Thermal and Well Flow Performance of Closed-Loop Geothermal in the Wattenberg Area: Preprint

Research output: Contribution to conferencePaper

Abstract

Closed-loop geothermal systems provide an alternative to resource-constrained hydrothermal systems and stimulation-intensive enhanced geothermal systems. In this work, we apply the slender-body theory (SBT) model, to simulate the well flow and heat transfer performance of U-loop well designs drilled in the Wattenberg area of the Denver-Julesburg Basin. Three U-loop well patterns are investigated including a single, double, and multi-lateral design. The subsurface within area is characterized by deep, hot (> 200degreesC) igneous/metamorphic basement rock underlying multiple sedimentary formations. The lateral section(s) of the U-loop lies within a target depth of 6 km where temperatures are estimated to approach 300degreesC. As a base case, conduction-only heat transfer is investigated through simulations with the SBT model within U-loops with open-hole laterals that exchange heat directly with the hot dry rock using water as a working fluid. The utilization of supercritical CO2 as a heat transfer fluid is also considered. For each scenario, the system performance in terms of annual heat production and temperature profile over a 20-year project lifetime are assessed. Also, the levelized costs of heat and electricity (LCOH and LCOE) are determined using a top-down technoeconomic analysis model. The results show that the performance and cost optimized U-loop design is one having an injection-production well spacing of 1,000 meters with ten 50-meter-spaced laterals that traverse a subsurface system with a temperature gradient of 60degreesC/km. By injecting 20 degreesC-water at a rate of 60 kg/s through this loop, an average heat production of 19 MWth can be achieved, resulting in an LCOE and LCOH of $136/MWh and $1.53/GJ, respectively, over a 20-year project life.
Original languageAmerican English
Number of pages23
StatePublished - 2024
EventGeothermal Rising Conference - Waikoloa Hawai'i
Duration: 27 Oct 202430 Oct 2024

Conference

ConferenceGeothermal Rising Conference
CityWaikoloa Hawai'i
Period27/10/2430/10/24

NREL Publication Number

  • NREL/CP-5700-90798

Keywords

  • closed-loop geothermal
  • slender body theory
  • techno-economic analysis
  • Wattenberg anomaly

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