Livrables
As part of Task 92 this deliverable will report on the comparative LCA analysis of the 2 cases identified in Task 91 to validate the environmental benefit of GeoDrill To comply with the guideline and ensure the credibility of the LCA study we will make these studies through critical reviewing process by an independent reviewer
Report on drill string physics simulatorAs part of Task 72 this deliverable will provide a report on building of drill string model with generalized beam elements
Impact of Geo-Drill on LCOEThis deliverable is part of Task 91 and will provide report on the LCOE analysis based on Icelandic and German perspective to demonstrate the economic impact of the GeoDrill concept The report will include teh collected technical data such as depth to drill to intersect target formation temperature of the target formation well productivity and injectivity index reservoir permeability reservoir capacity aerial extent probable project development size
Impact of welding on coating integrityReport on performance of welding on test coupons and analysis by TWI under Task 36 The welding parameters will be optimized to achieve a uniform defectfree weld
Report on erosion-corrosion testing of samples in simulated environmentReport on erosion and corrosion testing by TWI under simulated geothermal drilling environments as part of Task 33 the materials tested will be raked to help down select the materials for further testes at elevated temperatures and pressures
Report on HEA and cermet alloy based coating synthesisReport on synthesis of High Entropy Alloy HEA based coating and cermet based alloy coating through HVOF under Task 28 5 test coupon for each coating developed will be prepared to be tested in WP3
Report on dissemination event and publicationsPart of Task 103 this deliverable will report on Dissemination activities and publications produced during the project
Characterisation reportLed by GEO under Task 1.2, the report will include information on the collected data and samples regarding geofluid, temperature, geology, rheology, drilling mud for analysis and characterisation. The results of the analysis will be used to formulate representative geothermal drill environment which will be used to set up the simulated laboratory geothermal environment.
FMEA reportLed by TVS, this report will be outcome of the activities under Task 1.1. Common failures in geothermal drilling will be identified followed by evalutaion by key experts. The expert’s responses will be summarized, and final FMEA worksheet will be generated according to the format presented in the following table (by XFMEA software).
Report on geothermal well flow assurance simulatorAs part of Task 71 the delievarble will provide a report on the deveopment of a geothermal well flow simulator including deatils about the extension of the simulator to activities including development of a 1D annuli model extension to handle nonNewtonian fluids with focus on drilling mud development of a simplified timedependent 1Dmodel development of force models and drilling mud properties
Report on Drill Monitor CalculatorThis deliverable from Task 73 will provide a report on development of a calculator that will support the Drill Monitor system developed in WP6 The Drill Monitor Calculator developed in this task will be able to calculate the SPE flow speed mud density as well as provide information on more longterm effects of geothermal corrosion scaling and erosion
Rheology testing ReportThe deliverable is a report on the rheology testing of drilling mud performed by GER under Task 1.2 as part of characterisation of the geothermal drilling environment.
Impact of Geo-Drill on the sustainability of geothermal powerAs part of Task 93 this deliverable will report on the estimation of the cost and environment load reduction opportunity of GeoDrill in geothermal application using the DSS platform The objective of the study is to encourage and to draw attention of the policy makers investors geothermal operators to enhance the growth of the geothermal energy
Report on the development of materials and coatingsReport of field validation and analysis
As part of Task 82 this deliverable will provide a report on the validation studies using the GeoDrill system in field testing The project validation will be carried out in Germany NW Europe
Report on drill bit tooth, fluidic oscillator, and stabilizer coating manufacture and propertiesReport on development of coating systems such as tungsten carbide WC tungsten carbide cobalt chrome WCCoCr Nickel alloy coatings eg NiCrFeSiB based selffluxing alloys and nanocrystallineamorphous materials carried out under Task 23 5 test coupon for each coating developed will be prepared to be tested in WP3
Geo-Drill KPIsReport on established KPIs related to hammer, drill bit, drill pipe, sensor, data acquisition and drill monitoring system performance under Task 1.4. The threshold values set for each KPI will be used to benchmark success criterion for material and coating synthesis & optimisation (WP2), drilling components development (WP4, WP5, WP6, WP7, WP8) and testing & validation activities (WP3, WP9).
Report on materials testing and characterizationThis deliverable is part of Task 10.3. The project website will be created and regularly updated by TWI.
Common GUI ready to useThis deliverable is part of Task7.7 for development of a common graphical user interface (GUI) that will allow seamless integration of the well flow assurance simulator, drill string simulator, KBS, and DSS.
KBS database developed and models integratedAs part of Task7.5, a relational database will be developed that will be populated with all the experimental and research data generated in previous tasks and work packages.
Simulator compatibility developedUnder Task 7.4, features will be developed for the well and drill string simulators such that they can be combined and compatible with the KBS and DSS.
Publications
Auteurs:
Feifei Zhang, Henry Begg, Namrata Kale, Sandeep Irukuvarghula, Kate Franklin, Kevin Mallin, Volker Wittig, Simon Hahn3, Beatriz Alonso Rodriguez, Fahim Chowdhury, Mohammad Ashadul Hoque, Sigrún Nanna Karlsdóttir, Gifty Oppong Boakye, Per Kjellgren, Pufinji Obene, Kristján Friðrik Alexandersson, Sunna Ólafsdóttir Wallevik
Publié dans:
Conference proceedings of the World Geothermal Congress WGC2020+1, 2021
Éditeur:
World Geothermal Congress WGC2020+1
Auteurs:
Gifty Oppong Boakye, Erlend O. Straume, Danyil Kovalov, Beatrice Alonzo Rodrigue, Sigrun Nanna Karlsdottir
Publié dans:
Conference proceedings of the CORROSION 2021 Conference, 2021
Éditeur:
NACE
Auteurs:
Erlend O. Straume, Gifty Oppong Boakye, Beatrice Alonzo Rodrigue, Sigrun Nanna Karlsdottir
Publié dans:
Conference proceedings of the World Geothermal Congress WGC2020+1, June 2021, 2019
Éditeur:
World Geothermal Congress WGC2020+1
Auteurs:
Feifei Zhang, Andrew Tabecki, Mike Bennett, Henry Begg, Stefano Lionetti & Shiladitya Paul
Publié dans:
Journal of Thermal Spray Technology, 2023, ISSN 1544-1016
Éditeur:
ASM International, Springer
DOI:
10.1007/s11666-023-01559-5
Auteurs:
Gifty Oppong Boakye, Erlend OddvinStraume Danyil Kovalov and Sigrun NannaKarlsdottir
Publié dans:
Corrosion Science, Numéro Volume 209, 2022, Page(s) 110809, ISSN 1879-0496
Éditeur:
Elsevier
DOI:
10.1016/j.corsci.2022.110809
Droits de propriété intellectuelle
Numéro de demande/publication:
20
2003022
Date:
2020-03-03
Demandeur(s):
PRECISION VARIONIC INTERNATIONAL LIMITED
Recherche de données OpenAIRE...
Une erreur s’est produite lors de la recherche de données OpenAIRE
Aucun résultat disponible