Facilitate spaces for private and public innovation Create partnerships with different stakeholders