173 results about "Storage ring" patented technology
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A storage ring is a type of circular particle accelerator in which a continuous or pulsed particle beam may be kept circulating typically for many hours. Storage of a particular particle depends upon the mass, momentum and usually the charge of the particle to be stored. Storage rings most commonly store electrons, positrons, or protons.
This invention describes a system for generating multiple simultaneous tunable electron and photon beams and monochromatic x-rays for all field simultaneous radiation therapy (AFSRT), tumor specific AFSRT and screening for concealed elements worn on to the body or contained in a container. Inverse Compton scattering renders variable energy spent electron and tunable monochromatic x-rays. It's spent electron beam is reused for radiation with electron beam or to generate photon beam. Tumor specificradiation with Auger transformation radiation is facilitated by exposing high affinity tumor bound heavy elements with external monochromatic x-rays. Heavy elements like directly iodinated steroid molecule that has high affinity binding to estrogenreceptor in breast cancer and to iodinated testosterone in prostatecancer or with directly implanted nanoparticles into the tumor are exposed with tuned external monochromatic x-rays for tumor specificradiation therapy. Likewise, screening element's atom's k, l, m, n shell specific Auger transformation radiation generated by its exposure to external monochromatic x-rays is used to screen for concealed objects. Multiple beam segments from a beam storage ring or from octagonal beam lines are simultaneously switched on for simultaneous radiation with multiple beams. The beam on time to expose a tumor or an object is only a few seconds. It also facilitates breathing synchronized radiation therapy. The intensity modulated radiation therapy (IMRT) and intensity modulated screening for concealed objects (IMSFCO) is rendered by varying beam intensities of multiple simultaneous beams. The isocentric additive high dose rate from simultaneously converging multiple beams, the concomitant hyperthermia and chemotherapy and tumor specificradiation therapy and the AFSRT's very low radiation to the normal tissue all are used to treat a tumor with lower radiation dose and to treat a radioresistant and multiple times recurrent tumors that heave no other alternative treatments.
A single-pass heavy-ionfusion system includes a new arrangement of current multiplying processes that employs multiple isotopes to achieve the desired effect of distributing the task of amplifying the current among all the various processes, to relieve stress on any one process, and to increase margin of safety for assured ICF (inertial confinement fusion) power production. Energy and power of the ignition-driver pulses are greatly increased, thus increasing intensity of target heating and rendering reliable ignition readily attainable. The present design eliminates the need for storage rings. Further innovations are to give the HIF (heavy ion fusion) Driver flexibility to drive multiple chambers in the most general case of different total distances between the linac output and each of the various chambers. Using multiple chambers steeply decreases the pro-rata capital investment and operating costs per power production unit, in turn decreasing the cost of power to users.
The invention discloses a low-temperature automatic storage equipment and method for samples. The equipment comprises a sample collecting module, a low-temperature storage module, a sample rack and acontrol system. The sample collecting module is used for collecting samples entering the low temperature storage module on an automatic inspection assembly line and loading the samples in the low temperature storage module to the automatic inspection assembly line; the low temperature storage module is arranged at one end of the sample collecting module and is used for providing a low temperaturestable storage environment to the samples and transferring the sample rack according to a command of the control system; the sample rack is used for storing and transferring the samples; and the control system is electrically connected to the sample connecting module, the low temperature storage module and the sample rack, separately. The low-temperature automatic storage equipment achieves purposes of collecting and transferring the samples automatically, storing the samples at a low temperature and abandoning the samples automatically and abandoning the sample in a large batch manually.
An energy storage device is proposed that utilizes acceleration of particles to near relativistic velocities to store energy in the kinetic energy of accelerated particles. Designs and models are provided for a commercially feasible device that implements the concept. The device allows tremendous performance capabilities across many parameters including energy density. Multiple innovations are also proposed for methods to reconvert the kinetic energy of accelerated particles back to electricity. In addition, certain innovations are proposed for accelerated particlebeam control, beam particle designs and beam confinement rings. The device is different from existing particle collider storage rings in that it maximizes total beam energy, not energy per particle by accelerating particles to velocities substantially less than the speed of light. In addition, it includes innovations to meet the requirements of the commercial market with specific applications in markets such as grid level storage and energy storage for vehicles.
