Deep decarbonisation of cities essential for key climate targets

Deep decarbonisation of cities essential for key climate targets

Implementation of existing technology for buildings, transport, and sector integration can bridge half the gap in the urban GHG emissions reductions needed for a 1.5°C pathway.

Cities account for 70 per cent of global carbon emissions. Ultimately, the battle against climate change will be won – or lost – in cities.

Action is needed urgently to make the changes necessary to enable large-scale decarbonisation. To address this challenge directly, Danfoss is today releasing a new whitepaper which sets out a clear, achievable pathway forward to enabling a green transition on a large scale. The paper shows how existing energy efficiency and electrification measures across sectors can immediately reduce emissions and accelerate a green transition in cities.

Commenting on the launch of the whitepaper, Kim Fausing, President and CEO, Danfoss, said: “We will not reach the goals of the Paris Agreement without a deep decarbonisation of cities. The good news is that cities offer some of the best possibilities to optimise urban planning and accelerate a green transition, and there are already accessible, cost-efficient technologies out there capable of cutting emissions sufficiently to meet global climate goals. These technologies are already in use every day – for instance in the city of Sønderborg in Southern Denmark (Project Zero), but they must be adopted more widely on a global scale now.”

As the world’s population continues its surge towards 10 billion people by 2050, it is now expected that almost 70 per cent of the world’s inhabitants will be city dwellers by this date. In their current form, with energy demand continuing to grow, cities would produce a wholly unsustainable level of emissions that would be completely incompatible with key climate targets, such as the 1.5°C target set out by the 2015 Paris Agreement.

The whitepaper, ‘Roadmap for decarbonizing cities’, draws upon a diverse range of verified sources, including the latest data from the International Energy Agency (IEA), to demonstrate why action is needed. The whitepaper also shows how that action can be taken, and highlights how the solutions that will enable this are already available.

Key takeaways:

  • Energy efficiency in cities is essential for global decarbonisation. If all urban areas and cities in Europe, the US, and China invested in energy-efficient heating and cooling of buildings, this would contribute 20 per cent to the 1.5°C target of the Paris Agreement.
  • Electrification of vehicles will play a large role. Electrification of urban transport, both private (light) and public (heavy), is crucial for successful climate targets. 28 per cent of the decarbonisation necessary to stay within the 1.5°C target of the Paris Agreement would be achieved if all urban areas in Europe, the US, and China electrified private and public transport.
  • Improved efficiency can accelerate the electrification of transport. Both in passenger cars, heavy-duty vehicles, and in marine transport, efficiency measures can reduce the size of the batteries needed thus limiting the raw material requirements. Increasing efficiency can also bring down the demand for charging infrastructure and increase the productivity and range of the vehicle.
  • Implementation of existing technology for buildings, transport, and sector integration can bridge half the gap in the urban GHG emissions reductions needed for a 1.5°C pathway.

The whitepaper analysis provides a concrete roadmap for mayors, local decisionmakers, and urban planners on how to eliminate all major drivers of the carbon footprint of cities. The paper also explores how available technologies can improve the livelihoods of citizens while at the same time making our economies more resilient and creating jobs. Ultimately, it offers a holistic and concrete view of the major opportunities for decarbonizing cities.

Full whitepaper available here: ‘Roadmap for decarbonizing cities’.

About Danfoss A/S

Danfoss engineers solutions that increase machine productivity, reduce emissions, lower energy consumption, and enable electrification. Our solutions are used in such areas as refrigeration, air conditioning, heating, power conversion, motor control, industrial machinery, automotive, marine, and off- and on-highway equipment. We also provide solutions for renewable energy, such as solar and wind power, as well as district-energy infrastructure for cities. Our innovative engineering dates back to 1933. Danfoss is family-owned, employing more than 42,000 people, serving customers in more than 100 countries through a global footprint of 95 factories.


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