39results about How to "Achieve blending" patented technology

The invention provides a combined fuel oil atomizing, evaporating and combusting device for a gas turbine, relates to an air inlet device of the gas turbine, a fuel oil atomizing, evaporating and blending device, and core technology of organized combustion and stable flame, and belongs to the power field of an aeronautic power propulsion system and a ground gas turbine. A nozzle 1 is arranged at a central position of an inlet of a premixing chamber 2; an evaporator 3 is fixed in an inner cavity of the premixing chamber 2; double cyclones 4 are arranged at the inside of the outlet end of the premixing chamber 2 and connected hermetically; a centrifugal nozzle 5 is arranged at a central position of the double cyclones 4; a venturi 6 is welded at a transition position of an outlet of internal and external cyclones of the double cyclones 4; a sleeve 7 is hermetically welded with the outside of an outlet of the premixing chamber 2; and the head of a combustion chamber 8 is hermetically welded with the sleeve 7. Compared with the prior fuel oil combined nozzle, the device has the advantages of improving properties of fuel oil atomizing, evaporating and blending and evenness of oil-gas space distribution, improving combustion performance, shortening flame length and reducing discharge of pollutant, and is a comparatively ideal combined fuel oil atomizing and combusting device for a high-performance gas turbine.

The invention relates to a method for producing hemp high-count yarns and folded yarns through Siro-spinning or Sirofil-spinning. The method is characterized by comprising the following steps of: after boiling off and bleaching hemp roving, feeding the hemp roving together with water-soluble vinylon roving, a single yarn or a continuous yarn into a wet spinning frame to realize blending; after obtaining blended yarns of hemp/water-soluble vinylon, boiling and dissolving the blended yarns in aqueous solution to remove vinylon fibers so as to obtain the hemp high-count yarns; and reversely plying and twisting the blended yarns to form the folded yarns, then removing the vinylon to obtain the hemp high-count folded yarns, or reversely plying and twisting the blended yarns after removing the vinylon to obtain the hemp high-count folded yarns. The method can adopt conventional hemp fibers to spin the high-count pure hemp yarns and folded yarns, thereby solving the current problems that the conventional high-quality hemp raw materials deficient and the hemp high-count yarns are limited within 36 to 60 metric counts, and realizing the development of hemp products toward high count, high grade and species diversity.

The invention provides a method for producing linen wet spinning high count yarns and plied yarns, which is characterized by comprising the following specific steps of: after boiling linen lines or linen tow rough yarns off and bleaching, feeding the processed linen lines or linen tow rough yarns and water-soluble vinylon rough yarns on a wet spinning frame jointly for mixing to obtain blended yarns of linen/water-soluble vinylon; boiling the blended yarns in aqueous solution, and dissolving and releasing vinylon fibers to obtain pure linen high count yarns; and stranding and twisting the blended yarns reversely to form plied yarns, and releasing vinylon to obtain linen high count plied yarns or releasing the vinylon of the blended yarns, and stranding and twisting to obtain the linen high count plied yarns. In the method, the pure high count linen yarns and the plied yarns can be spun by the conventional linen fibers, so the problems that the conventional high-quality linen raw materials are deficient and the linen high count yarns are limited within the range of between 36 and 60 metrical yarn counts are solved, and the development of high count, high grade and variety diversification of linen products is realized.

The invention relates to the field of chemical materials, in particular to a chlorinated butyl rubber and silicone rubber blended material applied to a body material of a gas mask body. The chlorinated butyl rubber and silicone rubber blended material is prepared from, by weight, 50-100 parts of chlorinated butyl rubber, 5-50 parts of silicon rubber, 30-50 parts of intermediate super abrasion furnace black n220, 20-40 parts of high abrasion furnace black n330, 5-15 parts of zinc oxide, 1-10 parts of magnesium oxide, 0-10 parts of accelerator TT, 2-10 parts of accelerator ZDC, 1-10 parts of vulcanizer DCP, 2-8 parts of stearic acid, 2-12 parts of antioxidant methylene 4426 and 2-10 parts of anti-aging agents MB. The blended material has good gas defense performance, biocompatibility is improved due to the addition of silicon rubber, and the wearing comfort is improved on the premise that the protection performance is ensured.