The invention relates to the technical field of plastic pipe cleaning, and discloses an economical and efficient PPR pipeline inner wall cleaning device that has a pipe body; evenly-distributed storage rings are fixedly embedded in the outer wall of a main base, an air bag is fixedly installed in the main base, a compressed spring is installed on the side, close to a boss, of a push plate; a firstmagnet and a second magnet are installed on the push plate and the boss respectively, idler wheels are installed on the outer wall of a guide rod, a baffle is fixedly connected to the bottom of a lifting plate, and a balance weight ball is installed at the main base. The main base is driven by the balance weight ball to fall in the pipe body; when encountering sundries, the idler wheel is extruded in, the airbag is squeezed by a top plate, so the baking soda powder is blown out from the storage rings and attaches on the sundries, waste of the baking soda powder can be greatly reduced, the amount of the blown baking soda powder can be changed according to the situation of the sundries, the larger the size of the sundries is, the larger the amount of the sprayed powder is, and therefore thepurpose that the baking soda powder is distributed on the sundries in a targeted mode is achieved.
The invention discloses a multifunctional precision dibbler. A movable plate with a step shaft sleeve is fixedly arranged on a shaft of a dibbler, wherein a seed guide plate with a seed guide groove is fixedly arranged on the plate surface of the movable plate; a tray is arranged on a thick-diameter shaft of the step shaft sleeve of the movable plate through a bearing; an inoculating plate which is fixedly arranged on the surface of the tray is in movable fit with the plate surface of the seed guide plate; the inoculating plate is fixedly connected with a fixed plate through a connected seed storage ring; a seed dropping hole is formed in the inoculating plate; a seed scooping plate is arranged on a thin-diameter shaft of the step shaft sleeve of the movable plate in movable fit; seed extracting spoons are evenly distributed on and fixedly connected with the circumference side of the seed scooping plate; the seed scooping plate is located in a seed storage chamber; the evenly distributed seed extracting spoons are respectively matched with the seed dropping hole of the inoculating plate in work; an expanding step hole is formed in an axle hole of the seed scooping plate; and the other end of a compression spring arranged in the step hole is matched with the fixed plate for forming the seed storage chamber. According to the multifunctional precision dibbler, precision seeding of a plurality of crops can be realized; the gaps between seeding components can be automatically adjusted; the phenomena of seed blockage and seed injuries are removed; the planting cost is reduced; and the service life of a machine tool is prolonged.
The invention relates to a system for a cascadecyclotron and a dual-cooling storage ring, which comprises an ion source (500) and a cooling storage ring (300) with a symmetric magnetic focusing structure, wherein the injection end of the cooling storage ring (300) with the symmetric magnetic focusing structure is connected with a sector-focusing cyclotron (100) or / and a separated sector-focusing cyclotron (200) through a first ion beam transport line (600); and the leading-out end of the cooling storage ring (300) with the symmetric magnetic focusing structure is connected with a cooling storage ring (400) with an asymmetric magnetic focusing structure through a second ion beam transport line (700). The system uses the cascade combination of one or more cyclotrons and a synchrotron storage ring which is used for improving the quality of ion beam currents and is provided with an ion cooling technical device and simultaneously uses the cooling storage ring of the ion cooling technical device, meets high-precision nuclear physics experiments and atomic physics experiments effectively, and can be applied to application research projects such as material radiation, proton-heavy ioncancer treatment and the like.
The invention discloses a cold region tunnel lining solar energy and ground source heat pump combined heat storage heating system and a cold region tunnel lining solar energy and ground source heat pump combined heat storage heating method. The cold region tunnel lining solar energy and ground source heat pump combined heat storage heating system comprises a solar energy heat collector, a ground source heat pump heat exchanger, a ground source heat pump device and a heat supplying pipeline, wherein the ground source heat pump heat exchanger is connected with the solar energy heat collector to form a heat storage ring road in surrounding rock at the middle portion of a tunnel and connected with the ground source heat pump device to form a heat taking ring road in the surrounding rock at the middle portion of the tunnel, and the heat supplying pipeline is connected with the solar energy heat collector to form a heat storage ring road in surrounding rock in the entrance section of the tunnel and connected with the ground source heat pump device to form a heat supplying ring road in tunnel lining in the entrance section of the tunnel. The ground source heat pump heat exchanger is installed in a hollow anchor rod inside the surrounding rock in the middle portion of the tunnel, and thereby underground drilling needed by a buried pipe of the traditional ground source heat pump is substituted, occupied area is not needed, initial investment is saved, solar energy in summer is stored in the surrounding rock in the tunnel around the heat exchanger and the heat supplying pipeline so as to be used for preventing the tunnel from being frozen, and the solar energy can be used of all season.