Energy in the Netherlands describes energy and electricity production, consumption and import in the Netherlands. Electricity sector in the Netherlands is the main article of electricity in the Netherlands.
In 2020 the Netherlands was reliant on fossil fuel for energy needs, especially natural gas, however the plan is to bring renewable power up to 70% of the electricity needs of the Netherlands by 2030.
Subsidies and declining costs for renewables (primarily wind and solar) have boosted their use in the Netherlands; renewable energy provided 40% of Dutch electricity production in 2022, up from 12% in 2012 and 4% in 2002. [1]
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The Netherlands has set a target of 70% of electricity from renewable sources (mainly solar and wind power) by 2030. [3]
To reduce its greenhouse emissions, the government of the Netherlands is subsidizing a transition away from natural gas for all homes in the country by 2050. In Amsterdam, no new residential gas accounts are allowed as of July 1, 2018, and all homes in the city are expected to be converted by 2040. [4] Electric stoves are expected to replace gas stoves.
District heating is expected to replace natural gas for the heating of buildings. The Amsterdam area is already supplied to some degree with heat from waste incineration. New sources are expected to include geothermal energy, surface waters, and data centers. [5]
In the Netherlands, 78% of enterprises have invested in reducing carbon emissions and mitigating the impact of weather disasters as of 2023. Six out of ten (60%) plan to invest in these areas during the next three years. The numbers for 'already invested' and 'intend to invest' above the EU average (56% and 54%, respectively). [6]
There are typically three types of energy contracts available in the Netherlands: [7]
Borssele is the only nuclear power station in the Netherlands and produces around 4 billion kilowatt hours (kWh) per annum, around 10% of electricity used in the Netherlands. [8]
The Netherlands has two coal fired power stations, at Eemshaven and Maasvlakte. They are scheduled to close by 2030. [9]
The last of the fourteen natural gas power stations were commissioned in 2013. In 2020, 64.2% of the power generated in the Netherlands came from gas-fired thermal power. [9]
Achievement | Year | Achievement | Year | Achievement | Year |
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5% | 2014 | 10% | 2020 | 15% | not achieved [2] |
Renewable energy includes wind, solar, biomass and geothermal energy sources.
In December 2020 the Netherlands had 2,606 wind turbines, they generated 15.3 billion kWh. [10]
By December 2023 the Netherlands will have 4.7 GW of offshore wind farm capacity, which will provide 15.8% of total current electricity demand in the Netherlands. [11]
In 2022 the Netherlands generated 14 per cent of its electricity from solar farms. [3]
Biomass provides around 8% of electricity capacity
The Netherlands has under 40 MW hydroelectric power capacity.
Renewable energy is energy from renewable natural resources that are replenished on a human timescale. The most widely used renewable energy types are solar energy, wind power and hydropower. Bioenergy and geothermal power are also significant in some countries. Some also consider nuclear power a renewable power source, although this is controversial. Renewable energy installations can be large or small and are suited for both urban and rural areas. Renewable energy is often deployed together with further electrification. This has several benefits: electricity can move heat and vehicles efficiently, and is clean at the point of consumption. Variable renewable energy sources are those that have a fluctuating nature, such as wind power and solar power. In contrast, controllable renewable energy sources include dammed hydroelectricity, bioenergy, or geothermal power.
Renewable energy progress in the European Union (EU) is driven by the European Commission's 2023 revision of the Renewable Energy Directive, which raises the EU's binding renewable energy target for 2030 to at least 42.5%, up from the previous target of 32%. Effective since November 20, 2023, across all EU countries, this directive aligns with broader climate objectives, including reducing greenhouse gas emissions by at least 55% by 2030 and achieving climate neutrality by 2050. Additionally, the Energy 2020 strategy exceeded its goals, with the EU achieving a 22.1% share of renewable energy in 2020, surpassing the 20% target.
Renewable energy in Germany is mainly based on wind and biomass, plus solar and hydro. Germany had the world's largest photovoltaic installed capacity until 2014, and as of 2023 it has over 82 GW. It is also the world's third country by installed total wind power capacity, 64 GW in 2021 and second for offshore wind, with over 7 GW. Germany has been called "the world's first major renewable energy economy".
Denmark has considerable sources of oil and natural gas in the North Sea and ranked as number 32 in the world among net exporters of crude oil in 2008. Denmark expects to be self-sufficient with oil until 2050. However, gas resources are expected to decline, and production may decline below consumption in 2020, making imports necessary. Denmark imports around 12% of its energy.
Renewable energy in Australia is mainly based on biomass, solar, wind, and hydro generation. Over a third of electricity is generated from renewables, and is increasing, with a target to phase out coal power before 2040. Wind energy and rooftop solar have particularly grown since 2010. The growth has been stimulated by government energy policy in order to limit the rate of climate change in Australia that has been brought about by the use of fossil fuels. Pros and cons of various types of renewable energy are being investigated, and more recently there have been trials of green hydrogen and wave power.
Renewable energy commercialization involves the deployment of three generations of renewable energy technologies dating back more than 100 years. First-generation technologies, which are already mature and economically competitive, include biomass, hydroelectricity, geothermal power and heat. Second-generation technologies are market-ready and are being deployed at the present time; they include solar heating, photovoltaics, wind power, solar thermal power stations, and modern forms of bioenergy. Third-generation technologies require continued R&D efforts in order to make large contributions on a global scale and include advanced biomass gasification, hot-dry-rock geothermal power, and ocean energy. In 2019, nearly 75% of new installed electricity generation capacity used renewable energy and the International Energy Agency (IEA) has predicted that by 2025, renewable capacity will meet 35% of global power generation.
Financial incentives for photovoltaics are incentives offered to electricity consumers to install and operate solar-electric generating systems, also known as photovoltaics (PV).
A feed-in tariff is a policy mechanism designed to accelerate investment in renewable energy technologies by offering long-term contracts to renewable energy producers. This means promising renewable energy producers an above-market price and providing price certainty and long-term contracts that help finance renewable energy investments. Typically, FITs award different prices to different sources of renewable energy in order to encourage the development of one technology over another. For example, technologies such as wind power and solar PV are awarded a higher price per kWh than tidal power. FITs often include a "digression": a gradual decrease of the price or tariff in order to follow and encourage technological cost reductions.
Energy in Germany is obtained for the vast majority from fossil sources, accounting for 77.6% of total energy consumption in 2023, followed by renewables at 19.6%, and 0.7% nuclear power. As of 2023, German primary energy consumption amounted to 10,791 Petajoule, making it the ninth largest global primary energy consumer. The total consumption has been steadily declining from its peak of 14,845 Petajoule in 2006. In 2023 Germany's gross electricity production reached 508.1 TWh, down from 569.2 TWh in 2022, and 631.4 TWh in 2013.
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Different methods of electricity generation can incur a variety of different costs, which can be divided into three general categories: 1) wholesale costs, or all costs paid by utilities associated with acquiring and distributing electricity to consumers, 2) retail costs paid by consumers, and 3) external costs, or externalities, imposed on society.
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