Home Solutions & Technology Geothermal Smart Management Solution SOLUTIONS Warning: Trying to access array offset on value of type bool in /app/wp-content/themes/xcalibur/blocks/OpeningImageWithIcon/index.php on line 33 Geothermal Smart Management Solution Geothermal Smart Management Solution Currently, we are confronting a substantial challenge driven by the escalating demand for gas and electricity worldwide. Just the electricity and heat generation reach up to 41% of CO2 emissions per year. This burgeoning demand poses an ever-growing concern, both in economic terms and environmental impact, notably with the surge in greenhouse gas emissions in recent years. Consequently, the world is increasingly turning to geothermal energy solutions. Geothermal power is a clean and renewable source of energy that can provide reliable baseload power in countries and regions where the resource is available. Although high enthalpy (thermodynamic energy) geothermal resources are predominantly located in areas with volcanic or seismic activity (such as the Pacific Rim), significant and viable lower enthalpy resources occur in a wide range of geological settings. Global geothermal potential is massive, yet only a small percentage of this potential is being exploited today, and many substantial geothermal regions are still waiting to be developed. The reasons for the low level of utilisation of geothermal resources are several: Geothermal systems and geology are usually very complex, and they often occur in inaccessible terrains with limited or no available sub-surface information. Exploring without sub-surface information Geothermal drilling is high cost given the hole depth required, and the geological conditions typically encountered. This combination of high risk and high costs make geothermal exploration and development extremely challenging. Although geothermal energy occurs in a variety of geological settings, conceptually the formation of a geothermal resource requires three elements: a heat source, a cap rock or seal, and hydrothermal fluid circulation. Xcalibur technologies are used to provide critical sub-surface information required to help understand these three elements of the geothermal resource. Xcalibur’s advanced airborne geophysical technologies are used extensively to provide efficient, high-resolution mapping of sub-surface geothermal geology and structures. This sub-surface data is used by geothermal developers to assess geothermal potential, inform exploration decisions, and to prioritise, de-risk and accelerate geothermal exploration and development. TECHNOLOGIES IMPLEMENTED IN THIS SOLUTION Xcalibur’s FALCON® Xcalibur’s FALCON® Airborne Gravity Gradiometry (AGG) technology acquires the highest quality airborne gravity data available using light aircraft. Xcalibur’s HELITEM® HELITEM® low-frequency time domain electromagnetic system is unique and was designed by Xcalibur for maximum exploration depths. Xcalibur’s HeliFALCON® HELIFALCON® is the only AGG system operable from a helicopter and enables the acquisition of high-resolution gravity data even in very rugged terrain. FALCON® and HELIFALCON® AGG measures minute variations in gravity caused by differences in density between different rocks. This data is used to map geology, basement elevations, calderas and other volcanic structures, and fault systems that influence hydrothermal fluid circulation from surface to depths of many kilometres underground. HELIFALCON® AGG data mapping caldera’s, structures and other sub-surface volcanic features at Onikobe, Honshu, Japan.Modified from: Shimizu R., Airborne Geophysics for geothermal exploration within Japan, JOGMEC 2022 HELITEM® AEM measures subtle changes in electrical resistivity between different rocks. This data is used map the distribution of the geothermal cap rock (low resistivity zones created by thermal and hydrothermal alteration), structures and other geothermal features, to great depth underground (up to 500-750m depending on geology). HELITEM® resistivity depth image mapping geothermal low resistivity zones (clay caps) to several hundred metres on geothermal survey in Japan. HELIFALCON® and HELITEM® provide exceptionally high quality and resolution data for geothermal exploration and development, with significant advantages over traditional ground survey techniques, including: 100% data coverage with over national parks, rough or dangerous terrain, water bodies, etc Consistent high density data sampling for superior data quality and interpretability Minimal social and environmental impact (no ground access required) Significantly faster data acquisition for accelerated exploration and development Scalable technology to explore large regions effectively and efficiently and to identify areas with high geothermal resource potential for focussed follow-up. Higher efficiency and lower cost Complimentary magnetic data acquisition for reduced interpretation ambiguity Our projects Geothermal Projects DOWNLOAD PDF Related news Blog – Analysis and expert opinion Airborne Gravity Data Capture and Geoid Modelling SEE MORE > Last news Xcalibur Smart Mapping completes 66,000 km airborne survey in France’s Central Massif SEE MORE > Blog – Analysis and expert opinion Einstein-First project: Supporting a brighter future in science education SEE MORE > Blog – Analysis and expert opinion Official Launch of Zambia’s High-Resolution Aerial Geophysical Survey Project SEE MORE > Last news Xcalibur Smart Mapping Partners with Curtin University to Pioneer Aerial Detection Technology for Natural Hydrogen Exploration SEE MORE > Last news Xcalibur Smart Mapping to support sustainable mining and natural capital exploration in Bhutan SEE MORE > Last news Technology Driving a Data-Driven Energy Transition SEE MORE > Last news Xcalibur Smart Mapping and Koloma Forge Partnership to Accelerate Global Natural Hydrogen Exploration SEE MORE > Success Cases White Paper: The strategic importance of natural capital and mineral exploration in the context of the energy transition SEE MORE > Contact us. FILL THE FORM