Big moves in the clean energy sector as Technip Energies secures a pivotal Front-End Engineering Design (FEED) contract for the Edmonton carbon capture and storage (CCUS) project. This initiative, spearheaded by Capital Power, is not just a step but a giant leap toward sustainable energy solutions. What sets this project apart? - It targets a substantial reduction in CO2 emissions, aiming to capture up to 3 million tonnes annually. That's not just a drop in the ocean; it's a wave of change in our fight against climate change. - The integration of CCUS technology in Edmonton's Genesee Generating Station is a showcase of how traditional energy sectors can pivot towards more sustainable practices without compromising on efficiency. - This project is a beacon for the energy industry, illuminating the path toward achieving net-zero emissions by 2050, in line with global commitments. Why should we care? - It's a clear indicator that the energy sector is evolving. Companies are now more than ever committed to investing in technologies that reduce environmental impact while ensuring energy reliability and affordability. - For professionals in the energy, environmental, and technological sectors, this represents a burgeoning field of opportunity. Innovation, sustainability, and engineering are converging to create careers of the future. Let's discuss: How do you see the integration of CCUS technology shaping the future of energy production? How can other industries leverage this advancement towards achieving broader sustainability goals? The Edmonton CCUS project is more than an engineering feat; it's a testament to the power of innovation in driving us toward a cleaner, more sustainable future. https://lnkd.in/gACY2PbY
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National Skills Academy for Power Drives Transition to Net Zero To advance the UK's journey toward achieving net zero, Energy & Utility Skills is proud to announce the establishment of the Power Generation Group within the National Skills Academy for Power (NSAP). This initiative strategically aligns with the needs of the renewable sector within the power generation industry. Power generation is undergoing significant technological advancements such as carbon capture, utilisation, and storage (CCUS), energy from waste, wind, and other renewable sources. These advancements are creating numerous job opportunities, with further anticipated industry growth indicating a requirement for an additional 70,000 skilled professionals within the offshore wind sector alone by 2030. In October 2023, the world’s largest offshore wind farm, Dogger Bank, produced power for the first time, and upon full operation, it will provide power equivalent to the needs of six million homes. In addition to this, more than 15 million tonnes of residual waste is converted annually by the UK’s Energy Recovery Facilities (ERFs), enough to supply half the homes in London for an entire year. Currently, however, many employers express concerns about finding and securing the right talent. The Power Generation Group is taking steps to address these concerns by identifying skill gaps and shortages. They have already recognised the need for a targeted approach in crucial areas within energy from waste, such as carbon capture, utilisation, and storage. https://lnkd.in/dAc8RS4D
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The construction sector is looking towards renewable energy systems such as wind, solar and geothermal, as a means of improving energy efficiency and minimising its carbon footprint. By integrating renewable energy systems into construction activities, project managers can reduce their dependency on traditional energy sources such as fossil fuels and nuclear. In addition to integrating these into the building designs, renewable energy systems can also be used to power construction sites. Solar panels, for instance, can be installed on rooftops to generate electricity, reducing reliance on the grid and lowering long term utility costs. This can be especially beneficial for construction sites within remote areas or in areas which have limited access to traditional energy sources. To further support the sustainability outcomes aimed for by renewable energy sources, the construction sector can introduce the use of sustainable building materials such as wood, recycled steel and bamboo, which can support the buildings receive sustainability certifications such as LEED (Leadership in Energy and Environmental Design) and BREEAM (Building Research Established Environmental Assessment Method). The use of renewable systems in construction has a range of far reaching benefits that extend beyond the energy savings that are experienced within the projects and buildings themselves. The use of these system can support reductions in the carbon footprint of the development projects in question, thus contributing to emissions savings which support global climate change goals. Additionally, the use of renewable energy sources can also improve the reliance and resilience of construction sites as they can leveraged as a form of backup power during emergencies. For instance, batteries or pumped hydro storage can be used as substitute for primary power sources during a power outages to ensure that buildings do not experience experience downtimes. This ensures that operations can be maintained and prevents safety hazards. A further benefit afforded by the introduction of renewable energy systems in the construction sector is that it enables job creation and stimulates economic growth. The manufacturing, installation, maintenance and operation of renewable energy systems requires the employment of a skilled workforce which can lead to job creation in local economies and contribute to more sustainable and resilient economy. #27Projects #ClimateChange #ESG #RenewableEnergy #ProjectManagement #Sustainability
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Part 9-11 Energy is an essential need for the existence and growth of human communities. Consequently, the need for energy has increased gradually as human civilization has progressed. Additionally, in the past few decades, the rapid rise of the world’s population and its reliance on technological developments have increased energy demands. Furthermore, green technology sources play an important role in sustainably providing energy supplies, especially in mitigating climate change [5, 6, 8]. Currently, fossil fuels remain dominant and will continue to be the primary source of large-scale energy for the foreseeable future; however, renewable energy should play a vital role in the future of global energy. The global energy system is undergoing a movement towards more sustainable sources of energy [12, 13]. Power generation by fossil-fuel resources has peaked, whilst solar energy is predicted to be at the vanguard of energy generation in the near future. Moreover, it is predicted that by 2050, the generation of solar energy will have increased to 48% due to economic and industrial growth [13, 14]. In recent years, it has become increasingly obvious that the globe must decrease greenhouse gas emissions by 2050, ideally towards net zero, if we are to fulfil the Paris Agreement’s goal to reduce global temperature increases [3, 4]. The net-zero emissions complement the scenario of sustainable development assessment by 2050. According to the agreed scenario of sustainable development, many industrialized economies must achieve net-zero emissions by 2050. However, the net-zero emissions 2050 brought the first detailed International Energy Agency (IEA) modelling of what strategy will be required over the next 10 years to achieve net-zero carbon emissions worldwide by 2050 [15–17].
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🌐 Engineering Net Zero: Navigating Energy Challenges Towards a Sustainable Future 🌱 In his insightful article, David Simmonds CEng FIChemE, explores the evolving landscape of achieving net zero and transforming the energy market. 🔄🔍 Key Takeaways: ✅ Balancing the Energy Trilemma: Decarbonization, Security of Supply, and Cost Minimization. ✅ Shifts in the Energy Market Structure: The creation of the UK's Department for Energy Security and Net Zero. ✅ Pricing Dynamics: The international influence on electricity and gas prices across Europe. ✅ Decarbonization Challenges: Addressing the intermittent nature of renewables and transitioning to hydrogen and e-fuels. ✅ Smart Solutions: The role of smart meters in incentivizing consumers and the need for a coordinated system approach. Join the conversation on navigating the complexities of our energy future. 💬 Let's work together towards a sustainable and resilient energy system. 🌐💡 #NetZero #EnergyTransition #Sustainability #RenewableEnergy #Engineering 🔗🔋
Engineering Net Zero Part 7: Energy Security and Affordability
thechemicalengineer.com