The invention discloses a PVC (polyvinyl chloride)/styrene polymer alloy. The alloy is characterized by being prepared from the following raw materials in percentage by weight: 50-95% of PVC resin, 3-30% of styrene polymer, 0.2-6% of catalyst, 0-10% of addition agent and 1.5-4% of heat stabilizer. Besides, the invention also discloses a preparation method of the PVC/styrene polymer alloy. The PVC/styrene polymer alloy material has the following advantages: not only are the defects of the existing extra compatilizer overcome, but also the alloying of PVC and styrene polymer is simpler and more convenient; anhydrous aluminium chloride, anhydrous ferric chloride or anhydrous stannic tetrachloride is taken as the catalyst; the reaction mixing/extrusion in-situ compatibilization technology is adopted, thus realizing the blending of PVC and styrene polymer; and the polymer alloy material can improve the flame retardance of the styrene polymer while reinforcing and toughening the PVC, and has industrial application prospects.

The invention discloses a method of using glufocinate byproduct waste residue to prepare aluminum hypophosphite. The method includes following steps: (1), slowly adding a glufocinate industrial byproduct into water, sufficiently stirring, filtering to remove filter residue, and taking filtrate for standby use; dissolving sodium hypophosphite in water to prepare a sodium hypophosphite solution, and adding hydrochloric acid to adjust pH value of the sodium hypophosphite solution to 3-6; (2), taking the filtrate and the sodium hypophosphite solution according to a reactant molar feeding ratio of sodium hypophosphite to aluminum chloride being (4-5):1; (3), putting the sodium hypophosphite solution in a container provided with a snake-shaped condensing pipe, heating to 30-50 DEG C, and dropwise adding the filtrate while stirring at a high speed; after dripping of the filtrate is finished, finishing reaction while slowly stirring; (4), subjecting a reaction product obtained in the step (3) sequentially to separating, washing and drying to obtain powdery white solid which is a product containing aluminum hypophosphite. Therefore, by optimizing the process of using the glufocinate byproduct waste residue to prepare aluminum hypophosphite, a reaction system has the advantages of mild reaction and high reaction rate.

The invention discloses a channel external type distributor anode integrated structure for a low-power hall thruster. The channel external type distributor anode integrated structure comprises a gas guide column, a fixing column, a gas inlet chamber, a single-row hole chamber, a double-row hole chamber and a channel chamber. The gas guide column is inserted into a through hole in the gas inlet chamber, and the gas guide column is stably connected with the gas inlet chamber in an electron beam welding mode. The fixing column is inserted into a through hole in the gas inlet chamber, and the fixing column is stably connected with the gas inlet chamber in an electron beam welding mode. The single-row hole chamber is inserted into the gas inlet cavity, and the stable connection between the gasinlet cavity and the single-row hole chamber is achieved in an electron beam welding mode. The double-row hole chamber is inserted into the single-row hole chamber, and the stable connection between the single-row hole chamber and the double-row hole chamber is achieved in an electron beam welding mode. The channel chamber is inserted into the double-row hole chamber, and the stable connection between the double-row hole chamber and the channel chamber is achieved in an electron beam welding mode.

The invention relates to a device for mixing LNG fuel into a methane electric generator set. The device comprises a main methane conveying pipe, an LNG storage tank, a heat exchanger and an LNG gasification device. The heat exchanger is arranged inside the main methane conveying pipe. The heat exchanger is provided with an LNG inlet and an LNG outlet. The LNG inlet is communicated with the LNG storage tank through a first pipeline. The LNG outlet is communicated with the LNG gasification device through a second pipeline. The LNG gasification device is arranged on the main methane conveying pipe. The LNG fuel mixing can be achieved. When the methane concentration is fluctuated around 8%, the existing methane electric generator set can be fully utilized, and the utilization ratio of the device is improved. When the methane concentration is lower than 8%, the methane can be fully utilized, and the utilization space and the utilization ratio of the fuel are improved. Meanwhile, deep separating can be carried out on water which is in a free state and inside methane gas by the heat exchanger, and the electric generating efficiency of the electric generator set is favorable to be improved.

