What is green ammonia, and what is it used for?
Green ammonia, like hydrogen and other renewable molecules, is a crucial energy carrier for achieving zero emissions and decarbonising the economy.
Green ammonia, like hydrogen and other renewable molecules, is a crucial energy carrier for achieving zero emissions and decarbonising the economy.
AI is a key component of the fourth industrial revolution, and as in other sectors, it is already being applied in the energy industry. Let’s explore some aspects of Artificial Intelligence and how it can help meet Europe’s decarbonisation goals.
In recent years, Portugal has established policies aimed at the development of renewable energies in order to boost the energy transition and also to achieve the goals it has set for itself in the production of green hydrogen.
Metrology in the gas system is the set of methods and tools used to accurately measure the quantity and quality of the gas that is received, transported and consumed at all points in the system.
The adaptability of existing gas infrastructures is key to their future. Among other issues, it opens up the possibility of reusing the current regasification plants so that they can work with decarbonised molecules.
In contrast to green, yellow, pink, or blue hydrogen, which are produced through various transformation processes, white hydrogen forms naturally as a result of diverse chemical and geological phenomena.
Since 2013, the European Union has updated the list of PCIs every two years. For the sixth edition validated in April 2024, hydrogen and electrolyzer projects have been included for the first time.
What carbon neutrality is, its characteristics and the role played by renewable gases such as green hydrogenamong other aspects.
Green hydrogen plays a key role in the energy transition and decarbonization. That's why it's important to develop methods for large-scale hydrogen storage, especially through underground storage, using techniques similar to those used for natural gas.
India has been working on a major challenge in recent years:to make 80% of the hydrogen it produces green by 2050. And by 2070 it aims to achieve carbon neutrality.
A management model that seeks to preserve water, optimise its consumption, contribute to its revitalisation and raise awareness of the need to be responsible with its use, has arisen.
Professionals with academic qualifications, experience, creativity, and a strong commitment to businesses and the sector will effectively lead the energy transition through what are known as green jobs.
Brazil meets the conditions to become a major player in the global green hydrogen economy.
Green hydrogen is a clean, versatile energy that has the potential to become a key element for the future of the planet.
This is a Brussels initiative created to boost the renewable hydrogen market in the European Union. Its main objectives are: to incentivise EU production, efficiently connect supply with demand and facilitate imports from third countries.
Renewable hydrogen is an energy carrier that can help Ireland achieve more sustainable development. Produced from renewable sources, green hydrogen generates zero CO2 emissions, making it a key clean fuel for the energy transition.
Green hydrogen is emerging as one of the most promising solutions for decarbonising key sectors of the economy to make it more sustainable. This renewable gas, produced from water and green energy, has immense potential to transform the way we generate and use energy.
Last July, the German Ministry of Economy and Development published the update of its National Hydrogen Strategy, with measures that reflect the country’s firm commitment to this energy vector.
Renewable hydrogen and green ammonia represent two pillars for moving towards decarbonisation and energy sustainability. The goal of decarbonisation is not a single solution, rather the more technologies and alternatives we can deploy, the simpler, safer and more expeditious the process will be.
The United States launched its 'US National Clean Hydrogen Strategy and Roadmap' for hydrogen development in June, a plan that matches the European Union’s commitment to the hydrogen REPowerEU programme: to reach a production of 10 million tonnes of hydrogen by 2030.
Green hydrogen is an effective solution for decarbonising the economy. We review a number of the most important projects being developed around the world to produce green hydrogen.
Hydrogen is an exceptional partner in the energy transition to decarbonise the economy, especially in the most complicated sectors.
Canada has great potential to become a powerhouse in the production and use of renewable hydrogen. With a diverse and prosperous economy, financial stability and leadership in innovation.
The growing interest in hydrogen as a clean and renewable energy source is no accident: it is a key vector for achieving a carbon-free future.
The energy sector is making steady progress towards finding alternatives to help achieve the decarbonisation. As far as renewable hydrogen production is concerned, there are also many innovations. Will it become a real option?
Renewable hydrogen is becoming a key part of the energy puzzle in Europe, a region whose future goals include achieving climate neutrality by 2050.
A hydrogen pipeline is a pipeline used to transport hydrogen in an effective, efficient, and reliable manner.
Air transport is an activity that releases large quantities of greenhouse gases into the atmosphere and is, according to the European Environment Agency, the third most polluting mode of transport.
The Belgian government has published the update of its Hydrogen Strategy 2022. It defines the pillars to position the country as the main import hub and transit country for green hydrogen in Western Europe.
The land transport sector is one of the largest consumers of energy and this trend needs to change.
Eighty percent of goods are moved by sea. It is therefore essential to move towards the decarbonization of the sector.