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Hey connections, I'm here to share my thoughts on shifting towards sustainability. Title: Shifting Towards Sustainability: The Impact of Renewable Energy on Electrical Systems In the quest for a sustainable future, the adoption of renewable energy sources has emerged as a game-changer in the realm of electrical systems. Traditionally reliant on fossil fuels, electrical grids worldwide are undergoing a profound transformation, driven by the urgent need to mitigate climate change and reduce carbon emissions. This shift towards renewable energy is not merely a trend but a fundamental restructuring of our energy landscape. Renewable energy sources such as solar, wind, hydroelectric, and geothermal power offer abundant, clean alternatives to finite fossil fuels. Their integration into electrical systems is revolutionizing the way we generate, distribute, and consume electricity. One of the most significant impacts of renewable energy is its role in decentralizing power production. Unlike centralized fossil fuel power plants, renewable energy sources can be harnessed locally, empowering communities to become self-sufficient energy producers. Moreover, the variability of renewable energy sources has spurred innovations in energy storage technologies, such as batteries and pumped hydro storage, enabling grid operators to balance supply and demand more effectively. This flexibility enhances grid reliability and resilience, reducing dependency on fossil fuel backup generators and minimizing the risk of power outages. The transition to renewable energy is not without challenges, including intermittency, grid integration, and infrastructure investment. However, the long-term benefits far outweigh these obstacles. By embracing renewable energy, electrical systems are not only reducing greenhouse gas emissions but also creating new economic opportunities, driving job growth, and fostering energy independence. In conclusion, the impact of renewable energy on electrical systems is profound and far-reaching. It represents a paradigm shift towards sustainability, offering a pathway to a cleaner, greener future for generations to come. As we continue to embrace renewable energy technologies, we move closer to achieving a more resilient and equitable energy ecosystem. #snsinstitutions #snsdesignthinkers #designthinking
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| Manufacturing Supervisor at APPEB Cylinder Manufacturing Company Limited | Energy & Sustainable Engineering | Product Lifecycle Management |
🌱 Taking Decisive Steps Towards a Sustainable Future! 🌍 It’s time to make a powerful commitment: Reducing Reliance on Fossil Fuels. In our quest for a more sustainable world, it’s imperative that we take decisive steps to reduce our dependence on fossil fuels. By embracing renewable energy sources such as solar, wind, and hydropower, we can significantly cut carbon emissions, mitigate climate change, and pave the way for a sustainable future for generations to come. Transitioning to renewable energy is more than a moral imperative; it’s a strategic move for the health of our planet and the resilience of our economies. Here’s how we can achieve this transformation: 𝟏. 𝐈𝐧𝐯𝐞𝐬𝐭 𝐢𝐧 𝐑𝐞𝐧𝐞𝐰𝐚𝐛𝐥𝐞 𝐄𝐧𝐞𝐫𝐠𝐲 𝐈𝐧𝐟𝐫𝐚𝐬𝐭𝐫𝐮𝐜𝐭𝐮𝐫𝐞: Building the necessary infrastructure for renewable energy is crucial. This includes installing solar panels, wind turbines, and hydroelectric generators, along with the grid integration technologies needed to efficiently distribute this clean energy. 𝐚. 𝐒𝐨𝐥𝐚𝐫 𝐏𝐚𝐧𝐞𝐥: Installing photovoltaic systems on rooftops and open spaces to harness the sun’s energy. Solar panels convert sunlight directly into electricity, making it one of the most versatile and accessible renewable energy sources. 𝐈𝐧𝐬𝐭𝐚𝐥𝐥𝐚𝐭𝐢𝐨𝐧 𝐓𝐲𝐩𝐞𝐬 𝐚𝐧𝐝 𝐋𝐨𝐜𝐚𝐭𝐢𝐨𝐧𝐬:. • 𝐑𝐨𝐨𝐟𝐭𝐨𝐩 𝐒𝐨𝐥𝐚𝐫 𝐒𝐲𝐬𝐭𝐞𝐦𝐬: These systems are installed on the rooftops of residential, commercial, and industrial buildings. They capitalize on unused space and provide a decentralized energy source directly at the point of consumption, reducing transmission losses. • 𝐆𝐫𝐨𝐮𝐧𝐝-𝐌𝐨𝐮𝐧𝐭𝐞𝐝 𝐒𝐨𝐥𝐚𝐫 𝐅𝐚𝐫𝐦𝐬: These large-scale installations are set up in open fields. They can produce substantial amounts of electricity, contributing significantly to the grid. These farms are ideal for areas with ample sunlight and available land. • 𝐅𝐥𝐨𝐚𝐭𝐢𝐧𝐠 𝐒𝐨𝐥𝐚𝐫 𝐀𝐫𝐫𝐚𝐲𝐬: Installed on bodies of water like reservoirs and lakes, these systems reduce land use conflicts and can also reduce water evaporation and algae growth.
