Projektbeschreibung
Optimierung der Technologie für die Gewinnung von Erdwärme
Geothermie ist eine umweltfreundliche Ressource mit dem Potenzial, den Heiz-, Kühl- und Strombedarf der Zukunft zu decken. Dieses bleibt aufgrund der kostspieligen und langwierigen Bohrverfahren jedoch weitgehend ungenutzt. Ziel des EU-finanzierten Projekts Geo-Drill ist die Entwicklung optimierter Tiefbohrgeräte und -anlagen, um die Kosten zu senken und die Durchdringungsrate der Gewinnung von Erdwärme zu erhöhen. Diese innovative Bohrtechnologie kombiniert langlebige Borhlochhämmer, die mit bistabilen Fluidverstärkern betrieben werden, 3D-gedruckte Sensoren und Kabel zur Verbesserung der Überwachung sowie Graphenbeschichtungen zur Optimierung des Bohrwiderstands und der Lebensdauer. Durch die Reduzierung der Bohrkosten um bis zu 60 % sollen Investitionen angeregt und die Geothermie einem breiteren Publikum zugänglich gemacht werden.
Ziel
Geothermal is the most under-utilized of renewable sources due to high investment costs and long development cycle. A big part (53%) of the cost is in drilling and it is time-dependent. Geo-Drill aims to reduce drilling cost with increased ROP and reduced tripping with improved tools lives. Geo-Drill is proposing drilling technology incorporating bi-stable fluidic amplifier driven mud hammer, low cost 3D printed sensors & cables, drill monitoring system, Graphene based materials and coatings. Geo-Drill fluidic amplifier driven hammer is less sensitive to issues with mud and tolerances, less impact of erosion on hammer efficiency and it continues to operate with varying mud quality in efficient manner. It is also less affected by the environmental influences such as shocks, vibrations, accelerations, temperature and high pressures. Low cost and robust 3D-printed sensors & cables along the surface of the whole length of the drill string provides real-time high bandwidth data during drilling; e.g. estimation of rock formation hardness, mud flow speed, density, temp, etc. Flow assurance simulations combined with sensor readings and knowledge-based system will assist in optimizing drilling parameters and cuttings transport performance and safety conditions. Graphene's ability to tune the particular form lends itself uniquely as a component in a wide variety of matrices for coating developments with enhanced adhesion and dispersion properties and improved resistance to abrasion, erosion, corrosion and impact. Placing few mm hard-strength materials on drill bit, drill stabilizer through diffusion bonding improves their wear resistance and improve the lifetime. Geo-Drill's hammers improved efficiency and lifetime, drill parameter optimisation and CTP via sensors, reduced time in replacing tools with improved lifetime work together to improve ROP & lifetime resulting in reduced drilling time. Thereby, Geo-Drill will reduce drilling cost by 29-60%.
Wissenschaftliches Gebiet
Not validated
Not validated
- engineering and technologynanotechnologynano-materialstwo-dimensional nanostructuresgraphene
- natural sciencescomputer and information sciencesartificial intelligenceexpert systems
- engineering and technologymaterials engineeringcoating and films
- engineering and technologyelectrical engineering, electronic engineering, information engineeringelectronic engineeringsensors
- engineering and technologyenvironmental engineeringenergy and fuelsrenewable energygeothermal energy
Schlüsselbegriffe
Programm/Programme
Thema/Themen
Aufforderung zur Vorschlagseinreichung
Andere Projekte für diesen Aufruf anzeigenUnterauftrag
H2020-LC-SC3-2018-RES-TwoStages
Finanzierungsplan
RIA - Research and Innovation actionKoordinator
CB21 6AL Cambridge
Vereinigtes Königreich