Gas Based Power Generation: A Development Advisor's Perspective

𝐅𝐨𝐫𝐞𝐜𝐚𝐬𝐭 𝟐𝟎𝟐𝟔-𝟐𝟎𝟑𝟔: 𝐏𝐨𝐰𝐞𝐫 𝐆𝐞𝐧𝐞𝐫𝐚𝐭𝐢𝐨𝐧 𝐌𝐚𝐫𝐤𝐞𝐭 – 𝐒𝐭𝐫𝐚𝐭𝐞𝐠𝐢𝐜 𝐎𝐮𝐭𝐥𝐨𝐨𝐤 & 𝐈𝐧𝐯𝐞𝐬𝐭𝐦𝐞𝐧𝐭 𝐂𝐚𝐬𝐞 Unlock decade-ahead clarity on the global Power Generation market (2026 to 2036): This investor-grade briefing delivers market sizing, application and fuel-mix dynamics (renewables vs fossil vs nuclear), regional growth hotspots, technology trends (energy storage, grid integration, digitalisation) and a practical go-to-market playbook so energy utilities, equipment OEMs, service providers and investors can prioritise CAPEX, retrofit programmes and service business models with confidence. 🔍 𝐖𝐡𝐲 𝐈𝐧𝐯𝐞𝐬𝐭 𝐢𝐧 𝐓𝐡𝐢𝐬 𝐑𝐞𝐩𝐨𝐫𝐭? ✅ 📊 Long-term market sizing & forecast – understand how large the market is today and how it may evolve to 2036. ✅ ⚙️ Fuel-mix & application segmentation – see how renewables, fossil-fuel plants, nuclear, distributed generation and storage will interplay. ✅ 🌍 Regional intelligence – prioritise geographies (Asia-Pacific, North America, Europe, Latin America) based on growth, regulation and infrastructure. ✅ 🔋 Technology & future-proofing – capture trends like energy-storage integration, digital grid, demand-response and decarbonisation of generation. ✅ 🔁 Service & aftermarket playbook – identify high-margin opportunities in maintenance, retrofits, upgrades, grid-services and hybridisation. 𝗚𝗿𝗮𝗯 𝗬𝗼𝘂𝗿 𝗥𝗲𝗽𝗼𝗿𝘁 𝗦𝗮𝗺𝗽𝗹𝗲 𝗣𝗗𝗙 𝗧𝗼𝗱𝗮𝘆! https://lnkd.in/esXJNrwj *𝗕𝘆 𝗞𝗲𝘆 𝗣𝗹𝗮𝘆𝗲𝗿𝘀: ExxonMobil | Siemens | GE | Tepco-Group | Chevron | E.ON Digital Technology | Huaneng Power International, Inc.. | EDF | Southern Company | The AES Corporation | ABB | Tianjin Alstom Hydro Co. Ltd. | Sinohydro | Suzlon Group | United Power, Inc. | Mitsubishi Corporation | KYOCERA Global | Datang International Power Generation Co., Ltd. | State Grid Corporation of China | enersis #PowerGeneration #ElectricityMarket #Renewables #FossilFuels #EnergyTransition #GridInfrastructure #EnergyStorage #AsiaPacificGrowth #CleanEnergy #Decarbonisation #UtilityMarket #MarketForecast

Eos Energy Enterprises saw its stock surge by over 8% after announcing a significant collaboration with Talen Energy and plans for a new $75 million factory. Under the joint agreement, Eos and Talen will work together to identify and develop multiple energy storage projects near Talen's existing assets, including operating plants and retired fossil fuel sites in Pennsylvania. This effort aims to help meet the state's rising electricity demand, particularly to support growing artificial intelligence infrastructure like the Amazon data center near Talen’s assets. Eos CEO Joe Mastrangelo told Bloomberg the new factory is expected to help Talen better use its generating resources, including its Susquehanna nuclear plant and fossil fuel generation. The initial 432,000 sq ft facility in Marshall Township, Pennsylvania, will add new production lines to Eos's existing manufacturing base. The company plans to eventually scale the site to 8 GWh of annualized energy storage capacity, enabling a transition to high-efficiency, large-scale production. Eos's expansion efforts are being supported by a $24 million economic development package from the state of Pennsylvania. Additionally, Eos announced a supply agreement for as much as 750 MWh with MN8 Energy, a major U.S. independent renewable company, to deploy Eos's next-generation Z3 energy storage systems. #EOSE #TLN #EOSEStock #EOSENews #EOSEStockNews #TLNStock #TLNNews #TLNStockNews #EosEnergyStock #EosEnergyNews #EosEnergyStockNews #TalenEnergyStock #TalenEnergyNews #TalenEnergyStockNews #EnergyStorage #DataCenters #AIPower #CleanTech #StockMarket #MarketIntelligence #FinancialMarkets #Investors #WallStreet #Finance #StockMarketNews $EOSE $TLN

