A system for a spark plume generator system for igniting flammable gases at a drilling rig includes a support disposed within a fireproof housing proximate to the drilling rig. A grinder is mounted on the support. The grinder includes a rotatable grinder axle with an abrasive grinder surface and an igniter mounted on the support so as to cooperatively contact the grinder. The igniter includes an igniter surface that creates sparks when abraded. The fireproof housing includes an opening. Upon rotation of the grinder axle, the grinder surface abrades the igniter surface to create sparks. The support is positioned within the fireproof housing so that sparks created by the igniter surface exit the fireproof housing through the opening. The fireproof housing is positioned such that the opening is facing the drilling rig and sparks exiting the opening will ignite any flammable gases at the drilling rig.

A system for a spark plume generator system for igniting flammable gases at a drilling rig includes a support disposed within a fireproof housing proximate to the drilling rig. A grinder is mounted on the support. The grinder includes a rotatable grinder axle with an abrasive grinder surface and an igniter mounted on the support so as to cooperatively contact the grinder. The igniter includes an igniter surface that creates sparks when abraded. The fireproof housing includes an opening. Upon rotation of the grinder axle, the grinder surface abrades the igniter surface to create sparks. The support is positioned within the fireproof housing so that sparks created by the igniter surface exit the fireproof housing through the opening. The fireproof housing is positioned such that the opening is facing the drilling rig and sparks exiting the opening will ignite any flammable gases at the drilling rig.

An internal combustion engine with a piston having a piston head with a resonance cavity opening onto the head, and where a fuel nozzle located in a cylinder head is positioned to inject a fuel such as natural gas into the combustion chamber where resonance formed within the resonance cavity will ignite the fuel without the need of a spark plug. Inlet and exhaust ports in the cylinder head allow for air and combustion gas enter or leave the combustion chamber.

A system for starting a fire, that has a directional fire-starting device, having a front and a back, and a tube-shaped housing, defining a longitudinal dimension and further defining a slot extending longitudinally along the tube-shaped housing, the slot having a front end near to the front of the device, the tube-shaped housing further defining a flint chamber, having an open end at the front of the device. A flint is positioned inside the flint chamber and has a surface portion that extends adjacent to the slot. A striker has a first portion that is sized to fit through the slot and extend to the flint as a second portion extends from the slot outwardly from the tube-shaped housing, to be grasped by a user.

A modular survival tool including a tool body having a tomahawk axe selectively disposed on a top end thereof, a storage compartment therein, a pair of forward protrusions to which a pair of limb members forming a bow are selectively mounted for storage, a pair of angled rearward protrusions are disposed on a rear side of the tool body and the limb members attached thereto to form the bow, and a bow string attached to upper ends of the rearward protrusions. A modular arrow has connectable components stored within the storage compartment but assemble into an arrow for use with the bow. At least one arrow rest is disposed on one of a right side and a left side of the tool body to assist in aiming the arrow. A fire starting surface is disposed on a removable cap over the bottom end, which provides access to the storage compartment.

A modular survival tool including a tool body having a tomahawk axe selectively disposed on a top end thereof, a storage compartment therein, a pair of forward protrusions to which a pair of limb members forming a bow are selectively mounted for storage, a pair of angled rearward protrusions are disposed on a rear side of the tool body and the limb members attached thereto to form the bow, and a bow string attached to upper ends of the rearward protrusions. A modular arrow has connectable components stored within the storage compartment but assemble into an arrow for use with the bow. At least one arrow rest is disposed on one of a right side and a left side of the tool body to assist in aiming the arrow. A fire starting surface is disposed on a removable cap over the bottom end, which provides access to the storage compartment.

A smoking article is provided, including a combustible carbonaceous heat source having opposed front and rear end faces; an aerosol-forming substrate downstream of the rear end face of the combustible carbonaceous heat source; an ignitable composition provided on at least a portion of the front end face of the combustible carbonaceous heat source; and one or more airflow pathways along configured to allow air to be drawn through the smoking article for inhalation, the ignitable composition being configured to be ignited by striking the front end face on a frictional surface, and being isolated from the one or more airflow pathways such that air drawn along the one or more airflow pathways does not directly contact the ignitable composition.

A smoking article is provided, including a combustible carbonaceous heat source having opposed front and rear end faces; an aerosol-forming substrate downstream of the rear end face of the combustible carbonaceous heat source; an ignitable composition provided on at least a portion of the front end face of the combustible carbonaceous heat source; and one or more airflow pathways along configured to allow air to be drawn through the smoking article for inhalation, the ignitable composition being configured to be ignited by striking the front end face on a frictional surface, and being isolated from the one or more airflow pathways such that air drawn along the one or more airflow pathways does not directly contact the ignitable composition.

Trigger devices for igniting an exothermic reaction is provided. The trigger devices may be flint type trigger devices and electronic type trigger devices. The flint type trigger device has a housing with a spark opening on a rear wall of the housing. A mold mounting assembly is secured to an exterior of the rear wall of the housing. A motor assembly is secured to the inside of the rear wall of the housing. The motor assembly has a flint wheel attached to a shaft of a motor, where the flint wheel is located adjacent the spark opening. A flint assembly is positioned within the housing such that a flint of the flint assembly is in contact with the flint wheel. A controller positioned within the housing is configured to selectively activate the motor to cause the flint wheel to rotate against the flint to create one or more sparks that are ejected from the spark opening.

Trigger devices for igniting an exothermic reaction is provided. The trigger devices may be flint type trigger devices and electronic type trigger devices. The flint type trigger device has a housing with a spark opening on a rear wall of the housing. A mold mounting assembly is secured to an exterior of the rear wall of the housing. A motor assembly is secured to the inside of the rear wall of the housing. The motor assembly has a flint wheel attached to a shaft of a motor, where the flint wheel is located adjacent the spark opening. A flint assembly is positioned within the housing such that a flint of the flint assembly is in contact with the flint wheel. A controller positioned within the housing is configured to selectively activate the motor to cause the flint wheel to rotate against the flint to create one or more sparks that are ejected from the spark opening.