The invention discloses a hydraulic self-driven anti-drag slime diluting and releasing device which is composed of a slime nozzle, a diluting and mixing cavity, a stirring rod and a releasing nozzle.The electromagnetic flowmeter is mounted on the water inlet pipe; the dilution mixing cavity is positioned at the rear part of the water inlet pipe; the diluting and mixing cavity and the release nozzle are connected into an integrated structure; the release nozzle is of a reducing section, wherein the stirring rod is located in the diluting and mixing cavity and connected to the diluting and mixing cavity through a bearing, the slime nozzle is fixed in a through hole in the front portion of the diluting and mixing cavity and is in interference fit with the through hole, and the slime nozzle is used for spraying resistance-reducing thick slime to be mixed and diluted with inflow water. The diluting and mixing cavity is self-driven by inflow water force to realize uniform mixing, the designof the stirring rod prevents the macromolecular chain of the drag reduction slime from being broken during stirring and mixing, and the drag reduction effect is lasting and effective. The anti-drag slime diluting and releasing device can realize dilution, blending and spraying of the anti-drag slime by sharing one diluting and blending cavity, is simple in structure and has relatively high engineering application value.

The invention discloses a thickened oil blending-light mixed tool. The thickened oil blending-light mixed tool includes an outer tube, an injection pipe, a support block, a first joint and a second joint; the first joint and the second joint are separately connected to two ends of the outer tube, the outer tube is sleeved with the injection pipe, and two ends of the injection pipe is closed; the perimeter wall, close to the first joint, of the injection pipe is provided with a thin oil inlet which is used for passing of thin oil into the injection pipe, the perimeter wall, close to one end ofthe second joint, of the injection pipe is provided with a jet hole which is an annular gap formed between an outer tube and an inner tube, and the gap allows the thickened oil to enter from the firstjoint and to flow in the direction of the second joint; the thin oil enters the injection tube from the thin oil inlet and flows in the direction of the jet hole to be ejected from the jet hole, a first-time mixing of the thin oil and the flowed thickened oil is carried out, and mixed oil enters the second joint for a second-time mixing. According to the thickened oil blending-light mixed tool, the thin oil and the thickened oil can be fully mixed, the thin oil consumption is reduced, so that the effect of reducing the energy consumption can be achieved.

The invention relates to an mohair blended knitting yarn and processing technology thereof, wherein the yarn is 82NM/2 strands, comprising 60% of mohair, 40% of silkete Australian wool. The process includes: (1) pre-spinning: wool moisture regaining for 36 hours, with a moisture regaining rate of 24%, adding a fearnaughting oil to make the oil content in wool at 1%, the fearnaughting oil having proportion of antistatic agent:oil:water:cohesive force reinforcing agent at 0.5:1:8:1; (2) spinning: drafting for 19 times, with the speed of the fly frame at 7000r/min, single twist at 880T/M; (3) post-spinning, wherein an electronic yarn cleaner is provided for the winding, and yarns are spliced under air pressure between 0.6-0.8 Mpa. Advantages of the invention is that: (1) blended knitting of mohair with other fibers is implemented, and technological guarantee is provided for expanding application scope of mohair; (2) the product combines excellent characteristics of the two fibers, lowers cost, and enhances performance/cost ratio thereof in the mean time; (3) the product is suitable for manufacturing high class clothing and ornament, having great cost advantage and market prospect.

The invention discloses a starch-base foam material and a preparing method thereof. Compared with an extrusion foaming preparing technology of a starch-base foam material, a mold pressing foaming technology is simple, a surface layer has the high density, multiple holes exist in the starch-base foam material, and the starch-base foam material with the complex shape can be prepared; in addition, starch plastifying, component blending and material forming are achieved through an internal mixer and an open mill with the technology method for preparing the foam material through rubber, the novel preparing method for the starch-base foam material is researched and obtained, and the application range of the starch-base foam material is widened.

The invention relates to ultra-low concentration gas safety mixing device and method. The device comprises an inlet flange, an inlet pipeline, a narrow-down pipeline, an outlet pipeline and an outletflange which are communicated in turn, wherein the inlet pipeline and the outlet pipeline are conventional pipelines with equal diameter; the diameter of one side, connected with the inlet pipeline, of the narrow-down pipeline is the same as that of the inlet pipeline, and the diameter of one side connected with the outlet pipeline is small; the diameter of the pipeline at the joint between the narrow-down pipeline and the outlet pipeline changes suddenly; a circle of annular pipeline is arranged on the outer wall of the narrow-down pipeline; a circle of gap communicated with an inner cavity of the annular pipeline and an inner cavity of the narrow-down pipeline is arranged at the sealing joint between the annular pipeline and the narrow-down pipeline; the gap sprays high-concentration gasinto the flowing low-concentration gas for mixing. The invention provides a method for adjusting the mixing proportion according to the output gas concentration; according to the method, the concentration of the gas output by the mixing is stabilized at about 1.2%, and explosion is prevented; moreover, regular accuracy correction can be performed on the system.