The invention relates to a geothermal exchanger comprising a casing containing a heat-transfer fluid with which it is in direct contact. The casing is flexible such as to be in direct contact with a wall of the borehole containing the exchanger under the effect of the pressure of the heat-transfer fluid.

The invention relates to a geothermal exchanger comprising a casing containing a heat-transfer fluid with which it is in direct contact. The casing is flexible such as to be in direct contact with a wall of the borehole containing the exchanger under the effect of the pressure of the heat-transfer fluid.

The technology relates to systems and methods for creating openings in ground material in order to install ground loops for geothermal heating and cooling applications. As an example, a system for creating an opening in ground material may include a first drill head configured as a pipe pulling drill head and a second drill head configured for attachment with a boring tool. When attached to an end of a pipe, the first drill head is configured to pull the pipe into the opening in ground material. The second drill head may include a drilling portion and an opening opposite of the drilling portion, the opening including a first chamber that tapers towards a second chamber. The first drill head also includes a drilling end configured for a locking fit within the second chamber.

The technology relates to systems and methods for creating openings in ground material in order to install ground loops for geothermal heating and cooling applications. As an example, a system for creating an opening in ground material may include a first drill head configured as a pipe pulling drill head and a second drill head configured for attachment with a boring tool. When attached to an end of a pipe, the first drill head is configured to pull the pipe into the opening in ground material. The second drill head may include a drilling portion and an opening opposite of the drilling portion, the opening including a first chamber that tapers towards a second chamber. The first drill head also includes a drilling end configured for a locking fit within the second chamber.

The present invention relates to a thermal conductive cylinder installed with U-type core piping and loop piping for being installed within natural thermal storage body or artificial thermal storage body; wherein the piping segments of fluid inlet terminal and/or outlet terminal of the U-type core piping and loop piping are directly made of thermal insulating material, or thermal insulating structure is installed between the inlet terminal and the outlet terminal; so as to prevent thermal energy loss between adjacent piping segments on the same side when thermal conductive fluid with temperature difference passing through.

The present invention relates to a thermal conductive cylinder installed with U-type core piping and loop piping for being installed within natural thermal storage body or artificial thermal storage body; wherein the piping segments of fluid inlet terminal and/or outlet terminal of the U-type core piping and loop piping are directly made of thermal insulating material, or thermal insulating structure is installed between the inlet terminal and the outlet terminal; so as to prevent thermal energy loss between adjacent piping segments on the same side when thermal conductive fluid with temperature difference passing through.

Systems and methods for producing energy from a geothermal formation. A heat exchanger can be disposed within a well to absorb heat from a geothermal formation. The heat exchanger can be supported within the well using a high thermal conductivity material. The heat exchanger is connected to an organic Rankine cycle engine including a secondary heat exchanger and a turbine. The primary and secondary heat transfer fluids are chosen to maximize efficiency of the organic Rankine cycle.

Systems and methods for producing energy from a geothermal formation. A heat exchanger can be disposed within a well to absorb heat from a geothermal formation. The heat exchanger can be supported within the well using a high thermal conductivity material. The heat exchanger is connected to an organic Rankine cycle engine including a secondary heat exchanger and a turbine. The primary and secondary heat transfer fluids are chosen to maximize efficiency of the organic Rankine cycle.

A system for extracting geothermal heat energy includes a geothermal well in surrounding crust material, extending from a well top part down to a well bottom part at a depth where the surrounding crust material has elevated geothermal temperatures. The geothermal well further includes a heat medium contained within geothermal well walls. The heat medium is heated at the well bottom part by heat extracted from the surrounding crust material, evaporating and rising, carrying heat energy towards the well top part A heat extractor extracts the heat energy available at the well top part carried by the heat medium. At least one heat conductive path is provided in the surrounding crust material, the heat conductive path extending outwardly from the geothermal well into the crust material to conduct geothermal heat from the crust material surrounding the path towards the well bottom part.

A system for extracting geothermal heat energy includes a geothermal well in surrounding crust material, extending from a well top part down to a well bottom part at a depth where the surrounding crust material has elevated geothermal temperatures. The geothermal well further includes a heat medium contained within geothermal well walls. The heat medium is heated at the well bottom part by heat extracted from the surrounding crust material, evaporating and rising, carrying heat energy towards the well top part A heat extractor extracts the heat energy available at the well top part carried by the heat medium. At least one heat conductive path is provided in the surrounding crust material, the heat conductive path extending outwardly from the geothermal well into the crust material to conduct geothermal heat from the crust material surrounding the path towards the well bottom part.