WO/2015/179881 GASIFICATION AND PYROLYSIS OPTIMIZATION SYSTEM FOR MEDICAL AND TOXIC WASTE||WO||26.11.2015|
||PCT/VN2015/000004||Nguyen Gia Long ||Nguyen Gia Long |
The present disclosure is directed to a treatment system for medical and toxic waste. The system comprises two parts, a heterogeneous gasification system, in which syngas is produced from non-homogeneous waste, and a pyrolysis system, in which medical and hazardous waste are pyrolyzed using the syngas produced from the heterogeneous gasification system. The heterogeneous gasification system comprises a gasifier reactor having a reactor zone connected with an ash distillation zone, a re-fueling structure, an open-top water tank that wraps around the entire bottom section of the gasification system, and a gasification-agent supply module having a supply-end connected to the bottom of the gasifier reactor and a demand-end connected to the pyrolysis system. The pyrolysis system comprises a rotatable pyrolysis reactor having a horizontal and hollow cylindrical shape, a pyrolyzed-ash precipitator, which is connected to the pyrolysis reactor zone, and a condenser connected to the pyrolyzed-ash precipitator.
WO/2015/157782 SELF-CONTAINED KIT FOR PREPARING A BEVERAGE||WO||15.10.2015|
||PCT/VN2015/000005||TRAN, Quan Long||TRAN, Quan Long|
The present invention relates to a self-contained kit for preparing a beverage, comprising: a drinking vessel; a substance carrying at least one beverage ingredient; and a filter to hold the substance, positionable over an interior part of the vessel, so as to allow the or each ingredient to be extracted into liquid poured into the filter and collection in the vessel of the ingredient- containing liquid draining from the filter. The invention also relates a method of making a beverage.
WO/2015/154101 EXTRACTING-SQUEEZING-COMPRESSING EQUIPMENT USED FOR MUNICIPAL SOLID WASTE MIXTURE||WO||08.10.2015|
||PCT/VN2015/000003||NGUYEN, Gia Long||NGUYEN, Gia Long|
The present disclosure encompasses a machine for extracting, squeezing, compressing and compacting a mixture of municipal solid waste to provide both an organic-rich liquid and solid RDF pellets, separately. The machine comprises a stepless hydraulic power transmission module and a press and squeeze compression module. The body of the machine comprises a waste-inlet on one end, followed by a water separation zone, a wet organic substance pressing zone, a heat and steam pressing zone, and an RDF molding and pelletizing zone. The machine also comprises a press-and-squeeze shaft having a conical cylindrical shape with an ascending diameter including a shaft body and a helix screw. The helix screw with multi-spiral forward steps and multi-spiral backward steps, with the spiral steps (distance between and among them) becoming smaller toward the bigger end of the body.
WO/2015/154100 WTE-PROCESS AND RENEWABLE ENERGY OPTIMIZATION SYSTEM||WO||08.10.2015|
||PCT/VN2015/000002||NGUYEN, Gia Long||NGUYEN, Gia Long|
The present disclosure encompasses systems, machinery, and processes for handling municipal, solid waste mixtures through which this material is recycled into renewable energy. The system comprises three processes: a waste handling process, a recycling and transforming process that converts the waste into fuel, and an energy renewal process. The waste handling process includes collection, sorting, an sizing of the mixed waste; the recycling and transforming process converts collected material into RDF (refuse derived fuel) pellets, and the energy renewal process comprises decomposition of mixture rich in organic matter using biogas / anaerobic technology to collect methane gas and biogas residues, and gasification of the solid RDF pellets, converting them into renewable energy and synthetic carbon.
