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Ankara, Turkey
1-10 Employees
2021
BIGVENTUS Forecast is a decision support platform for high-resolution and accurate meteorological forecasts that use atmospheric modeling and machine learning algorithms that operate on high-processor capable computer systems and which are analyzed and evaluated for different needs. BIGVENTUS FORECAST correlates and analyzes the production and consumption requirements of the energy sector affected by the meteorological conditions with the high-resolution and accurate meteorological forecast data it generates and provides to users with data sets or specific software developed. The constantly growing world population, industrial production, and climate change threaten life on Earth.
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Bigventus Energy Forecasting
... Our advanced and data-driven approach enables us to provide precise and reliable forecasts for the entire electricity production landscape. ...
Vantaa, Finland
251-500 Employees
VALTO360° is a view of augmented reality that combines the digital and real worlds into a functional whole. It is a functional view of the company's information and facilities, significantly improving operational performance and cost efficiency. The digital twin is the first step towards the everyday and practical metaverse world.
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Boilers for electricity and heat production
... lot of inspection documents and measurement data are accumulated from the maintenance and inspections of boilers used in electricity and heat production. In maintenance planning, a clear overall picture of the object's condition significantly improves cost efficiency in the long term. ...
City of Edinburgh, United Kingdom
1-10 Employees
NiggScott Energy is an industry leading renewable energy company.
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Featured
Niggscott Energy Limited | Welcome
... Clean Electricity Production ...
Silkeborg, Denmark
1-10 Employees
2021
We are a young Danish company that produces and sells EE-ROD’s® that is able to reduce energy consumption for freeze/cooling facilities and in AC/Heat ventilation systems between 10% to 20% savings. Our goal is to reduce energy consumption and carbon footprint globally by installing EE-Rod’s in coolers, freezers, server rooms and AC systems in warehouses, restaurants, hotels, offices, factories etc. Our patent pending technology removes static electricity in production halls and offices. Our patent pending technology equalizes temperature differences between ceiling and floor where there is a high ceiling and generally saves 10-20% of electricity in AC systems.
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Featured
Start - Excited Industry
... Removes static electricity in production ...
Berlin, Germany
1-10 Employees
Discussions about decarbonization and climate mitigation often focus on a few areas, like electricity generation or electric cars. Industries like steel, cement, chemicals, glass, shipping, or aviation require new technologies to avoid emissions. Yet, very little is known about hydrogen leakage rates. But they come with challenges and usually only delay emissions. Today, glass production uses primarily fossil fuels and comes with substantial carbon emissions. Electrification could change that, but it probably cannot be scaled enough to power large production facilities completely. And even a glass industry powered by renewable energy would have remaining CO₂ emissions. The production of some nitrogen-based chemicals can cause substantial nitrous oxide emissions (N₂O), a potent greenhouse gas.
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Featured
Industry Decarbonization Newsletter
... E-Fuels and E-Chemicals may need multiple times the World's current Electricity Production ...
Verdal, Norway
1-10 Employees
2020
We are always interested in good people, please send an open application if you want to Join the Loop! At OGL, we are genuinely interested in getting young people’s perspectives and input on what OGL is working on. We are excited to welcome our two new board members, Maren Hjorth Bauer and Martha Kold Bakkevig, to the Ocean Geoloop team! Ocean GeoLoop has been established to industrialize innovative green technologies with global scaling potential. LOI for carbon capture and electricity production with Yara Norge. Construction, installation and commissioning of carbon capture pilot plant at Norske Skog Skogn. Odd-Geir Lademo has more than 25 years of experience in SINTEF and the Norwegian University of Science and Technology (NTNU). Further, Berg is a former General Manager of Aker/Kværner Piping Technology – a prominent product- and technology company and Vice President at Kværner in Verdal.
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Featured
Ocean GeoLoop - CO2 capture by nature | CCS | CCU
... Ocean GeoLoop enters into a Letter of Intent for carbon capture and electricity production with Yara ...
Großenaspe, Germany
1-10 Employees
In Brokenlande, Christian Saul has been operating a biogas plant location with three biogas production lines at different storage locations, around 8 kilometers of biogas pipeline network and> 10 combined heat and power plants since 2007. A 5,900 m³ fermenter has been tested at the biogas production site since 2009, grass silage and landscape maintenance material have been examined in different feed compositions since 2010, an 8 km biogas network was put into operation in 2011 and a mini-CHP has been operated with biogas since 2012 Fields with Streaky silphies were planted and the growth was used energetically as well as around 1,000 kilowatts of demand-oriented electricity production. Ultrasonic systems have been used and tested for the digestion of biomass in the fermentation process since 2013. Use of ferments in the treatment of, among other things, manure and liquid manure. The separated fermentation residues are used and tested in agriculture to replace mineral fertilizers for various fruits. The experience gained in the implementation of climate protection projects has been extended to other renewable energy sources such as landfill gas, wind power, hydropower, solar thermal energy and, above all, biogas from agricultural products. ARA has been promoting and expanding a biogas plant project in Brokenlande near Neumünster since 2006. Glashaus Brokenlande OHG - electricity production, services and property management.