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Project Director I Renewable Energy I Green Hydrogen I Battery Energy Storage I OHTL I Switchyard I Mega Infrastructure Project I Operational Excellence | P&L I Cost Excellence & Transformation | Mentoring and Leadership
Importance of Renewable Energy in today's ERA ? 🤔 Renewable energy plays a crucial role in addressing various environmental, economic, and social challenges 1) Environmental Benefits Reduced Greenhouse Gas Emissions: Renewable energy sources such as solar, wind, and hydropower produce minimal or no greenhouse gas emissions during electricity generation, helping to mitigate climate change Air and Water Quality Improvement: Unlike traditional fossil fuels, renewable energy sources do not release pollutants that contribute to air and water pollution, leading to improved environmental quality 2) Energy Security Diversification of Energy Sources: Relying on a mix of renewable energy sources helps diversify the energy supply, reducing dependence on finite and often geopolitically sensitive fossil fuels Localized Energy Production: Distributed renewable energy systems, such as solar panels on rooftops, contribute to local energy production, enhancing resilience against disruptions in centralized energy grids 3) Economic Advantages Investments in renewable energy projects stimulate economic growth by creating new markets, fostering innovation, Job creation and attracting private and public funding 4) Resource Conservation Reduced Resource Depletion: Unlike fossil fuels, renewable energy sources are sustainable and do not deplete finite resources. This contributes to long-term resource conservation and minimizes environmental degradation associated with resource extraction 5) Technological Innovation The growth of the renewable energy sector encourages technological innovation, leading to improvements in efficiency, cost-effectiveness, and the development of new technologies 6) Resilience to Climate Change By reducing reliance on fossil fuels, renewable energy helps mitigate the impacts of climate change, including extreme weather events, rising sea levels, and disruptions to ecosystems 7) Cost Competitiveness The costs of renewable energy technologies, particularly solar and wind, have significantly decreased in recent years, making them increasingly competitive with traditional energy sources 8) Global Collaboration The transition to renewable energy promotes global collaboration and cooperation to address shared environmental challenges The importance of renewable energy lies in its ability to provide sustainable, clean, and resilient solutions to the growing global demand for energy while addressing environmental concerns and promoting economic development. Empowering Success through Knowledge Sharing DM | Follow To connect for more meaningful engagement and interaction about #leadership #mentoring #projectmanagement #qualitymanagement #stakeholdermanagement #teambuilding #healthandsafety #technical #solar #renewableenergy #environmental
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Expert in SRE, Value Stream Management, Automation, Cloud Computing & AI | Senior Automation & Orchestration Architect | Speaker
Renewable Energy in IT Infrastructure In today’s exploration of "The Resilient Future of IT and Sustainability," we delve into the transformative potential of renewable energy within our IT infrastructures. The shift towards renewable sources like solar, wind, and hydro is essential for reducing the environmental impact of data centers and enhancing their resilience in the face of energy challenges and global climate change. A Sustainable Power Shift Integrating renewable energy sources into IT operations can significantly decrease reliance on fossil fuels, reduce greenhouse gas emissions, and promote a cleaner, more sustainable technology sector. This transition reflects a commitment to environmental stewardship and secures the long-term viability and reliability of IT infrastructures against fluctuating energy supplies and prices. Strategies for Integration Assessment and Planning: Begin by assessing your current energy usage and exploring feasible renewable options based on your location and energy needs. Partnerships: Consider partnerships with renewable energy providers or investments in renewable energy projects to offset your energy consumption. Innovation: Embrace innovative solutions such as using waste heat from data centers for community heating to enhance sustainability efforts further. Why It Matters By adopting renewable energy, IT infrastructures contribute to a more sustainable world and become more adaptable and robust against the backdrop of global energy transitions. This approach exemplifies the core of IT resilience—preparing for future challenges by fostering sustainability today. Join the Discussion How is your organization embracing renewable energy within its IT infrastructure? Could you share your initiatives, challenges, or plans related to renewable energy integration? Let’s inspire one another towards greener, more resilient IT practices. #RenewableEnergy #GreenIT #ITResilience
