Abstract: The disclosure presents processes that utilize collected resistivity data, for example, from an ultra-deep resistivity tool located downhole a borehole. In some aspects, each slice of resistivity data can generate multiple distribution curves that can be overlaid offset resistivity logs. In some aspects, an analysis can be performed to identify trends in the distribution curves that can be used to identify approximate locations of subterranean formation surfaces, shoulder beds, obstacles, proximate boreholes, and other borehole and geological characteristics. As the number of distribution curves generated increase, the confidence in the analysis also increases. In some aspects, the number of distribution curves can be twenty, one hundred, one hundred and one, or other counts of distribution curves. In some aspects, the resistivity data can be used to generate two or more synchronized view perspectives of a specific location along the borehole, where each view perspective uses the same focus area.

Abstract: A cartridge for a stick-shaped aerosol-generating article is provided, the article being for an inductively heating aerosol-generating device, the cartridge including: a vaporization chamber at a distal end portion of the cartridge to vaporize aerosol-forming liquid therein; a reservoir chamber proximal the vaporization chamber to store aerosol-forming liquid; a septum forming a common wall member of the chambers; a liquid-conveying susceptor arrangement to convey aerosol-forming liquid from the reservoir chamber into the vaporization chamber and to be inductively heated to vaporize aerosol-forming liquid within the vaporization chamber; and a vapor-conveying conduit providing a fluid communication for vaporized aerosol-forming liquid from the vaporization chamber to a region proximal the reservoir chamber, the septum including a through hole, which the vapor-conveying conduit passes through or is supported in at a distal end portion, and including a filling hole for filling aerosol-forming liquid into the re

Abstract: A cartridge for a stick-shaped aerosol-generating article is provided, the article being for an inductively heating aerosol-generating device, the cartridge including: a vaporization chamber at a distal end portion of the cartridge to vaporize aerosol-forming liquid; a reservoir chamber proximal the vaporization chamber to store the liquid; a liquid-conveying susceptor arrangement to convey the liquid from the reservoir chamber into the vaporization chamber and to be inductively heated with the device in order to vaporize the liquid within the vaporization chamber; a vapor-conveying conduit providing a fluid communication for vaporized liquid from the vaporization chamber to a region proximal the reservoir chamber; a septum forming a common wall of the vaporization chamber and the reservoir chamber, the septum including a filling hole for filling the liquid into the reservoir chamber via the vaporization chamber; and a plug-shaped distal end cap forming a distal end wall of the vaporization chamber.

Abstract: A cartridge for a stick-shaped aerosol-generating article is provided, the article being for an inductively heating aerosol-generating device, the cartridge including: a vaporization chamber at a distal end portion of the cartridge for vaporizing aerosol-forming liquid therein; a reservoir chamber proximal the vaporization chamber to store aerosol-forming liquid; a liquid-conveying susceptor arrangement to convey liquid from the reservoir chamber into the vaporization chamber and to be inductively heated in use with the device in order to vaporize liquid within the vaporization chamber; a vapor-conveying conduit providing a fluid communication for vaporized liquid from the vaporization chamber to a region proximal the reservoir chamber; and a proximal end cap forming at last a proximal end wall member of the reservoir chamber and including a through hole in which a proximal end portion of the vapor-conveying conduit is supported.

Abstract: A cartridge for a stick-shaped aerosol-generating article is provided, the article being for an inductively heating aerosol-generating device, the cartridge including: a vaporization chamber at a distal end portion of the cartridge; a reservoir chamber proximal the vaporization chamber; a liquid-conveying susceptor arrangement to convey the liquid from the reservoir chamber into the vaporization chamber and to be inductively heated with the device to vaporize the liquid; a vapor-conveying conduit providing fluid communication for vaporized liquid to a region proximal the reservoir chamber, a proximal end portion of the conduit passing through, ending integrally in, or supported in a through hole of a proximal end wall of the reservoir chamber; a distal end cap forming a distal wall of the vaporization chamber; a proximal end cap forming the proximal end wall; and a cartridge sleeve forming a circumferential outer side wall of the vaporization chamber and of the reservoir chamber.

Abstract: A stick-shaped aerosol-generating article for an inductively heating aerosol-generating device is provided, the article including: a mouthpiece; a cartridge including a vaporization chamber at a distal end portion of the cartridge to vaporize aerosol-forming liquid therein, the chamber including an air inlet, a reservoir chamber proximal the vaporization chamber to store aerosol-forming liquid, a liquid-conveying susceptor arrangement to convey aerosol-forming liquid from the reservoir chamber into the vaporization chamber and to be inductively heated with the device in order to vaporize liquid within the vaporization chamber, a vapor-conveying conduit providing a fluid communication for vaporized liquid from the vaporization chamber to a region proximal the reservoir chamber, such that apart from the air inlet and the fluid communication, the vaporization chamber is fully enclosed by wall members; and a first wrapper circumferentially wrapped around the vaporization chamber and the reservoir chamber, and aro

Abstract: The disclosure presents processes that utilize collected resistivity data, for example, from an ultra-deep resistivity tool located downhole a borehole. In some aspects, each slice of resistivity data can generate multiple distribution curves that can be overlaid offset resistivity logs. In some aspects, an analysis can be performed to identify trends in the distribution curves that can be used to identify approximate locations of subterranean formation surfaces, shoulder beds, obstacles, proximate boreholes, and other borehole and geological characteristics. As the number of distribution curves generated increase, the confidence in the analysis also increases. In some aspects, the number of distribution curves can be twenty, one hundred, one hundred and one, or other counts of distribution curves. In some aspects, the resistivity data can be used to generate two or more synchronized view perspectives of a specific location along the borehole, where each view perspective uses the same focus area.

Abstract: The disclosure presents processes that utilize collected resistivity data, for example, from an ultra-deep resistivity tool located downhole a borehole. In some aspects, each slice of resistivity data can generate multiple distribution curves that can be overlaid offset resistivity logs. In some aspects, an analysis can be performed to identify trends in the distribution curves that can be used to identify approximate locations of subterranean formation surfaces, shoulder beds, obstacles, proximate boreholes, and other borehole and geological characteristics. As the number of distribution curves generated increase, the confidence in the analysis also increases. In some aspects, the number of distribution curves can be twenty, one hundred, one hundred and one, or other counts of distribution curves. In some aspects, the resistivity data can be used to generate two or more synchronized view perspectives of a specific location along the borehole, where each view perspective uses the same focus area.

Abstract: The disclosure presents processes that utilize collected resistivity data, for example, from an ultra-deep resistivity tool located downhole a borehole. In some aspects, each slice of resistivity data can generate multiple distribution curves that can be overlaid offset resistivity logs. In some aspects, an analysis can be performed to identify trends in the distribution curves that can be used to identify approximate locations of subterranean formation surfaces, shoulder beds, obstacles, proximate boreholes, and other borehole and geological characteristics. As the number of distribution curves generated increase, the confidence in the analysis also increases. In some aspects, the number of distribution curves can be twenty, one hundred, one hundred and one, or other counts of distribution curves. In some aspects, the resistivity data can be used to generate two or more synchronized view perspectives of a specific location along the borehole, where each view perspective uses the same focus area.