Abstract: A waste gas stream including halohydrocarbons is treated with a surface wave to form a cold plasma. Additional reaction gases can be mixed with the waste gas stream to improve the destruction of the halohydrocarbons. The apparatus for the treatment of gaseous halogenated organic and other persistent organic compounds includes a reaction vessel (12) in which the waste gas is exposed to the surface wave, thereby forming a non-thermal plasma. The apparatus further includes a means for mixing (7) the waste gases together with the appropriate ancillary reaction gases to facilitate formation of free radicals suited to treat a particular waste stream. Also, a means of introducing an appropriate mixture of waste gases and additive gases into the plasma reaction vessel where the halohydrocarbons are decomposed is provided. Since some reactions may produce solid material by-products that are not easily handled by suction pumps a means of trapping (13) these particles may be included in this apparatus.

Abstract: An audio selection circuit (10) having time selectable equalization, comprising a plurality of inputs (24, 26) for coupling the audio selection circuit to a plurality of audio signal sources, a variable equalization circuit (32) having an equalization input and an equalization output, the variable equalization circuit (32) providing variable attenuation in a plurality of frequency bands to an audio signal coupled to the equalization input, processing means (12) operatively coupled to the plurality of inputs (24, 26) and to the variable equalization circuit (32), memory means (12) operatively coupled to the processing means (12) and timebase means (14) operatively coupled to the processing means (12), the timebase means (14) enabling the processing means (12) to determine a time of day, wherein the processing means (12) is operative to couple one of the plurality of inputs (24, 26) to the equalization input and to vary the attenuation of the variable equalization circuit (32) when the time of day is equal to o

Abstract: An automatic revolution counting and data transmission device for measuring full or partial revolutions of a shaft, processing, storing, and transmitting said revolutions and related data. An embodiment of the invention as a hubodometer for measuring rotations of a wheel uses of a housing (1), printed circuit board (3) with all electronic circuitry for counting data, data storage, and two way data communication, and an anti-rotation device. A low power radio frequency transmitter and receiver are used to receive commands and to transfer stored data to a receiving unit which may be a portable battery-powered unit or a fixed-mount unit. Such data transfer by RF link eliminates the inherent problems associated with visual readout or optical data transfer from units located where dirt grime buildup is common.