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Biogasanlage Brokenlande | Ara Biogas | Deutschland
... Demand-oriented, climate-neutral electricity production from the region for the ...
Ecublens, Switzerland
1-10 Employees
2020
We offer cost-effective onsite renewable Fuel (Hydrogen), Electricity and Heat production and storage systems.
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SoHHytec | About
... At SoHHytec, we provide onsite renewable Fuel (Hydrogen), Electricity and Heat production and storage systems which is cost-effective, cleaner and greener. ...
Aubervilliers, France
251-500 Employees
1959
La forte croissance expérimentée en 2022 est le fruit du travail de diversification sur les géographies et des activités réalisé ces dernières années.
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Featured
Electricity production and distribution
... Electricity production and distribution | Seureca ...
Istanbul, Turkey
1-10 Employees
We develop marketing strategies for your brand and products. We develop plans for your company to take place in the right markets and in the right way. Interwo provides international consultancy and supply management service for your brand. We manufacture and install PSA Oxygen Cylinder Filling Systems in different volumes and high standards for the healthcare industry. We offer suitable brand positioning according to competitor companies and markets. We conduct research and development studies so that you can present your products and services as needed by the markets. We bring your brand and products to the right buyers. We carry out all supply operations for you so that your products reach the buyer correctly during and after the sale.
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Featured
CONCRETE ELECTRICITY POLES PRODUCTION FACILITY
... CONCRETE ELECTRICITY POLES PRODUCTION FACILITY | ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Electrcity Production
| Country with most fitting companies | United Kingdom |
| Amount of fitting manufacturers | 93 |
| Amount of suitable service providers | 78 |
| Average amount of employees | 1-10 |
| Oldest suiting company | 1959 |
| Youngest suiting company | 2021 |
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Electricity production refers to the process of generating electrical power from primary energy sources. These sources can be either renewable, such as wind, solar, and hydropower, or non-renewable, including coal, natural gas, and nuclear energy. The conversion of these diverse energy forms into electricity involves various technologies tailored to harness the specific characteristics of each source. For instance, photovoltaic cells convert sunlight directly into electricity, while turbines driven by steam produced from heated water (via nuclear fission or burning fossil fuels) or flowing water convert mechanical energy into electrical energy. The significance of electricity production in modern society cannot be overstated, as it underpins virtually all aspects of contemporary life, from powering homes and industries to enabling advancements in technology and communication. Furthermore, the method of electricity production has profound implications for the environment and global efforts to combat climate change. As such, the shift towards more sustainable and less carbon-intensive electricity production methods is a critical focus for governments and industries worldwide, aiming to reduce greenhouse gas emissions while meeting the growing global demand for energy. This dynamic field continues to evolve with advancements in technology and energy storage solutions, further expanding the potential for renewable energy sources to meet a larger portion of the world's energy needs.
1. Reliability
Electricity production offers unparalleled reliability compared to other energy sources. The infrastructure supporting the generation and distribution of electricity is highly developed, ensuring a consistent and steady supply. This reliability is crucial for powering essential services and industries, where even brief interruptions can have significant consequences.
2. Efficiency
The efficiency of electricity production, particularly through renewable sources like wind and solar, is a significant advantage. These methods convert energy directly into electricity with minimal loss, making them more efficient than traditional energy sources that often involve multiple conversion steps. This efficiency not only conserves resources but also reduces the cost of energy over time.
3. Environmental Impact
Compared to fossil fuels, electricity production, especially from renewable sources, has a lower environmental impact. It emits fewer greenhouse gases and pollutants, contributing to cleaner air and water. This benefit is crucial for combating climate change and protecting public health, making electricity production a more sustainable option for the future.
4. Flexibility in Sources
Electricity can be generated from a variety of sources, including renewable resources like wind, solar, and hydro, as well as traditional fossil fuels. This flexibility allows for adaptability in energy policies and strategies, catering to the environmental, economic, and geographical needs of different regions.
While evaluating the different suppliers make sure to check the following criteria:
1. Production Capacity
Assess the supplier's ability to meet your electricity demands consistently. Larger capacity may indicate a more reliable supply.
2. Technology and Efficiency
Consider the type of technology used for electricity production and its efficiency. Advanced technologies usually offer better sustainability and cost-effectiveness.
