🚨 NEW TRACKER | The Global #EnergyOwnership dataset provides unprecedented transparency into the ownership landscape of key energy projects worldwide. 🔍 This new dataset covers ownership details for a range of energy project types, including global coal plant, coal mine, oil & gas plant, bioenergy power, and steel plant projects. With over 12,000 entities and ownership connections meticulously tracked, it offers comprehensive insights into who's behind these critical infrastructure developments. 🔗 Explore the detailed ownership links, including percentages of ownership and links to open data sources, to gain a deeper understanding of the global energy landscape. Transparency is key to fostering informed decisions and driving sustainable energy transitions. Access the dataset: https://lnkd.in/ePGZPWwb
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Did you know that you can find out who owns power plants, large and small, around the world with Global Energy Monitor’s Energy Ownership Tracker? Global Energy Monitor is just one of the coalition members that provides ownership data to Climate TRACE. Their newly updated dataset includes information on over 12,000 entities. What information will you search for first?
🚨 NEW TRACKER | The Global #EnergyOwnership dataset provides unprecedented transparency into the ownership landscape of key energy projects worldwide. 🔍 This new dataset covers ownership details for a range of energy project types, including global coal plant, coal mine, oil & gas plant, bioenergy power, and steel plant projects. With over 12,000 entities and ownership connections meticulously tracked, it offers comprehensive insights into who's behind these critical infrastructure developments. 🔗 Explore the detailed ownership links, including percentages of ownership and links to open data sources, to gain a deeper understanding of the global energy landscape. Transparency is key to fostering informed decisions and driving sustainable energy transitions. Access the dataset: https://lnkd.in/ePGZPWwb
Global Energy Ownership Tracker
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Unlocking Success in Renewable Energy Procurement When procuring a renewable energy solution, several key considerations should be taken into account to ensure value for investment: Quality: Opting for products from reputable manufacturers renowned for quality, innovation, and research and development ensures that you receive what you pay for. Beware of misleading information such as exaggerated battery capacities or undisclosed use of recycled cells from electric vehicles. Warranty: While many manufacturers offer warranties, it's crucial to scrutinize the terms and conditions to avoid potential loopholes or companies that may not honor their commitments. Lengthy warranties are not always indicative of reliability, as some may fail to uphold them or go out of business. After Sales Support: Access to reliable after-sales support is paramount for resolving technical challenges and maximizing the longevity of your renewable energy system. Partnering with suppliers who offer responsive and knowledgeable support can significantly enhance the overall success of your project.
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Florida represents nearly 10% of the US’ Waste-to-Energy (WTE) generating capacity, with approximately 1.3 GWe. In the Greater Tampa Bay Area alone, five plants have output of around 180 MWe. While Florida gained the US’s newest generating plant with the Palm Beach Renewable Energy Facility 2 in 2015, overall WTE generation capacity has declined for the past decade in the US. The relative cost of landfilling, push for natural gas and renewable generation, and community concern have reduced enthusiasm for these plants since the 1990’s, putting into question the short term outlook for this technology. If you are interested in learning about energy use in the US, check out the US Energy Information Administration site below.
Homepage - U.S. Energy Information Administration (EIA)
eia.gov
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In 2024, the renewable energy industry faces new opportunities and challenges. Thanks to financial support programs such as FENX.02.02, the sector of renewable energy sources has a chance for dynamic development. However, rising oil and gas prices, geopolitical turmoil, and the intensification of M&A processes in the RE industry require the use of modern solutions. This is where a Virtual Data Room comes in handy. How does VDR impact RE projects? - It enables secure storage of documentation, - Simplifies and accelerates audit and due diligence, - Increases their efficiency. Centralization of documentation, improved communication and collaboration, as well as flexibility and scalability are just some of the advantages of VDR that can contribute to the success of RE projects. In the face of the growing role of renewable energy sources, VDR is becoming an indispensable tool for companies striving for innovation and sustainable development. Do you work in the RE industry? Learn more on the Fordata blog - > https://lnkd.in/dJByKb_K
How can VDR support the growth of the renewable energy industry in 2024? - FORDATA
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💡 June & July 2024 Energy Market Insights 💡 The team and I at LCP Delta have recently released our July Market Summary! We're taking a look back at the key developments and trends from the past two months in the energy market. Here's what stood out in June and July 2024: -⛔ Generation Unavailability: We observed a 21% increase in fleet unavailability in June, largely due to planned outages and interconnector issues. Notably, IFA1 and IFA2 faced tripping incidents which impacted the grid. - 🍃 Coal & Low Carbon Dynamics: While coal revenues hit a yearly low in June, they rebounded in July. Ratcliffe received its final coal shipment in June and is set to go offline by the end of September . On the other hand, low-carbon generation hit 58% in June, a significant year-on-year increase, though slightly decreased in July. - ☀ Solar Milestones: June set a record with 1.9TWh solar generation, and July followed with a record single-period solar generation of 10.32GW. - 🔋 Battery Storage Expansion: June saw Gresham House announce its augmentation across several BESS sites, enhancing capacity and duration, positioning them better for future market opportunities. - 💰 Market Dynamics: We also witnessed a 43% drop in ancillary revenues in July, primarily due to smaller price spreads and lower frequency response prices. - ⁉ Balancing Mechanism (BM) Anomalies in July: We delved into several anomalies observed across July, including incorrect and impossible BOA instructions that led to unnecessary costs, operational inefficiencies, and mismatched timing, underscoring the need for better oversight in BM operations.