Weekly Energy Vid - Week 4 October 2025 Sorry for the delay (traveling). Here are the top stories from last week. South Carolina’s government-run power company Santee Cooper selects Canadian private equity firm Brookfield as its partner in resuming construction of the abandoned 2,300 MW V.C. Summer nuclear plant.    The United Arab Emirates starts construction on $6 bn 5.2GW solar PV plant in tandem with a 19 gigawatt-hour battery storage system to provide 1GW of continuous baseload renewable power at competitive rates.     The Mobility House and Itron announce initiative in New York State to accelerate fleet electrification, using flexible service connections taking distribution system capacity into account. This will be done by managing charging capacity limits at specific times, based on system limitations. Phase 1 will involve five school bus five chargers on Staten Island. Phase 2 will activate ten chargers at a designated second site elsewhere in New York State.   Battery recycling and cathode production company Redwood Materials raises $350 million for company’s energy storage business, and growing its refining and materials production capacity. Redwood recovers over 70% of all used or discarded EV battery packs in North America.     Global Chinese battery market leader CATL has deployed 700 battery replacement stations in 39 cities across China. In those cities, drivers can access a swap station within a ten-minute drive and exchange their batteries in under 100 seconds.   China’s Mingyang Smart Energy rolls out plans for a twin-headed 50 MW floating offshore wind turbine, supported with a V-shaped tower boasting twin 290-metre rotors. Joint venture BP and JERA joint venture cancels 2,430 MW Beacon Wind project off the coast of Massachusetts, laying off all staff team members. 

Duke Energy is preparing a five-year capital plan exceeding $100B, expanding from ~$87. The plan includes 13 GW of new capacity across natural gas, renewables, and storage, reflecting rising demand from data centers and large-load customers. Read more: https://bit.ly/43rSJQe Why it matters: - The scale and speed of investment show how utilities are accelerating the energy transition while maintaining reliability - Financing and affordability will be key, with Duke planning to fund up to half of the plan through equity-like mechanisms - The focus on large-load customers highlights how growth in demand is shaping utility strategy At ScottMadden, we see utilities entering a new era of strategic capital planning where reliability, affordability, and alignment with customer needs are critical. How are you seeing utilities adapt their investment strategies to balance growth, reliability, and cost? #EnergyTransition #Utilities #Infrastructure #ScottMadden

RWE has started construction of Germany’s largest battery storage facility at its Gundremmingen energy site. The new 400-megawatt (MW) plant will provide 700 megawatt hours (MWh) of storage capacity and […]

India crosses 500 Gw power capacity, non-fossil sources contribute over 50% | Industry News - Business Standard https://lnkd.in/g7GURnq4 The power ministry on Wednesday said India has achieved the milestone of crossing 500 Gigawatt (Gw) in total power capacity, with non-fossil fuel sources contributing over half of it. The country’s total installed electricity capacity has crossed 500 Gw as of September 30, 2025, reaching 500.89 Gw, the ministry said in a statement, adding that non-fossil fuel sources - renewable energy, hydro, and nuclear - contributed 256.09 Gw, around 51 per cent of this total. “With this progress, India has already achieved one of its major COP26 Panchamrit goals — to have 50 per cent of installed electric power capacity from non-fossil fuel sources by 2030 — five years early," it said. The ministry added that this highlights India’s leadership in clean energy transition, achieved while keeping the electricity grid stable and reliable. Of the total capacity, fossil fuel-based sources now contribute 244.80 Gw, around 49 per cent. Within renewables, solar power capacity stands at 127.33 Gw, while wind power contributes 53.12 Gw capacity. “This achievement reflects years of strong policy support, investments, and teamwork across the energy sector,” the ministry said. In the current financial year, between April and September 2025, the country added 28 Gw of non-fossil capacity and 5.1 Gw of fossil-fuel capacity, indicating the fast rise of clean energy's share. The ministry also said that India’s renewable energy push is creating new employment opportunities in manufacturing, installation, maintenance, and innovation, benefiting both rural and urban youth.

