Lavoisier S.A.S.
14 rue de Provigny
94236 Cachan cedex
FRANCE

Heures d'ouverture 08h30-12h30/13h30-17h30
Tél.: +33 (0)1 47 40 67 00
Fax: +33 (0)1 47 40 67 02


Url canonique : www.lavoisier.fr/livre/documentation/geothermal-well-test-analysis/descriptif_4163529
Url courte ou permalien : www.lavoisier.fr/livre/notice.asp?ouvrage=4163529

Geothermal Well Test Analysis Fundamentals, Applications and Advanced Techniques

Langue : Anglais

Auteurs :

Couverture de l’ouvrage Geothermal Well Test Analysis

Geothermal Well Test Analysis: Fundamentals, Applications and Advanced Techniques provides a comprehensive review of the geothermal pressure transient analysis methodology and its similarities and differences with petroleum and groundwater well test analysis. Also discussed are the different tests undertaken in geothermal wells during completion testing, output/production testing, and the interpretation of data. In addition, the book focuses on pressure transient analysis by numerical simulation and inverse methods, also covering the familiar pressure derivative plot. Finally, non-standard geothermal pressure transient behaviors are analyzed and interpreted by numerical techniques for cases beyond the limit of existing analytical techniques.

1. Introduction2. Geothermal systems3. Geothermal wells4. Introduction to pressure-transient analysis5. Advanced analytical pressure-transient analysis relevant to geothermal wells6. Completion and output testing7. Downhole tools and other practical considerations8. Numerical pressure-transient analysis modelling framework9. Operation and management of geothermal wells10. Field studies

Geothermal energy engineering researchers and graduate students. Earth scientists. Geothermal reservoir engineers, steam field engineers and well test engineers. Graduate students and professionals in industry training courses. Instructors in academia and industry
Sadiq J. Zarrouk is an Associate Professor of Geothermal Engineering and the course director for the Postgraduate Certificate in Geothermal Energy Technology at the Department of Engineering Science, The University of Auckland, New Zealand.

Sadiq has extesive research and commercial field experience in geothermal and reservoir engineering with more than 25 years of experience in geothermal energy training and research. He has worked on 36 geothermal fields in New Zealand, Belgium, Australia, Indonesia, Malaysia, the Philippines, Vietnam, and North America.
Katie has been a Geothermal Reservoir Engineer at Contact Energy Ltd. in Taupo, New Zealand, since 2010. She is also currently completing a PhD in geothermal well testing at the University of Auckland and holds a prestigious New Zealand scholarship, the Todd Foundation Postgraduate Scholarship in Energy Research. Ms. McLean’s work has included geothermal exploration, well and reservoir characterisation, well test analysis and numerical modelling. In the field of geothermal reservoir engineering, McLean has published 8 journal articles and conference proceedings. She has a Bachelor of Engineering and Bachelor of Science (Geology) degrees from the Australian National University, and a Postgraduate Certificate in Geothermal Energy Technology from the Geothermal Institute, at the University of Auckland. Prior to moving to New Zealand, McLean worked for four years as a Project Geologist in diamond and gold exploration in Canada’s Northwest Territories.
  • Provides a guide on the analysis of well test data in geothermal wells, including pressure transient analysis, completion testing and output testing
  • Presents practical information on how to avoid common issues with data collection in geothermal wells
  • Uses SI units, converting existing equations and models found in literature to this unit system instead of oilfield units

Date de parution :

Ouvrage de 366 p.

19x23.3 cm

Disponible chez l'éditeur (délai d'approvisionnement : 14 jours).

174,92 €

Ajouter au panier

Thèmes de Geothermal Well Test Analysis :

Mots-clés :

AFIT; Aboveground system; Acid stimulation; Acidising; Air lifting; Analytical PTA software; Analytical models; Anhydrite; BHV; Borehole imaging; CBL; CBM; Calcite; Case studies; Casing design; Casing implosion; Cement damage; Channel; Classification; Cold water injection; Completion testing; Conventional geothermal systems; Corrosion; DHE; Decline analysis; Deflagration; Deviated well; Diffusivity equation; Direct use; Discharge prediction; Downflows; Downhole logging; E-line; ECC; EGS; Enthalpy; FMI; Field data; Flow measurement; Flowing surveys; Fracture closure; Fractured reservoirs; Framework; Geo-pressured; Geothermal energy; Geothermal pipelines; Geothermal systems; Geothermal wells; Go-devil; HTCC; Heat exchangers; Hot water; Hydraulic fracturing; ICC; Infinite-acting radial flow; Injectate temperature effect; Injectivity index; Linear impermeable boundary; Liquid dominated; Lubricator tube; Measurement while drilling; Mechanical caliper; Mechanical casing damage; Mechanical workover; Monitoring wells; Multiphase fluid; Non-Darcy flow; Numerical PTA software; Numerical models; Numerical simulation; Output test; PTA; PTA applications; PTA data artefacts; PTS; Permeable fault; Petroleum; Power production; Pressure control point; Pressure derivative; Pressure drop; Pressure pivoting; Pressure-transient analysis; Productivity index; Pumped wells; PyTOUGH; Rate of penetration; Reconstituted wells; Reinjection; Reservoir boundaries; Sampler; Scaling; Scraper; Sedimentary aquifers; Sedimentary basins; Self-discharging; Semilog plot; Silica; Single-fracture models; Skin