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Importance of Renewable Energy in today's ERA ? 🤔 Renewable energy plays a crucial role in addressing various environmental, economic, and social challenges 1) Environmental Benefits Reduced Greenhouse Gas Emissions: Renewable energy sources such as solar, wind, and hydropower produce minimal or no greenhouse gas emissions during electricity generation, helping to mitigate climate change Air and Water Quality Improvement: Unlike traditional fossil fuels, renewable energy sources do not release pollutants that contribute to air and water pollution, leading to improved environmental quality 2) Energy Security Diversification of Energy Sources: Relying on a mix of renewable energy sources helps diversify the energy supply, reducing dependence on finite and often geopolitically sensitive fossil fuels Localized Energy Production: Distributed renewable energy systems, such as solar panels on rooftops, contribute to local energy production, enhancing resilience against disruptions in centralized energy grids 3) Economic Advantages Investments in renewable energy projects stimulate economic growth by creating new markets, fostering innovation, Job creation and attracting private and public funding 4) Resource Conservation Reduced Resource Depletion: Unlike fossil fuels, renewable energy sources are sustainable and do not deplete finite resources. This contributes to long-term resource conservation and minimizes environmental degradation associated with resource extraction 5) Technological Innovation The growth of the renewable energy sector encourages technological innovation, leading to improvements in efficiency, cost-effectiveness, and the development of new technologies 6) Resilience to Climate Change By reducing reliance on fossil fuels, renewable energy helps mitigate the impacts of climate change, including extreme weather events, rising sea levels, and disruptions to ecosystems 7) Cost Competitiveness The costs of renewable energy technologies, particularly solar and wind, have significantly decreased in recent years, making them increasingly competitive with traditional energy sources 8) Global Collaboration The transition to renewable energy promotes global collaboration and cooperation to address shared environmental challenges The importance of renewable energy lies in its ability to provide sustainable, clean, and resilient solutions to the growing global demand for energy while addressing environmental concerns and promoting economic development. Empowering Success through Knowledge Sharing DM | Follow To connect for more meaningful engagement and interaction about #leadership #mentoring #projectmanagement #qualitymanagement #stakeholdermanagement #teambuilding #healthandsafety #technical #solar #renewableenergy #environmental
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The International Energy Agency has published the report: Advancing Clean Technology Manufacturing. GWEC was delighted to peer review the report on behalf of the global wind industry, and our CEO Ben Backwell took part in the IEA's High Level Dialogue on the topic. The report was produced at the request of G7 leaders, and sets out the state of clean technology manufacturing. The message is clear for #windenergy: • Production capacity for wind equipment to meet 2030 targets is lacking in major regions, and this will mean careful consideration of introducing policies that could pose bottlenecks to supply chain. • Investment in new wind manufacturing facilities is too low - it fell in 2023, and was mostly provided by China - more investment is needed, which will mean strengthening demand-side signals and policy/market environments to ensure strong project pipelines. • The capital intensity of wind manufacturing requires more work on industrialisation and standardisation as an industry, and caution on introducing barriers to materials like steel, which make up more than 60% of the material costs for wind. • The IEA is confident that investment will grow as other countries ramp up clean tech manufacturing. The report details how manufacturing can be more expensive in India, the EU and the US. However, it highlights that "production cost gaps seen today are not immutable and can be influenced by policy." • Financial and fiscal incentives are becoming a feature of national industrial policy for the energy transition, whether in the form of tax credits, government loans or grants. Precise objectives and clear monitoring of successes can remove ambiguity about aims and send signals to domestic and international institutions. • At the global level, a coordinated approach to investment and partnership is most effective for supply chain development: "Understanding relative strengths and weaknesses, and where it might be better to build complementary strategic partnerships with other countries should be key considerations." This will require multi-stakeholder engagement between governments, leading clean technology industries like wind, and key institutions like IEA International Renewable Energy Agency (IRENA) UNIDO The World Bank, IFC - International Finance Corporation and EBRD • The report also flags the "rapid innovation" issue. "The wind sector has experienced misalignment of technology and manufacturing in its value chain: As economies of scale and land use pressures drove up the size of the largest wind turbines by nearly 70% in around 10 years, the development cycles for new components became shorter, increasing the risk of failures, which is exacerbated by reliance on a small number of third-party factories for outsourcing production of new designs. Strategies to manage this type of risk will be required if clean technologies continue to expand rapidly." Read the report: https://lnkd.in/gG8ZNPKG
Advancing Clean Technology Manufacturing – Analysis - IEA
iea.org
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