India's Power Capacity Breakdown: - Non-fossil fuel sources (#renewableenergy, #hydro, and #nuclear) account for 256.09 GW, constituting over 51% of the total capacity. - Fossil-fuel-based sources contribute 244.80 GW, making up about 49% of the total capacity. Breakdown of Renewable Sources: - #Solar power capacity stands at 127.33 GW. - #Wind power capacity amounts to 53.12 GW. In the fiscal year 2025–26 (April–September 2025), India saw an addition of 28 GW in non-fossil fuel capacity and 5.1 GW in fossil-fuel capacity. This rapid growth highlights the increasing prominence of clean energy in the country's energy mix. (Source: [Press Release](https://lnkd.in/gp3vWzx3))

Global Energy and Clean Tech Sectors Face Supply Chain Shifts and Policy Volatility — Rapid renewable growth, AI-driven power demand, and shifting US policy reshape global energy and technology markets. At a glance – The past 24 hours have seen the global energy and clean technology sectors grappling with a complex mix of accelerating renewable deployment, surging electricity demand from artificial intelligence and electric vehicles, and significant policy pivots in major economies. Rystad Energy’s latest analysis highlights that global electricity demand is set to increase by 1,350 terawatt-hours in 2025, with data centers and electric vehicles each contributing about 4% to this growth. The report underscores that 90% of new power consumption will be met by renewables, while the remaining 10% will come from nuclear and gas. However, the rapid expansion of renewables is intensifying the need for reliable energy storage solutions, as intermittency leads to record periods of negative electricity prices. Read full brief: https://lnkd.in/gNcW7vSC

A Global Breakthrough: Infinite Carbon Energy Storage Batteries for Power Generation! I am Faissal Mohtam, Inventor and Designer of the Carbon Energy Technology (NCCEES), and the inventor of its control method. This technology is a new, self-sufficient power plant and an Energy Multiplier redefining global energy. > Crucial Note: This technology is proven effective through intensive on-site testing and is ready for commercial application. > Core Advantages & 1:100 Amplification The NCCEES is a Carbon Storage Battery that does not require external fuel. It’s charged with Sustainable Carbon Energy in an infinite closed loop, offering the lowest possible cost electricity 24/7. * Extreme Amplification: Every 1 kW of input generates 100 kW of clean power output. * Grid Augmentation: Our system uses minor surplus/waste heat from Nuclear, Thermal, or Geothermal plants. Example: Utilizing just 10 \text{ MW} of waste energy boosts a 1000 \text{ MW} plant's total output by 99\% (producing an additional 1000 \text{ MW}). This eliminates the need for plant expansion. * Minimal Footprint: 1000 \text{ MW} of power requires only a \approx 5.88 \text{ ha} solar input area. * Revenue Streams: It fully captures and reuses carbon, generating high-quality Carbon Credits for sale, and produces clean Hydrogen as a valuable byproduct. We are delivering the next generation of energy storage and sustainable revenue streams. For strategic partnerships and investment inquiries, please contact me directly via DM. #FaissalMohtam #CarbonEnergyTechnology #NCCEES #CarbonStorage #InfiniteBatteries #NuclearPower #ThermalPower #CarbonCredits #Innovation #Energy

🚨 🚨🚨 1 GW / 4 GWh battery project in Germany 🚨 🚨🚨 LEAG and Fluence will build Europe's largest battery! This is massive, this is transformative for the Germany and European energy storage market. We have reached the age of Giga-batteries in Europe. The project called GigaBattery Jänschwalde 1000 will be a key element of LEAG's Gigawatt Factory, which combines a number of renewable, storage and other flexible generations assets across the Lausitz region. LEAG picked Fluence following a competitive procurement process as the best technology for their transformative project: industry-leading technology, with the best and brightest Engineering and Delivery Team in Germany. The project will be massive! 🏗️ The project will be build across a space of 10 hectare, this is 12 football fields in size 💡 With 7,5 MWh per Smartstack, the project will require more than 500 of our market leading Smartstack solutions (no official number has been published) ⚡ The battery would be able to power 1.6 Million German households for a period of 4 hours 🔋 The Germany large-scale storage fleet today is at 3.2 GWh. This single project will be larger than all large-scale BESS in Germany today! Thinking of 1 GW, that is the power capacity of a nuclear power plant. The GigaBattery has a similar power size like the largest German pumped hydro plant Goldisthal (1.060 MW) and half of its energy capacity (8.480 MWh). Though Goldisthal took 28 years from start to finish, of which 6 years were construction. The GigaBattery Jänschwalde 1000 will not take half a decade to build, but due to modular battery technology it will be a matter of month. The project targets completion by 2027/28. For Fluence this project is a commitment to our mission to transform the way we power our world. It is also a statement, that the largest European battery will be build by a western supplier with deep routes in Germany. And it is prove of us leading the energy storage industry.