A geothermal reservoir induces gasification and water gas shift reactions to generate hydrogen. The hydrogen or protons are produced to surface by using hydrogen-only or proton-only membranes in production wells. Energy from the reservoir is produced to surface as protons or hydrogen.

A geothermal reservoir induces gasification and water gas shift reactions to generate hydrogen. The hydrogen or protons are produced to surface by using hydrogen-only or proton-only membranes in production wells. Energy from the reservoir is produced to surface as protons or hydrogen.

An apparatus for gas-liquid separation includes a first separation region that receives a mixture of liquids and gases, at least a portion of the first separation region forms a conical section; a second separation region that receives liquids and gases from the first separation region; and a cross-over section fluidly connecting the second separation region to a tubing.

An apparatus for gas-liquid separation includes a first separation region that receives a mixture of liquids and gases, at least a portion of the first separation region forms a conical section; a second separation region that receives liquids and gases from the first separation region; and a cross-over section fluidly connecting the second separation region to a tubing.

A gas separator for removing suspended gas from a fluid is provided. A plurality of pipes define an overall fluid pathway that includes: a first fluid path from the first fluid chamber to the third fluid chamber, the first fluid path passing through the second fluid chamber without interacting with contents the second fluid chamber, the first fluid pathway being narrower than the first fluid chamber such that fluid flows through the first fluid pathway faster than through the first fluid chamber; a second fluid path from the third fluid chamber to the second fluid chamber, the second fluid path extending at least partially along an exterior wall of the second and third fluid chamber; and a third fluid path from the second fluid chamber to the fourth fluid chamber, the third path passing through the second fluid chamber without interacting with content of the second fluid chamber.

A gas separator for removing suspended gas from a fluid is provided. A plurality of pipes define an overall fluid pathway that includes: a first fluid path from the first fluid chamber to the third fluid chamber, the first fluid path passing through the second fluid chamber without interacting with contents the second fluid chamber, the first fluid pathway being narrower than the first fluid chamber such that fluid flows through the first fluid pathway faster than through the first fluid chamber; a second fluid path from the third fluid chamber to the second fluid chamber, the second fluid path extending at least partially along an exterior wall of the second and third fluid chamber; and a third fluid path from the second fluid chamber to the fourth fluid chamber, the third path passing through the second fluid chamber without interacting with content of the second fluid chamber.

A wellbore gas separator having a pair of helical ramps. The separator ingests a liquid-gas solution, and a pump draws the solution into a first course between the pair of ramps. As centrifugal force is imparted upon the solution prior to the pump inlet, gas is forced out of solution. The liquid portions of the solution may fall into a dead space prior to the pump inlet. Gaseous portions enter into a second course between the pair of ramps and escapes, unimpeded, up the separator before being released into an annulus of a wellbore.

A wellbore gas separator having a pair of helical ramps. The separator ingests a liquid-gas solution, and a pump draws the solution into a first course between the pair of ramps. As centrifugal force is imparted upon the solution prior to the pump inlet, gas is forced out of solution. The liquid portions of the solution may fall into a dead space prior to the pump inlet. Gaseous portions enter into a second course between the pair of ramps and escapes, unimpeded, up the separator before being released into an annulus of a wellbore.

A downhole gas separator assembly. The gas separator comprises a drive shaft; a first fluid mover mechanically coupled to the drive shaft having a fluid inlet and a fluid outlet; a fluid reservoir concentrically disposed around the drive shaft and located downstream of the first fluid mover, wherein an inside surface of the fluid reservoir and an outside surface of the drive shaft define a first annulus that is fluidically coupled to the fluid outlet of the first fluid mover; a second fluid mover having a fluid inlet and a fluid outlet, wherein the second fluid mover is located downstream of the fluid reservoir, and wherein the fluid inlet of the second fluid mover is fluidically coupled to the first annulus; and a gas flow path and liquid flow path separator having a gas phase discharge port open to an exterior of the assembly and a liquid phase discharge port.

A downhole gas separator assembly. The gas separator comprises a drive shaft; a first fluid mover mechanically coupled to the drive shaft having a fluid inlet and a fluid outlet; a fluid reservoir concentrically disposed around the drive shaft and located downstream of the first fluid mover, wherein an inside surface of the fluid reservoir and an outside surface of the drive shaft define a first annulus that is fluidically coupled to the fluid outlet of the first fluid mover; a second fluid mover having a fluid inlet and a fluid outlet, wherein the second fluid mover is located downstream of the fluid reservoir, and wherein the fluid inlet of the second fluid mover is fluidically coupled to the first annulus; and a gas flow path and liquid flow path separator having a gas phase discharge port open to an exterior of the assembly and a liquid phase discharge port.