Geothermal Energy Projects
Publications
2019
- Zuo, & Weijermars. (2019). Longevity of Enhanced Geothermal Systems with Brine Circulation in Hydraulically Fractured Hydrocarbon Wells. Fluids,4(2), 63. doi:10.3390/fluids4020063
2018
- Weijermars, R., Burnett, D., Claridge, D., Noynaert, S., Pate, M., Westphal, D., . . . Zuo, L. (2018). Redeveloping depleted hydrocarbon wells in an enhanced geothermal system (EGS) for a university campus: Progress report of a real-asset-based feasibility study. Energy Strategy Reviews,21, 191-203.
- Westphal, D., Weijermars,R. (2018). Economic appraisal and scoping of geothermal energy extraction projects using depleted hydrocarbon wells. Energy Strategy Reviews,22, 348-364.
2017
- Weijermars, R., Zuo, L., & Warren, I. (2017). Modeling Reservoir Circulation and Economic Performance of the Neal Hot Springs Geothermal Power Plant (Oregon, U.S.): An Integrated Case Study. Geothermics,70, 155-172.
2016
- Weijermars, R., van Harmelen, A., 2016. Breakdown of doublet re-circulation and direct line drives by far-field flow: Implications for geothermal and hydrocarbon well placement. Geophysical Journal International (GJIRAS), Vol. 206, p. 19-47.
Animations
- Direct Line Drive from Reference Paper:
Weijermars, R., van Harmelen, A., 2016. Breakdown of doublet re-circulation and direct line drives by far-field flow: Implications for geothermal and hydrocarbon well placement. Geophysical Journal International (GJIRAS), Vol. 206, p. 19-47.
- Fig. 19 from Reference Paper:
Progressive distortion of flow-field by means of impermeable and leaky fractures. - Fig. 20 from Reference Paper:
Progressive distortion of flow-field by means of impermeable and leaky fractures.