Abstract: A tube for a tattoo machine has a tube portion and a grip portion. The tube portion has a first ink storage cavity, and the grip portion extends about the tube portion so that the proximal end, the distal end, and the sidewall of the grip portion cooperate with the tube portion to define a second ink storage cavity. The second ink storage cavity is in fluid communication with a needle receiving passage of the tube portion and at least a portion of the sidewall is flexible so that upon application of a compressive force on the flexible portion of the grip portion, a volume of ink is transferable from the second ink storage cavity, into the needle receiving passage, and into the first ink storage cavity.

Abstract: A tube for a tattoo machine has a tube portion and a grip portion. The tube portion has a first ink storage cavity, and the grip portion extends about the tube portion so that the proximal end, the distal end, and the sidewall of the grip portion cooperate with the tube portion to define a second ink storage cavity. The second ink storage cavity is in fluid communication with a needle receiving passage of the tube portion and at least a portion of the sidewall is flexible so that upon application of a compressive force on the flexible portion of the grip portion, a volume of ink is transferable from the second ink storage cavity, into the needle receiving passage, and into the first ink storage cavity.

Abstract: A solar powered landfill gas extraction system includes a fan module that extends into the landfill. A fan in the fan module evacuates methane gas from the landfill. The fan is battery powered, and an array of solar cells recharges the battery.

Abstract: A coupling having an integral orifice plate engages upstream and downstream segments of a landfill piping system. Upstream and downstream ports are respectively formed through the walls of the coupling adjacent the orifice plate. The difference in pressure at the ports is correlated to a flow rate through the pipe. Sensor fittings are threadably engaged with the ports, and to support the threadable engagement, the wall of the coupling through which the ports are formed has a thickness of at least around one-half inch.

Abstract: A coupling having an integral orifice plate engages upstream and downstream segments of a landfill piping system. Upstream and downstream ports are respectively formed through the walls of the coupling adjacent the orifice plate. The difference in pressure at the ports is correlated to a flow rate through the pipe. Sensor fittings are threadably engaged with the ports, and to support the threadable engagement, the wall of the coupling through which the ports are formed has a thickness of at least around one-half inch.

Abstract: A coupling having an integral orifice plate engages upstream and downstream segments of a landfill piping system. Upstream and downstream ports are respectively formed through the walls of the coupling adjacent the orifice plate. The difference in pressure at the ports is correlated to a flow rate through the pipe. Sensor fittings are threadably engaged with the ports, and to support the threadable engagement, the wall of the coupling through which the ports are formed has a thickness of at least around one-half inch.

Abstract: An automated, computer-controlled landfill condensate injection system includes a pump that pumps condensate into a flare chamber at a pressure that is sufficiently high and through a nozzle that is configured to vaporize the condensate without requiring the use of high pressure air injected with the condensate. Secondary injection lines can also be provided that terminate in nozzles which are vertically staggered from each other along the chamber, to inject additional condensate into the flare and thus dispose of it at a higher rate depending on vaporization conditions. Computer-controlled valves can be provided in the lines for selectively opening and closing the lines.

Abstract: An automated, computer-controlled landfill gas recovery system includes a number of equipment vaults, with each vault being associated with one or more wells in the landfill. The wells are in fluid communication with a piping system located in the associated vault, with the piping system including a main pneumatic control valve that can be adjusted to establish gas flow rate through the well or wells. Also, each vault includes a shielded enclosure that holds sensors and a local vault controller for generating signals representative of flow rate, vacuum, and oxygen/methane/carbon dioxide content of the gas being extracted from the well. These signals are sent to a remote computer. Based on the signals generated by the sensors, the computer communicates with each vault controller to control the pneumatic control valve of each vault to establish a gas flow rate from the associated well as appropriate to accord with one of several user-selected process control regimes.

Abstract: An automated, computer-controlled landfill gas recovery system includes a number of equipment vaults, with each vault being associated with one or more wells in the landfill. The wells are in fluid communication with a piping system located in the associated vault, with the piping system including a main pneumatic control valve that can be adjusted to establish gas flow rate through the well or wells. Also, each vault includes a shielded enclosure that holds sensors and a local vault controller for generating signals representative of flow rate, vacuum, and oxygen/methane/carbon dioxide content of the gas being extracted from the well. These signals are sent to a remote computer. Based on the signals generated by the sensors, the computer communicates with each vault controller to control the pneumatic control valve of each vault to establish a gas flow rate from the associated well as appropriate to accord with one of several user-selected process control regimes.