SBIR-STTR Award

Development of Mineral Grouting Technique to Permanently Plug Short Circuits in Geothermal Reservoirs
Award last edited on: 10/2/2018

Sponsored Program
SBIR
Awarding Agency
DOE
Total Award Amount
$150,000
Award Phase
1
Solicitation Topic Code
18b
Principal Investigator
Laura Nofziger

Company Information

Altarock Energy Inc

4010 Stone Way North Suite 400
Seattle, WA 98103
   (206) 729-2400
   info@altarockenergy.com
   www,altarockenergy.com
Location: Single
Congr. District: 07
County: King

Phase I

Contract Number: DE-SC0018509
Start Date: 4/9/2018    Completed: 10/8/2018
Phase I year
2018
Phase I Amount
$150,000
AltaRock Energy, Inc will develop a technique using in-situ mineralization to manipulate subsurface permeability in an active injector at NGP Blue Mountain Geothermal Power Plant near Winnemucca, Nevada; specifically, blocking a high-permeability pathway typically known as a “thief interval”, “loss zone”, “short circuit”, or “breakthrough interval” in the industry- The well in question, 44-14, has a short-circuit to producer, 17-14, that has been validated through tracer testing and production data, which renders the injector 44-14 ineffective- A unique solution for high-temperature geothermal wells may be the permanent sealing of unwanted fractures with calcium carbonate by mixing urea and calcium chloride- As temperature increases above 120°C, calcium carbonate precipitates; thereby, forming an impermeable layer and eliminating the short circuit- This method was devised and lab-tested at the Energy & Geoscience Institute at the University of Utah with funding provided by AltaRock Energy, Inc- It is patented in the United States (U-S- Patent Number 8091639) by the University of Utah and is ready for field-scale deployment to fully commercialize the product- This product has applicability to both the geothermal, conventional and enhanced geothermal systems, as well as the petroleum industry- In geothermal, injection wells often develop short circuits to producers, causing premature temperature decline in the resource and thereby limiting the project life- Similarly, oil and gas field operators frequently inject steam into oil bearing formations- The increased temperature can improve the “flowability” of the oil and is often used for extraction of very thick or heavy oils- In this process, steam often follows paths of minimal resistance, referred to as short-circuits, that are present or that develop over time- When these short-circuits are present, a disproportionate amount of steam is injected into these which frequently results in poor injection into, and ultimately poor sweep efficiency and incomplete oil recovery from, other portions of the formation-

Phase II

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Start Date: 00/00/00    Completed: 00/00/00
Phase II year
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Phase II Amount
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