Integrating energy systems across electricity, heating and cooling, gas, transportation and water increases the flexibility of the overall energy system
Integrating renewable energy in an energy system requires a strong transmission grid that can cope with fluctuations from e.g. sun and wind energy. Integrating energy systems across electricity, heating and cooling, gas, transportation and water is an effective approach. It increases the flexibility of the overall energy system and helps balance the fluctuations of renewable energy sources in a financially viable way. The Danish energy system has been – and is being – developed based on this approach, delivering a fully reliable energy system with the highest security of supply in Europe.
We invite you to explore solutions related to integrated energy systems in more depth below, find potential partners, catch up on the latest news and discover real-life case examples of how integrated energy systems can help solve your energy issues.
Connect with us: Maja Østergaard, Project Manager, [email protected]
This project demonstrates how smart cities are built on smart solutions that promote synergies between district heating, district cooling, waste water, ground water and power while benefiting the local community.
District Energy holds a vast potential for energy efficiency in urban areas. This White Paper highlights the key elements for success in district heating and cooling. It covers aspects from regulation and planning, efficient production of thermal energy, to storage, distribution and end user solutions.
Utilising linkages between sectors to best use renewable energy has a huge potential in the reduction of CO2 emissions. Digitised and energy efficient consumption, electrification and a comprehensive renewable energy system are all variables in the quest for huge CO2 reductions.
Orbitals TMC3 wind turbine controller is a great fit for new turbine installations and retrofit projects. More than 1,300 TMC3 wind turbine controllers operate small and medium sized wind turbine all over the world.
A test model of a new type of energy storage has been inaugurated at DTU Risoe, Denmark. The innovative technology has a large potential for storing wind and solar energy. NIRAS consulted on the model’s design.
Energy storage is an important part of the energy transition. “Whitebook Energy storage technologies in a Danish and international perspective” aims to inform about the status, needs and perspectives for energy storage technologies, and sets out milestones to guide decision makers, industry and research communities on how to trigger storage as an instrument to achieve the climate goals.
Aalborg CSP landed an order to deliver a 2.6 MWth solar-thermal plant in Denmark. With the system in Egedal, Aalborg CSP continues its series of new projects based on customized solutions with solar and storage supporting a competitive transition to renewable energy.
Aalborg CSP has received the largest order in terms of megawatt power to deliver steam generator systems based on the leakage-free header-and-coil technology for three CSP plants in Dubai, each providing 200 MWe totalling 600 MWe for the largest CSP project in the world. When completed, the solar park will provide clean energy to more than 270,000 residences in Dubai, while reducing the carbon emissions by 1.4 million tonnes per year.
Flat solar-thermal collectors matching the client’s energy needs Aalborg CSP received an order from the combined heat and power plant Smørum Kraftvarmeværk A.m.b.A. to deliver an 8MWth solar heating plant that will reduce the facility’s natural gas dependency as well as stabilize energy prices. The 11,312 m2 solar field, which is located in the town of Smørum, […]
In order to use heat pumps as an asset in the future electric system, there is a current need to develop common international communication standards. This is to ensure that all heat pumps on the market ‘speaks the same language’, meaning that they can be connected and aggregated. Data communication technology at focus HPCOM turns […]
In a future where energy comes from renewable energy sources, we need to be able to control the electricity consumption, taking into account the fluctuating electricity production. Here, it is an advantage that consumers can actively turn down their electricity consumption or move it to periods when more electricity is produced. Remote controlling of heat […]
The number of large cities continues to rise across the globe. In the future, such densely populated and heavily trafficked cities will become increasingly challenged on the energy and environmental front, especially in relation to the supply and consumption of energy, as well as the pollution caused by e.g. the transport sector. Demonstration of Smart Cities in Europe The […]
In this paper, you will meet the ten partners behind the Tours Network and find inspiration for site visits across energy efficiency, renewables, waste and resource management, clean air, water and climate adaptation.
