Abstract: A portable traffic signaling system includes a plurality of portable traffic signals, each of the portable traffic signals having a plurality of traffic lights and a stand having legs that fold for transport and unfold for deployment. A short range wireless traffic signal transceiver that communicates bidirectionally via a short range wireless communication link. A traffic signal processing module controls the operation of the plurality of traffic lights to at least: a stop condition, and a go condition based on control data, such as control data received from a remote control device via the short range wireless communication link.

Abstract: An electrical power generating system is connected to a sewer for conveying waste water to a sanitary treatment station. Waste water is propelled through the sewer line by pumping equipment which simultaneously pulverizes most large objects carried by the waste water. The waste water drives one or more water-operated turbines. The turbines are operatively connected to electrical power generators for producing electrical power and dispersing the power through an electrical power transmission system.

Abstract: An electrical power generating system is connected to a sewer for conveying waste water to a sanitary treatment station. Waste water is propelled through the sewer line by pumping equipment which simultaneously pulverizes most large objects carried by the waste water. The waste water drives one or more water-operated turbines. The turbines are operatively connected to electrical power generators for producing electrical power and dispersing the power through an electrical power transmission system.

Abstract: A method for selectively generating electrical power uses waste water gravity flow to generate electrical power. An electrical power generator is driven to generate electrical power in response to the waste. A portion of the electrical power generated by the at least one electrical power generator can be stored and tapped later to supplement the output of the electrical power generator. A portion of the waste water flow can be stored and tapped later to supplement the waste water flow.

Abstract: A method for selectively generating electrical power uses waste water gravity flow to generate electrical power. An electrical power generator is driven to generate electrical power in response to the waste. A portion of the electrical power generated by the at least one electrical power generator can be stored and tapped later to supplement the output of the electrical power generator. A portion of the waste water flow can be stored and tapped later to supplement the waste water flow.

Abstract: A self-sustaining electrical power generating system includes a spring system that stores stored energy, the spring system having an input for recharging the stored energy and an output for releasing the stored energy, wherein the spring system generates a monitor signal based on a status parameter of the spring system and wherein the spring system releases the stored energy in accordance with an output control signal. A generator converts the stored energy of the spring system into electric power. A spring recharge module recharges the stored energy of the spring system in response to a recharge control signal. A control module generates the recharge control signal and the output control signal, based on the monitor signal.

Abstract: A method for selectively generating electrical power by using waste water gravity flow to generate electrical power includes attaching ends of a water flow diversion pipe to a waste water pipe. At least some of the waste water flowing by gravity through the waste water pipe is diverted into and through the diversion pipe and back into the waste water pipe. An electrical power generator is driven to generate electrical power in response to the waste water flowing through the diversion pipe. At least a portion of the electrical power generated by the at least one electrical power generator is stored and can be tapped later to supplement the output of the electrical power generator.

Abstract: An environmental protective electrical power generating system is formed by a penstock connected at its opposite ends to a large sewer for conveying waste water from feeder pipelines to a sanitary treatment station. Sewer waste water is propelled through the sewer line by pumping equipment which simultaneously pulverizes most large objects carried by the waste water. The waste water is diverted, through a control gate, into the penstock where it flows through and operates one or more water-operated turbines. The turbines are operatively connected to electrical power generators for producing electrical power and dispersing the power through an electrical power transmission system. Depending upon the size of the sewer pipes, the volume of liquid flowing there-through, and the turbine and generator equipment, electrical power is generated without affecting the environment or ecology and without the use of fossil fuels.