NREL – Techno-economic performance of Eavor-Loop 2.0

This project evaluated techno-economic performance for a sample Eavor-Loop 2.0 design for electricity production and direct-use heating. The Eavor-Loop 2.0 design investigated is a 7.5-km deep closed-loop geothermal system consisting of 12 laterals for a total of more than 90 km of downhole well and lateral length.

UT Austin – Managed pressure control of deep closed-loop well construction and operation

To allow drilling and exploitation of deep CLGS wells, an integrated managed pressure operation (MPO) concept is presented.

Multilateral Closed-Loop Geothermal Systems as a Zero Emission Load-Following Resource

The Eavor-Loop™, a multilateral closed loop geothermal system (MCLGS), is introduced as a zero-emission load-following resource (ZELFR) that is globally scalable and can provide baseload or dispatchable electricity…

Eavor-Lite Performance Update and Extrapolation to Commercial Projects

Eavor-Lite™ is a full-scale demonstration project of a multilateral closed-loop geothermal system. An update is presented based on ~16 months of operations and testing. The project is located near Sylvan Lake, Alberta, Canada and consists of two 1.7 km long multilateral horizontal wellbores connecting two 2.4 km deep vertical wellbores to create a U-tube shaped closed-loop geothermal system.

Stanford/Princeton – California needs clean firm power, and so does the rest of the world

Three detailed models of the future of California’s power system all show that California needs carbon-free electricity sources that don’t depend on the weather.

Boundless Impact Research & Analytics – Eavor Klimafolgenprofil

Der Vergleich der Technologie von Eavor Technologies mit anderen geothermischen Stromerzeugungstechnologien und anderen erneuerbaren und fossilen Systemen (von Kohle bis hin zu Erdgas) zeigt eindrucksvoll die Vorteile des Eavor Loops.

TNO – Eavor-Loop™ Audit-Bericht

Eavor mit dem Eavor Loop ein innovatives Bohrlochdesign für die geothermische Energieerzeugung vorgestellt. Der Eavor-Loop besteht aus einem geschlossenen Kreislaufsystem, in dem Wärme aus dem tiefen Untergrund durch verzweigte Bohrungen geleitet wird, die als effektive Wärmetauscher fungieren.

Geological Survey of Canada – Closed-loop geothermal energy recovery from deep high enthalpy systems

Die Technologie der geothermischen Energierückgewinnung im geschlossenen Kreislauf hat den Vorteil, dass sie unabhängig vom Reservoir und Durchlässigkeit des Reservoirs ist, weniger Energieverbrauch durch zusätzliche Pumpen aufweist und bereits technologisch ausgereift für Anwendungen in oberflächennahen geothermischen Systemen ist.

UT Austin – Constructing deep closed-loop geothermal wells for globally scalable energy production

Constructing Deep Closed-Loop Geothermal Wells for Globally Scalable Energy Production by Leveraging Oil and Gas ERD and HPHT Well Construction Expertise.

UT Austin – Globally scalable geothermal energy production through deep closed-loop systems

Globally scalable geothermal energy production through managed pressure operation control of deep closed-loop well systems.

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