If you are interested in visiting Denmark to explore these solutions and learn more about the concrete technologies, as well as connect with Danish stakeholders and share knowledge about green growth development, we encourage you to contact the Tours Network.
Buildings account for up to 40% of society’s energy demand and thereby play a key role in the green transition. This White Paper can be used as a tool for inspiration to spot the potential or implement building automation and energy-efficient measures in new and existing buildings globally.
The Danish Energy Model has shown that it is possible to sustain economic growth and a high standard of living while reducing fossil fuel dependency and mitigating climate change. This has been achieved through persistent and active energy policy with ambitious renewable energy goals. The foundation of the low-carbon transition is threefold: energy efficiency, renewable energy […]
Danish Solar Energy Ltd. has always taken initiative in being innovative in the solar-industry. We are always looking for new partners, who we can develop new sustainable products and/or projects with. We have a lot of expertise within complete stand-alone systems and grid-connected solutions. We are also looking for distributors for our complete systems suited […]
This Sino-Danish project deals with research, development and demonstration of a full-scale microgrid. The work will be carried out by two highly rated Universities, Aalborg University (Denmark) and Tsinghua University (China), in cooperation with Kamstrup, leader of smartmeters and smargrid ready components in Denmark and the company Shanghai Solar Energy Science & Technology Co. Ltd, […]
Three Danish cities at the forefront of implementing sustainable urbanisation “Green Urban Denmark” is a publication jointly prepared by the Danish Energy Agency (DEA), the municipalities of Copenhagen, Aarhus and Sonderborg and the Danish Ministry of Housing, Urban and Rural Affairs. It highlights how Copenhagen, Aarhus and Sonderborg have developed and implemented green urbanization and […]
Learn from Danish success stories by downloading the Energy Policy Toolkit on Energy Efficiency in Industries Industrial energy efficiency is a clear-cut strategic topic, yet still resides in the periphery of governmental energy strategies. A shift of mind is required, away from words such as ‘costs’ and ‘quick fixes’ and towards a vocabulary of long-term […]
Do something about the energy resources As the world’s population grows and emerging economies expands rapidly, global demand and competition for energy are set to intensify in the decades to come. This will probably drive up prices of the world’s finite oil and other fossil fuel resources. Our energy resources are concentrated largely in a […]
iPower is a strategic platform where universities and industrial partners consolidates innovation and research activities for the purpose of developing intelligent control of decentralized power consumption. It is an ongoing task in iPower to produce the right tools to manage millions of flexible consumption units, as well as to uncover methods of operation in search […]
This policy toolkit presents lessons learned in Danmark on the physical planning of wind turbines. Key points Choosing the optimal locations for wind turbines should be based on a carefully designed and informed planning process that takes economic, environmental and public considerations into account. Wind resource assessments are fundamental to estimate the wind power production […]
During 2008 and 2009 more than 75 leading Danish energy specialists analyzed the areas’ opportunities and challenges and created the ProjectZero 2029 masterplan, concluding that Sonderborg can achieve ZEROcarbon by 2029. Key issues: Massive focus on smart use of energy. Lowering consumption by energy efficiency improvement is estimated to reduce energy consumption by 40% compared […]
System Integration of Wind Power – Experiences from Denmark Integration of variable renewables into the grid is sometimes and misleadingly presented as an invincible task. The Danish case proves this wrong with around 30% wind in the power supply – planning for 50% in 2020. Long-term planning In Denmark, long-term planning has ensured timely and […]
The increased demand for air conditioning and cooling has led to higher electricity consumption in many cities. In our effort to provide low carbon cooling, we have built the first two district cooling networks. They are based on free cooling from seawater abstraction, along with running surplus heat from the district heating network through absorption […]
In order to ensure the country’s energy security, Denmark must be independent of fossil fuels. It is the long-term goal of the Danish Wind Industry Association. The vision for Denmark to be fossil free opens up several new possibilities. Apart from the immensely important act of responding to climatic changes due to our greenhouse gas emission, the promotion […]