Abstract: A self-regulating inherently safe apparatus for generating neutrons is described herein that includes a reaction chamber that sustains neutron generation when filled with a liquid fissionable material and an expansion chamber that dampens neutron generation from the liquid fissionable material in response to expansion of the liquid fissionable material into the expansion chamber. Consequently, the apparatus may substantially dampen neutron generation for operating temperatures above a nominal operating temperature without requiring active or external control and inherently limit neutron generation to a maximum desired output power. Also described herein is a self-regulating system and corresponding method for extracting energy from fissionable material that includes a neutron generator that generates neutrons from a liquid fissionable material and a sub-critical collection of fissionable material that generates a non-sustaining plurality of fission events from neutrons received from the neutron generator.

Abstract: A self-regulating inherently safe apparatus for generating neutrons is described herein that includes a reaction chamber that sustains neutron generation when filled with a liquid fissionable material and an expansion chamber that dampens neutron generation from the liquid fissionable material in response to expansion of the liquid fissionable material into the expansion chamber. Consequently, the apparatus may substantially dampen neutron generation for operating temperatures above a nominal operating temperature without requiring active or external control and inherently limit neutron generation to a maximum desired output power. Also described herein is a self-regulating system and corresponding method for extracting energy from fissionable material that includes a neutron generator that generates neutrons from a liquid fissionable material and a sub-critical collection of fissionable material that generates a non-sustaining plurality of fission events from neutrons received from the neutron generator.

Abstract: A linear internal combustion engine is disclosed having a cylinder defining an intake port proximate a first end thereof and an exhaust port proximate a second end thereof. First and second pistons insert into opposite ends of the cylinder. Each piston is coupled to an actuator/generator, such as a linear switched reluctance motor. The actuator/generators are coupled to a control unit which controls the actuator/generators and extracts energy therefrom. The control unit causes the actuators to move the pistons through a fluid handling process, such as pumping, compression, or a four cycle combustion process coupled with a recovery phase. The pistons are positioned over the intake and output ports to seal them off at proper times during the fluid handling process.

Abstract: A linear motor or generator includes a cylinder having left, center, and right magnetic portions interposed with left and right magnetic gaps, a left and a right induction coil axially wound around a longitudinal axis of the cylinder, and a flux bridge that magnetically couples the center magnetic portion to the left and right magnetic portions. The motor or generator also includes a flux modulating piston comprising a soft magnetic material for increasing magnetic flux circulation in the left flux path when the piston overlaps with the left magnetic gap and for increasing magnetic flux circulation in the right flux path when the piston overlaps with the right magnetic gap. The left and right magnetic portions of the cylinder may be made of a soft magnetic material that promotes magnetic flux.

Abstract: A linear internal combustion engine is disclosed having a cylinder defining an intake port proximate a first end thereof and an exhaust port proximate a second end thereof. First and second pistons insert into opposite ends of the cylinder. Each piston is coupled to an actuator/generator, such as a linear switched reluctance motor. The actuator/generators are coupled to a control unit which controls the actuator/generators and extracts energy therefrom. The control unit causes the actuators to move the pistons through a fluid handling process, such as pumping, compression, or a four cycle combustion process coupled with a recovery phase. The pistons are positioned over the intake and output ports to seal them off at proper times during the fluid handling process.

Abstract: A system and method are disclosed for environmental stabilization of a body of water. A body of water is stabilized by extracting water from a higher elevation body of water at a downhill flow rate, receiving the water at lower elevation body of water, and extracting water from the lower elevation body of water to a higher elevation body of water or the like at an uphill flow rate. In certain embodiments, the invention may also include extracting energy from the downhill flow rate and using at least a portion of the energy to generate an uphill flow rate. The system and method may also include temporarily adjusting the downhill and uphill flow rates in preparation for a high demand interval.

Abstract: A massively parallel vector computer comprises a set of vector processing nodes, each node including a main processor for controlling access to a random access memory through an internal bus and a set of ports for interfacing external busses to the internal bus. The external busses interconnect pairs of nodes to form a network through which data may be transmitted from the random access memory in any one node to the random access memory in any other node in the network. Each vector processing node also includes a vector memory accessed through a local bus, the local and internal busses communicating via an additional port controlled by the main processor. A vector processor within each node performs operations on vectors stored in the vector memory and stores the results in the vector memory. A peripheral processing network comprises a set of peripheral processing nodes interconnected via further busses, and wherein selected peripheral processing nodes are coupled to selected vector processing nodes.