Alphaxioms Geothermal News and Related Research Globally

  "Revolutionizing the EV Landscape: United Downs Geothermal Project Paves the Way for UK's First Commercial Lithium Production" In a groundbreaking development, the United Downs geothermal project in Cornwall is poised to become the United Kingdom's pioneer in commercial lithium production for electric vehicle (EV) batteries. This significant discovery of high concentrations of lithium marks a pivotal moment in supporting the burgeoning electric car market within the country. As avid supporters of sustainable initiatives, we are thrilled to have played a role in funding the construction of the United Downs project. The anticipation surrounding the project's potential to meet the surging demand for lithium in the UK is palpable. This not only signifies a stride towards reducing our carbon footprint but also underscores the crucial role of domestic resources in powering the future of electric mobility. The United Downs geothermal project, primarily designed for har

The drilling for the project in Neuruppin will be carried out by Daldrup & Söhne, a specialist in drilling technology and geothermal solutions based in Unterhaching. According to Daldrup & Söhne, the project's volume is approximately five million euros. The companies anticipate a temperature of around 70°C at the depth of the drilling. To feed this energy into the district heating network, high-temperature heat pumps will elevate it to the desired level. The aim is for the municipal utilities to generate a heat quantity of 76 GWh per year, equivalent to supplying approximately 3,000 average four-person households. The geothermal drilling in Neuruppin is scheduled to commence in the second quarter of 2024, as reported by Daldrup & Söhne. The Neuruppin municipal utilities were the first to receive approval for the investment grant from the Federal Funding for Efficient Heating Networks. Neuruppin is one of the few cities in the northern half of the country that has been u

 GreenFire Energy Inc. and Yoiba Energy have inked a memorandum of understanding to collaborate on geothermal energy projects in Spain.  The partnership focuses on utilizing GreenFire Energy’s GreenLoop™ technology for various geothermal endeavors, such as well retrofits and resource expansion. Spain's National Integrated Energy and Climate Plan targets 15 MW of geothermal power by 2025 and 30 MW by 2030. Yoiba Energy, specializing in energy supply for large industrial clients, is actively integrating innovative technologies for geothermal power generation in Spain. GreenFire Energy's GreenLoop™ is a closed-loop Advanced Geothermal System designed to access diverse geothermal and certain oil and gas resources economically. The collaboration aims to contribute to Spain's energy transition and climate goals.

 "Palinpinon-1 Geothermal Power Plant: A Four-Decade Odyssey of Sustainable Energy" Introduction: In the heart of Negros, Philippines, the Palinpinon-1 geothermal power plant stands tall as a testament to the enduring power of sustainable energy. What began as a response to the oil crises of the 1970s has evolved into a beacon of clean, renewable, and reliable energy, shaping the island's commitment to regeneration. As Palinpinon-1 celebrates its 40th anniversary alongside the impressive Tongonan-1 geothermal power plant, it continues to defy expectations, surpassing its projected 25-year lifespan. The Birth of Palinpinon-1: Amidst the turbulence of the oil crises, Palinpinon-1 emerged as a pioneering solution to the pressing need for sustainable energy. Commissioned in the late 1970s, it started as a stop-gap measure but quickly evolved into a symbol of Negros' forward-thinking approach to environmental responsibility. Sustainable Legacy: Over the past four decades,

Ormat's Groundbreaking Geothermal Project in Dominica Signals a Green Revolution in the Caribbean In a bold move to combat climate change, Ormat, a leading renewable energy company, is joining forces with the Government of Dominica to spearhead an ambitious initiative. This groundbreaking project, announced as the world converges at COP28 in the UAE, aims to develop a cutting-edge 10MW binary geothermal power plant in the Caribbean County of Dominica. The move marks a substantial leap forward in the nation's commitment to transition away from fossil fuels and embrace sustainable energy alternatives. At COP28, where global leaders are setting ambitious goals to address the urgent climate crisis, Ormat's collaboration with the Dominican government is a shining example of private and public sectors working hand in hand for a sustainable future. The commitment to developing a state-of-the-art geothermal power plant underscores the shared vision of both parties to reduce carbon

Canada's Green Milestone: Nation's First 5MW Conventional Geothermal Power Plant Set to Launch In a groundbreaking collaboration, Ormat Technologies and DEEP Earth Energy are set to usher in a new era of sustainable energy for Canada. The recent signing of a Notice to Proceed Agreement marks the beginning of a transformative journey towards the nation's first 5MW conventional geothermal power plant. ## Unlocking Canada's Geothermal Potential Canada, with its vast geothermal potential, has long been poised to embrace clean and renewable energy sources. However, until now, this potential has largely remained untapped. The partnership between DEEP Earth Energy and Ormat Technologies is not just a collaboration between two companies; it symbolizes Canada's commitment to harnessing its natural resources for a greener future. ## A Pioneering Project The 5MW conventional geothermal power plant is a pioneering project that showcases the capabilities of Ormat Technologies an

Understanding Fluid Rheology in Geothermal Systems Introduction: Geothermal energy has emerged as a sustainable and renewable source of power, harnessing the Earth's natural heat to generate electricity. One crucial aspect of geothermal systems that often goes unnoticed is fluid rheology—the study of how fluids flow and deform. In this article, we delve into the significance of fluid rheology in the context of geothermal energy. 1. **Nature of Geothermal Fluids:** Geothermal fluids are a unique blend of water, dissolved minerals, and gases sourced from the Earth's interior. Understanding the rheological properties of these fluids is paramount to optimizing the efficiency of geothermal power plants. 2. **Temperature and Pressure Effects:** Fluid rheology is highly influenced by temperature and pressure conditions, both of which fluctuate significantly in geothermal reservoirs. As fluids traverse the subsurface, encountering varying thermal and pressure gradients, their rheologic