3. Regulatory Compliance
Ensure the supplier adheres to all relevant local and international regulations governing electricity production, including environmental and safety standards.
4. Cost Structure
Analyze the cost structure, including any fixed charges, variable costs, and potential for discounts on bulk purchases, to ensure competitive pricing.
5. Environmental Impact
Evaluate the supplier's commitment to reducing their environmental footprint, including the use of renewable resources and emissions control.
6. Flexibility and Scalability
The supplier should be able to scale operations up or down based on your changing needs, offering flexibility without compromising on service quality.
7. Customer Service and Support
High-quality customer service, including prompt response times and technical support, is crucial for resolving any issues quickly.
In the manufacturing industry, electricity production plays a critical role in powering machinery and production lines. Efficient and reliable electricity supply ensures uninterrupted manufacturing processes, thus reducing downtime and increasing productivity. This is crucial for businesses that operate on tight schedules to meet demand and delivery timelines. Within the tech sector, data centers are significant consumers of electricity, relying on vast amounts of power to maintain server operations and cooling systems. These facilities require a stable and continuous electricity supply to ensure data integrity and accessibility, making electricity production essential for the digital economy's backbone. The agricultural sector utilizes electricity production for advanced farming techniques, such as automated irrigation systems and controlled environment agriculture (CEA). These technologies allow for more sustainable and efficient food production by optimizing water use and growing conditions, thereby increasing crop yields with less environmental impact. In the healthcare industry, electricity is indispensable for running medical equipment, from diagnostic machines to life-saving devices in emergency rooms. A consistent and reliable electricity supply ensures that healthcare facilities can provide uninterrupted care and services, highlighting the critical nature of electricity production in supporting public health and safety. Each of these use cases underscores the diverse and vital role electricity production plays across different industries, showcasing its importance in driving efficiency, innovation, and sustainability in the B2B sphere.
Electricity production technologies span a broad spectrum of Technology Readiness Levels (TRLs), reflecting the maturity and reliability of various methods ranging from conventional fossil fuels to innovative renewable energy sources. Traditional electricity generation methods, such as coal, natural gas, and nuclear power, have achieved the highest TRL of 9, indicating they are fully mature and have been operationally proven in multiple settings. These technologies have been extensively developed, with established infrastructure and regulatory frameworks supporting their widespread adoption. On the other hand, renewable energy technologies, including solar, wind, and tidal power, vary more widely in their TRLs, generally falling between TRL 6 (demonstration in a relevant environment) and TRL 9. This range reflects ongoing advancements and iterative improvements designed to increase efficiency, reduce costs, and integrate these sources into existing grids. Solar and wind power, for example, have seen significant technology advancements, pushing them closer to TRL 9 as costs drop and integration techniques improve. However, newer technologies like wave and tidal energy are still in the demonstration phase, working towards operational reliability and economic viability. The TRL assigned to each electricity production technology is thus a direct result of technical achievements, operational experience, and the degree to which these technologies have been integrated into the energy system.
In the short term, advancements in electricity production are primarily focused on increasing the efficiency of renewable energy sources. Solar panel technology is on the brink of a significant breakthrough with the development of perovskite solar cells, which promise higher energy conversion rates than current silicon-based cells. Additionally, wind energy is set to benefit from enhanced turbine designs that can capture wind more effectively, even in areas with low wind speeds. Mid-term developments are expected to revolutionize electricity storage capabilities, which is a critical component for stabilizing the supply from renewable sources. Battery technology, such as solid-state batteries, is anticipated to offer greater energy density, faster charging times, and longer lifespans. This period will also see the integration of artificial intelligence in grid management, allowing for more efficient distribution and reduced energy wastage by predicting demand patterns more accurately. Looking long-term, the focus shifts towards the adoption of fusion energy, which has the potential to provide a nearly inexhaustible and clean energy source. Research and development efforts are likely to yield significant breakthroughs, making fusion a viable option for mass electricity production. Moreover, advancements in quantum computing could lead to more efficient energy transmission methods, reducing losses and potentially revolutionizing how electricity is distributed across vast distances.
Some interesting questions that has been asked about the results you have just received for Electrcity Production
What are related technologies to Electrcity Production?
Based on our calculations related technologies to Electrcity Production are Water/Ocean Cleaning Technologies, Waste Management, Renewable Energy, Sustainable Fashion, Smart Grid
Who are Start-Ups in the field of Electrcity Production?
Start-Ups who are working in Electrcity Production are BIGVENTUS
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Naturally Excited Industry ApS,
Ocean GeoLoop AS,
SoHHytecWhich industries are mostly working on Electrcity Production?
The most represented industries which are working in Electrcity Production are Energy, Sustainability, Others, Manufacturing, Science and Engineering
How does ensun find these Electrcity Production Companies?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.
