Development of coupled THM models for reservoir stimulation and geo-energy production with supercritical CO2 as working fluid - Jianxing Liao - Kirjat - Cuvillier - 9783736972421 - torstai 6. elokuuta 2020
Mikäli Kansi ja otsikko eivät täsmää, on otsikko oikein

Development of coupled THM models for reservoir stimulation and geo-energy production with supercritical CO2 as working fluid

Jianxing Liao

Hinta
€ 56,49

Tilattu etävarastosta

Arvioitu toimitus pe 29. marras - pe 6. joulu
Joululahjoja voi vaihtaa 31.1. asti
Lisää iMusic-toivelistallesi

Development of coupled THM models for reservoir stimulation and geo-energy production with supercritical CO2 as working fluid

In this dissertation, two specific numerical models have been developed to address the issues associated with utilization of supercritical CO2, like fracture creation, proppant placement and fracture closure in unconventional gas reservoirs, reservoir stimulation, heat production and CO2 sequestration in deep geothermal reservoirs, respectively. In unconventional gas reservoir, the model consisting of classic fracture model, proppant transport model as well as temperature-sensitive fracturing fluids (CO2, thickened CO2 and guar gum) has been integrated into the popular THM coupled framework (TOUGH2MP-FLAC3D), which has the ability to simulate single fracture propagation driven by different fracturing fluids in non-isothermal condition. To characterize the fracture network propagation and internal multi fluids behavior in deep geothermal reservoirs, an anisotropic permeability model on the foundation of the continuum anisotropic damage model has been developed and integrated into the popular THM coupled framework (TOUGH2MP-FLAC3D) as well. This model has the potential to simulate the reservoir stimulation and heat extraction based on a CO2-EGS concept.


180 pages

Media Kirjat     Paperback Book   (Kirja pehmeillä kansilla ja liimatulla selällä)
Julkaisupäivämäärä torstai 6. elokuuta 2020
ISBN13 9783736972421
Tuottaja Cuvillier
Sivujen määrä 180
Mitta 210 × 147 × 11 mm   ·   238 g
Kieli English