Decarbonisation of the economy and energy independence are two objectives that have recently become increasingly important for Europe
South Africa has the strongest economy on the African continent and is a development hub for the entire southern region. However, among other difficulties, it has excessive unemployment and is one of the most unequal countries in the world.
The future of mobility will be sustainable thanks to technological innovation, the promotion of renewable energies and a change in the mentality of consumers.
Argentina is trying to position itself as an investment destination to strengthen a hydrogen economy that will add to the country's economic growth.
The sun allows the planets to orbit, gives us warmth and light, and also allows plants to provide us with the oxygen we need to live. The sun is also an inexhaustible source of energy that has been used since ancient times.
The energy sector of the future is already being built in Europe, and hydrogen is emerging as a major player, enabling the evolution towards a decarbonized economy.
The development of this vector will enable it to increase its energy security and resilience, as well as the economic and environmental value of its energy mix.
In a carbon-neutral future, which Europe hopes to achieve by 2050, renewable energies play a key role. As well as not producing polluting emissions and helping to combat climate change, they also make it possible to conserve natural resources.
We talked to María Retuerto, a researcher at the CSIC, about her research work on the generation of green hydrogen by water electrolysis.
Colombia presents its Hydrogen Roadmap to become a benchmark in the development of sustainable energies and boost strategic sectors such as industry, transport and agriculture.
Over half the hydrogen deployment projects announced in 2021 are being developed in Europe. But this technology has to meet a number of important milestones before it can be deployed on a large scale.
The goal is that by 2050 between 20% and 35% of energy consumption should be based on hydrogen as a new energy carrier.
Interview with Celia Navarro Pedrero and Alba Martínez Miguélez, founders of B-Hydrogen, their own professional project for the generation of hydrogen from beer bagasse.
Enagás and Repsol are jointly developing a photoelectrocatalysis project for the production of green hydrogen. The project is one of the most innovative in the world and has already received 65 patent applications in more than 30 countries.
If hydrogen is a colourless gas, why do we talk about hydrogen that is green, blue, grey, etc? We talk about how the colour of hydrogen determines its usefulness in a carbon-neutral future.
The implementation of various green hydrogen development projects and collaboration between companies make clear the country’s intention to focus on a climate-responsible future.
We talk about the efforts being made by the cruise sector and the important milestones it has achieved on its path towards decarbonisation.
Hydrogen economy. Find out what it is and why it will be a cornerstone for emissions reduction, energy savings and energy transition.
Belgium joins the green hydrogen race and will allocate a large part of the recovery funds to the construction of an energy island.
Interview with Mario Carrero, CEO of H2Greem, a company that promotes the development, manufacture and commercialization of medium-sized electrolyzers in Spain.
Mexico wants to excel in this new industry by taking advantage of its privileged geographical location, which together with its climatic conditions, would allow it to generate green hydrogen with relative ease.
Green hydrogen is a 100% clean energy that has a great many advantages and applications.
Chile joins the group of countries that are joining the race for green hydrogen, which it intends to turn into the engine of its energy future.
In Spain there are six hydropower plants distributed throughout the country. The Hydrogen Roadmap contemplates the implementation of a network with a minimum of 100 hydrogen stations by 2030.
On 1 January, a key decade begins for the planet. A decade in which governments and institutions will have to go at full throttle in their race to decarbonise the economy and support green energy.
Germany was another country that last June declared its intention to lead the global race for technological development to make the production of green hydrogen technologies viable.
The Ministry for the Ecological Transition and the Demographic Challenge of the Spanish Government gave the green light to the “Hydrogen Roadmap: a commitment to renewable hydrogen”, which underlines green hydrogen as a key element in achieving climate neutrality and a 100% renewable electricity system by 2050
China has prioritised research and development in the areas of hydrogen and fuel cells as one of the effective countermeasures with which to face these demanding tasks.The Chinese government sees hydrogen as an opportunity to meet climate and pollution targets without increasing dependence on imported fuels.
La mayor parte de la electricidad francesa se genera actualmente a partir de plantas nucleares, una situación que enfrenta a productores y Gobierno con aquellas organizaciones que defienden el medio ambiente y critican el nivel de desechos radiactivos que se producen.
Tras el desastre nuclear de Fukushima, Japón apuesta por el uso del hidrógeno con el objetivo de convertirse en la única sociedad del mundo basada en él.
We talked to Thierry Lepercq about hydrogen, ecological transition and carbon neutrality after the presentation of his book 'Hydrogen: the new oil'.
Will ships be able to power themselves exclusively with 100% clean energy? This is the big question facing maritime transport at this stage of the ecological transition. One example is the case of the ‘Energy Observer’
Green hydrogen is a key solution to speed up the energy transition process towards a carbon-neutral future. It is the most abundant element in nature.
Hydrogen is the most abundant element in the universe. But it's hard to find it in a free state. It must be extracted from other sources such as water, coal, biomass or natural gas.