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Nordic Clean Energy Scenarios

The project Nordic Clean Energy Scenarios aims at identifying technological solutions to a fully carbon-neutral Nordic region. It further aims at developing energy scenarios for the Nordic energy sector enabling the Nordic commitment to reach carbon neutrality.

Collaborating on finding the right solutions

NCES2020 brings together nine teams from four Nordic countries, with complementing modelling and analytical skills. Combined with the use of open-access energy system models and data, this strengthens Nordic cooperation and expertise in energy modelling.

The path to neutrality

If you are curious to know more about the results, you can find the five solution tracks here. You can also listen to the podcast, read the full report, or dive straight into the results data.

Building DK-BioRes

MODELLING
Energy Modelling Lab has developed an open-source energy model for the Nordic region (ON-TIMES).

The model covers Norway, Sweden, Denmark, Finland and Iceland.

SCENARIO ANALYSIS
The model is used to identify paths to a fully carbon-neutral Nordic region.

Find the scenario results here.

REPORT
The results are collected in the Nordic Clean Energy Scenarios report.

Duration: March 2020 – April 2021.

Project: Nordic Clean Energy Scenarios

EML Team: Kenneth Karlsson

Client: Nordic Energy Research

Budget: NOK 320.000

Reference: Kevin Johnsen, COO, Nordic Energy Research

Model: Open Nordic TIMES model (ON-TIMES)

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A new educational platform KAOS

Educating the future generation on how to tackle the climate crisis is essential.

Energy Modelling Lab has developed a new educational platform KAOS, containing exercises within Mathematics, Social science, Geography, and Physics.

The platform focuses on climate change and energy system modelling and provides the students with the challenging task within Energy systems and planning, Carbon budgets, agriculture scenarios, and more.

Try it out: kaos.world

Duration: June – April 2021

Team: Kenneth Karlsson and Alexandra O’Sullivan Freltoft

Collaborators: Jette Hagesen from Envice

Client: Børne- og Undervisningsministeriet

Web platform: kaos.world

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Reducing air pollution saves billions of kroner

When discussing how expensive the green transition becomes for the Danish society, it is important to consider more aspects than only the investments needed.

Our results show that when looking solely on the saved health costs from the reduction in air pollution, the society can save 10 to 20 billion Danish kroner per year.

Several Danish studies estimates the cost of the transition to be approximately 13 to 26 billion Danish kroner a year from 2025 to the year when the transition is complete. These costs often do not include the savings for the society in terms of, e.g., less air pollution.

Read the full analysis (Danish):

Husk helbredsomkostningerneDownload

EML Team: Kenneth Karlsson and Ida Græsted

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Energy planning in Ukraine

The main objective of the project is to support Ukraine in planning for its future green energy system.

The project is part of a partnership program between Ukraine and Denmark, to achieve the goals of the Energy Strategy of Ukraine for 2050.

Building DK-BioRes

MODELLING
Improving and updating the Energy System Model for Ukraine (TIMES-Ukraine), to contain the newest trends and technologies.

SCENARIO ANALYSIS
The model is used for long-term energy systems and climate policy planning.

REPORT
Supporting the development of the Action Plan, showing the road towards national greenhouse gas reductions in Ukraine.

Duration: September 2020 – April 2021

Program: Ukraine-Denmark Energy Partnership Program (UDEPP)

EML Team: Mikkel Bosack Simonsen, Kenneth Karlsson

Client: The Ministry of Environmental Protection and Natural Resources in Ukraine

Donor: Danish Energy Agency

Budget: DKK 382.050

Reference: Mourad Boucenna

Model: TIMES-Ukraine

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Zero Energy Buildings in Korea

The Korea New Green Deal highlights that a total of $15.3 billion is invested, in Zero Energy Public Buildings by 2025. The focus on Zero Energy Buildings has a specific target on schools including remodeling old school buildings. The aim is to make them energy-efficient and run on solar power.

In this study, the Energy Modeling Lab analyses the impacts of changing the energy supply in South Korea’s school buildings. The three focus areas are greenhouse gasses, air pollution and health, and economic consequences.

Implementation date: March 2021 – May 2021

Contact person: Till ben Brahim