Patent Number: 044629540
Section: description

DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT Referring to FIG. 1 there is shown a pulsar reactor with embodiment of the present invention. The system comprises of a reactor (1) and magnetic filter (33) a liquid motor or turbine (2) a moderator cooling tank (3) and an energy cell (4). Those units combined assemble a nuclear power plant. The reactor is shown in detailed drawings in FIGS. 2 and 3. Mobile nuclear mass blocks (6) hanging on an upper pin (20) which tends to move by gravitational force mobile mass blocks to the center of reactor or cylinder (35) limited by a suction stud (14) which is installed in center of reactor cylinder to limit the arch of mobile mass blocks in position 1. In this position both mobile nuclear mass blocks make surface contact and thereby become supercritical to introduce nuclear reaction which will repulse both nuclear mass blocks from each other into position 2 shown in FIG. 3. When the mobile mass blocks move away from each other they extract fluid through oneway valve (15) in this movement fluid trapped in between the mobile mass blocks and stationary mass blocks (7) become pressurized and therefore accelerated through channels (11) thereby open oneway valves (13 and 15) to clear the way into pressure cell (12) via pressure supply pipe (29). In order to activate prime mover FIG. 1(2) when mobile mass blocks make contact with stationary mass blocks they also become super critical by repulsing mobile mass blocks back to first position. When nuclear mass blocks move towards first position the fluid filling the space in between mobile mass blocks in forced through a bypass channel (9) by lifting the valve ball (10) to fill the space in between mobile nuclear mass blocks (6) and stationary mass blocks (7) as shown in FIG. 2(8). In this fashion pendant radially outward movement of mobile mass block is used to pump and extract fluid out of storage tank (3) through the fluid circulation tank (22) inside energy cell (4) into reactor (1) and pumped it back through the movement of mobile mass blocks throughout the entire reactor system. To stop all nuclear reactions one has to turn spindle (17) which is connected with stationary nuclear mass blocks (7) outward as indicated in FIG. 1. At the same time two stopper pins FIG. 1(19) must be placed behind swing bars (18). This will keep the mobile mass blocks in a fixed position. The frequency of the movement of mobile mass blocks can be controlled by valve (16) or brake liners (34). The brake liners are installed around the pins of mobile nuclear mass blocks and can be adjusted by a screw or spindle as shown in FIG. 1(32) during operation the working fluid or moderator is used to activate a prime mover and at the same time to cool the interior of the nuclear reactor as an independent cooling system cools the housing of the nuclear reactor. This is accomplished through a copper tubing FIGS. 2-3(21) winding around the active part of nuclear reactor. This part is called primary coil. The secondary coil is installed inside the energy cell as shown in FIG. 1(23). High energy charged particles emanating during nuclear reaction are collected by the primary coil and transmitted to the secondary coild inside the energy cell. The copper coil is circulating by a conductive coolant. ENERGY CELL The energy cell is a hermetically sealed container FIG. 1(4) filled with an active solution. In center inside the energy cell is a tank installed (22). The tank acts as a cathode by having the working fluid or moderator circulating through it as the secondary coil of the coolant winds around it. This creates an electric inductive current between the secondary coil (23) and the circulation tank (22). The induction current can be tapped through contact bars (24) and contact (25). The active substance of the energy cell is pumped through a circulation pump (27) into an outside heat exchanger (28) for cooling purposes. The coolant of the reactor which circulates through a primary and secondary copper tubing is also kept in circulation through a circulation pump (26). The working fluid or moderator is circulated by the movement of mobile nuclear mass blocks. Energy charged particles emanating from the nuclear reaction are kept in orbit inside secondary cooling coil. The energy charged particles are emitted in intervals. This frequency is used to create galvanic energy made possible by applying heavy zinc plates against moderator circulation tank (22) or to coat the entire circulation tank (22) with zinc. The galvanic currency will exchange atoms from the copper tubing with atoms from the zinc plates on a vice versa base depending on the frequency of the nuclear impulses. The benefit obtained is to convert a uneven flow of current to an even flow of currency. I would like to state the introduction of the energy cell is not only an improvement of the present, but also an inspiration for future aspects. Throughout the electro magnetic net work system, condensers and transformers consuming a large amount of electro magnetic energy in form of resistance indicated by heat which radiates into space without useful purpose, but even worse during a nuclear burst electro magnetic pulses called EMP are emitted over a wide range in atmospheric space able to burn and explode condensers, transformers, computers, etc. The energy cell of the preent invention is immune against EMP. In fact, it would absorb additional energy and store it inside the active substance which will release the energy when needed. Therefore, the energy cell has a wide range of use. In another fact it should be made mandatory to deploy the energy cell in the utility net work systems to save energy and guarantee the consumer a steady energy supply even during a nuclear attack. THE LIQUID CYCLE OF THE WORKING FLUID It is to be recommended to use a very stable nuclear such as .sub.4 H.sup.2 as moderator in order to limit radiation and make a one step nuclear heat conversion possible. The pressurized fluid exiting the nuclear reactor will pass through a magnetic filter FIG. 1(33) to enter into prime mover (2). At the highest point of the pressure pipe (29) is a gas pressure tank (30) installed. The pressure tank will secure a steady pressure stage made possible through a gas cushion which collects gases out of the working fluid. A surplus of gases can be released through pressure relief valve (31). The working fluid coming out of prime mover (2) is callected inside a storage tank (3). The storage tank reduces the pressure by its increased volume and cooling effect into relaxed stage. The suction of the pulsar reactor made possible by the volume exchange introduced by mobile nuclear mass blocks and valve functioning will extract the working fluid out of storage tank (3) into circulation tank (22) and back into reactor (1) to be pressurized into prime mover (2). It is understood that nuclear radiation penetrating the system has to be shielded by radioactive repellent minerals. The drawings of disclosure does not include those protection shields since they differentiate in designs.