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This white paper brought to you by my esteemed colleagues at Dexter Energy provides a comprehensive guide for evaluating power generation forecasts, particularly aimed at renewable energy traders and it is a perfect read for both seasoned and newer professionals (like myself) in the domain. Here are the key points summarized: 🎯 Introduction and Objectives: The paper emphasizes the importance of accurate power generation forecasts for maintaining grid stability in the transition to renewable energy. The primary objective is to minimize imbalance volume, crucial for short-term energy trading. 🔘 Evaluation Metrics Overview: Various evaluation metrics are discussed, including Normalized Mean Absolute Error (NMAE), Weighted Mean Absolute Percentage Error (wMAPE), Normalized Root Mean Square Errors (NRMSE), and Bias. These metrics help assess forecast accuracy and performance. 3️⃣ Three-Step Approach: The paper suggests a three-metric approach to evaluate power generation forecasts: ➡ Assess overall accuracy with NMAE and wMAPE. ➡ Consider extreme situations with RMSE to capture significant errors. ➡ Report bias to address consistent over- or under-forecasting tendencies. 🔑 Key Considerations: Additional factors to consider include selecting and communicating the learning objective, filtering out curtailment moments, and considering the evaluation length and timing based on weather patterns and asset characteristics. 📈 Relationship with Balancing Costs: The paper discusses the relationship between forecast accuracy and balancing costs, highlighting how minimizing imbalance volume can reduce costs but doesn't necessarily indicate a superior forecast. Real-world scenarios illustrate the impact of forecast errors on balancing costs. 💶 Optimization Strategy: For optimal trading results, the paper suggests combining generation forecasts with trade optimization strategies based on price spread forecasts. This approach helps mitigate risks and maximize profits in short-term trading. 🤔 Main Takeaways: The primary goal of a generation forecast is to minimize imbalance volume. Evaluation requires a nuanced approach, considering various metrics and practical aspects. Balancing costs cannot solely determine forecast quality. To optimize trading, combine generation forecasts with strategic deviations based on price spread forecasts. About Us: Dexter Energy offers AI-based forecasting and trade optimization solutions to mitigate balancing risk and maximize trade profits for renewable energy companies. 💡Reach out if you wish to find out more https://lnkd.in/eAYzetme
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🔍 Dive into the current landscape of renewable energy certificates in Europe with our whitepaper.🌍 Our "The State of Renewable Energy Certificates in Europe" whitepaper offers a comprehensive analysis of the European energy situation, identifies potential gaps, and highlights key challenges that the industry must address to prepare for predicted growth in renewable energy certificates. 💡 Gain valuable insights, access an assessment matrix, and discover an actionable approach to develop your own strategic action plan. Download your free copy here: https://lnkd.in/ekguj8T7 📈🌱 #RenewableEnergy #Sustainability #EnergyIndustry #RECs #GoOs #GOs #GuaranteesofOrigin
Europe's Renewable Energy Certificates Analysis
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U.S. energy production exceeded consumption by record amount in 2023 In 2023, energy production in the United States rose 4% to nearly 103 quadrillion British thermal units (quads), a record. Energy consumption in the United States fell 1% to 94
U.S. energy production exceeded consumption by record amount in 2023
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Australia's first manufacturing plant for long-duration energy storage system iron flow batteries has $25 million investment from the Queensland Government and attracted $40 million from a UK-based investment fund. Energy Storage Industries Asia Pacific will build the Maryborough facility, which is expected to deliver 400 megawatts of energy storage annually once it is fully operational in 2029. ESI will scale up its capabilities with technology licenced from Oregon-based ESS, Inc. Flow battery technology has the potential to deliver longer duration energy storage of up to 14 hours, which is vital as the world continues to decarbonise and increase its generation of clean and renewable energy. TIQ continues to support ESI as it establishes its presence in Queensland. Read more from pv magazine Australia 👉 https://lnkd.in/gfpSfKya
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IDTechEx´s latest report on Long Duration Energy Storage (#LDES) and the role of #RedoxFlow Batteries therein confirm our pursuit: We aim to provide innovative solutions based on redox flow technology, leveraging the USPs of iron and salt as unproblematic raw materials. The report is rather clear: As energy grids will be relying on different solutions to manage the increasing demand of energy storage in the grid and also in other application scenarios, LDES technologies come into play. Here, Redox Flow Batteries can offer multiple advantages: ➡ To increase system capacity, electrolyte volume and the size of electrolyte storage tanks can be increased, whereas changes to the cell-stack are only needed to increase power output. ➡ Moreover, IDTechEx sees that material constraints coming towards the end of the decade and the safety risks of flammable electrolytes in Li-ion are expected to be additional key factors driving demand for alternative solutions. Find out more: ▶ IDTechEx´s report at https://lnkd.in/drJqqumi ▶ How we at VoltStorage translate the demand into solution and products: https://lnkd.in/ePAfxs4K #LDES #energytranstion #ironsalt #innovation
When and Why Is Long Duration Energy Storage Technology Needed? As the volume of variable renewable energy (VRE) sources penetrating electricity grids increases globally, so does the need to manage the increasing uncertainty and variability in electricity supply. Author: Conrad Nichols, Technology Analyst at IDTechEx https://lnkd.in/efX6pD9c
When and Why Is Long Duration Energy Storage Technology Needed?
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