WO/2015/113075 YIN-YANG BRICK||WO||30.07.2015|
||PCT/VN2014/000003||NGUYEN VAN NAM||NGUYEN VAN NAM|
This new type of brick is called Yin - yang brick. This product is researched and produced in order to overcome the limit of the traditional bricks produced previously. With such different details (convex semicircular brick rib & concave brick chute) and masonry mortar, persistent binding among the bricks in the wall will be obtained. Additionally, the binding of the bricks in the wall will be increased thanks to the notches arranged along the brick chute and on the brick rib. Compared with the traditional brick, using Yin - yang brick, masonry mortar will be saved, execution period will be reduced, labor productivity will be increased, operation will be easier and simpler than traditional one. If such product is used, socio-economic meaning will be high because production cost is not higher than the traditional product. Using Yin - yang brick masonry mortar will be saved significantly, which makes contribution to the environmental protection.
WO/2015/066735 GLASS SUBSTRATE FOR MAGNETIC DISK AND MAGNETIC DISK FOR HEAT ASSISTED MAGNETIC RECORDING||WO||07.05.2015|
||PCT/VN2013/000012||HOYA GLASS DISK VIETNAM II LTD.||YOSHIDA, Masayoshi|
It is to provide a glass substrate for a magnetic disk to be a source of a magnetic disk for heat assisted magnetic recording and a magnetic disk for heat assisted magnetic recording which can restrain the occurrence of scratches when a magnetic head is in operation. A glass substrate for a magnetic disk to be a source of a magnetic disk for heat assisted magnetic recording includes a principal face on which an arithmetic average waviness Wa of a wavelength band of 1 to 3 mm is 2.15 Å or less.
WO/2015/024028 SELF-PROPELLED MAGNETIC MOTOR OR ENGINE||WO||19.02.2015|
||PCT/VN2013/000011||DO ANH TAI||DO ANH TAI|
A self-propelled motor or engine that uses a permanent magnet to operate continuously without any external supply of force or fuel to create continuous motion, comprising a cylinder system and a transmission system, wherein the cylinder system comprises a cylinder cage, an energy resource unit and a piston, and wherein the transmission unit is made of metals such as copper, characterised in that the piston move upwards due to magnetic attraction to the energy resource unit, and that the spring is used to push a lid and hence the piston down after the piston collides with the lid.
WO/2014/201475 RING MAIN UNIT||WO||18.12.2014|
||PCT/VN2014/000002||HO, VIET THONG||HO, VIET THONG|
The invention relates to an electrical three-phase medium voltage ring main unit, wich has a sealed shell containing insulating gas and three terminals, of which: two input terminals for electrical-connection to both sides "a" and "b" of power source, and one output terminal for electrical-connection to one branch. Inside the said sealed shell, there are twoo switches; protector and earthing switch, the first switch is a load-break switch electrical-connected directly between two said input terminals, and the second switch is a transfer-switch electrical- connected between one output terminal and the twoo input terminals, all switches and circuit breakers or fuses are so arranged vertically. The ring main unit according to the invention is smaller than the known ring main unit and low-cost manufacturing.
WO/2014/169300 NON-TOXIC CROSS-LINKER FOR HALYURONIC ACID||WO||16.10.2014|
||PCT/VN2013/000003||BUI, The Duy||BUI, The Duy|
Systems and methods are disclosed for cosmetic augmentation by storing a non-toxic biocompatible cross-linker; storing a biocompatible polymer having a multiphase mixture with a predetermined controlled release of selected pharmaceutical substance to modulate soft tissue response to the polymer; mixing the biocompatible cross-linker and polymer into a mixture; injecting the mixture into a patient and during or after injection, cross-linking the polymer in the patient; and augmenting soft tissue with the biocompatible cross-linked polymer.
WO/2014/169298 TIMING CONTROLLED IN-SITU CROSS-LINKING OFHALYURONIC ACID DURING INJECTION||WO||16.10.2014|
||PCT/VN2013/000001||BUI, The Duy||BUI, The Duy|
Systems and methods are disclosed for cosmetic augmentation by forming a biocompatible cross-linked polymer having a multi-phase mixture with a time release catalyst; injecting the mixture into a patient as a viscous fluid; after injection, activating the catalyst to cross-link the polymer after a predetermined period after injection into a patient; and augmenting soft tissue with the biocompatible cross-linked polymer.