WO/2015/126237 OFFSHORE SUPPORT STRUCTURE AND METHODS OF INSTALLATION||WO||27.08.2015|
||PCT/MY2015/000010||OTM SOLUTION SDN BHD||JIM JIANXUN LI|
An offshore support structure for use in a body of water having a top side structure (110), a topside support caisson (114), a plurality of diagonal bracing members (116) and a plurality of water depth adjusters (118). Each water depth adjuster is attached to a mudmat (120) as a support foundation of the offshore support structure.
WO/2015/126238 HORIZONTAL HEAT EXCHANGER FOR THERMAL ENERGY STORAGE||WO||27.08.2015|
||PCT/MY2015/050005||UNIVERSITI MALAYA||MOHAMMED SARHAN, Ahmed Alydiaa|
The present invention discloses an energy storage device (100) consisting of a horizontal heat exchanger for the introduction of thermal energy into and removal of thermal energy from a phase change material, in which the phase change material is maintained in a stationery container and surrounds a horizontal finned-tube (102) of the heat exchanger. The energy storage device (100) of the present invention enhances saving energy of the energy storage device between 15% and 30%.10
WO/2015/122759 STEAM MANAGEMENT FOR STERILISATION OF FRESH FRUIT BUNCHES (FFB) IN A PALM OIL MILL||WO||20.08.2015|
||PCT/MY2015/000009||DOLPHIN APPLICATIONS SDN BHD||LOW TECK YIN|
This invention relates to a steam management system (1, 2, 3) and a method of steam management using the steam management system (1, 2, 3) so as to generate steam with pressure between 400,000 Pascal and 700,000 Pascal for sterilisation of FFB. In one embodiment (1), an ejector (50) is provided to allow mixing of steam generated from a boiler (10) with exhaust steam from a steam turbine (20) to generate steam with abovementioned pressure range for feeding into steriliser steam supply pressure vessel (40). In another embodiment (2), a self-acting control valve (80) is positioned on a pipeline between the boiler (10) and the steriliser steam supply pressure vessel (40) to regulate the steam pressure in the steriliser steam supply pressure vessel (40) to the abovementioned pressure range. In yet another embodiment (3), a pressure control valve (90) modulated by a controller (70) is positioned on a pipeline between the boiler (10) and steriliser steam supply pressure vessel (40) to regulate the steam pressure in the steriliser steam supply pressure vessel (40) to the abovementioned pressure range. The steriliser steam supply pressure vessel (40) supplies steam to one or more sterilisers. The system (1, 2, 3) may be further provided with a de-superheater assembly suitably positioned in the system (1, 2, 3) for spraying water to de-superheat the steam intended to be introduced into the steriliser. Alternatively, the water may also be sprayed directly into the steriliser to de-superheat the steam.
WO/2015/119493 CONVERTIBLE MOVABLE IV POLE||WO||13.08.2015|
||PCT/MY2014/000076||FOO, Ching, Chuan, Raymond||FOO, Ching, Chuan, Raymond|
Convertible movable IV stand provides for improve mobility of a person undergo IV therapy comprises of a light weight low central gravity IV carrier, height adjustable post and wheeled supporting base. The height adjustable post is releasably mounted erect on the wheeled supporting base and IV carrier is releasably mounted erect on the upper end of height adjusting post via a coupling device to form an integral unit which function as a conventional IV stand. IV carrier is adapted to carry on shoulder of user when it is detached from height adjusting post and height adjusting post is adapted as a walking stick when it is detached from wheel supporting base.
WO/2015/119494 A CABLE LOCK AND SEAL DEVICE||WO||13.08.2015|
||PCT/MY2015/000008||MEGA FORTRIS (MALAYSIA) SDN. BHD.||CHUA, Yuen Kam|
A cable lock and seal device comprising a body (10) and a cover (20) with which complementarily forms a block enclosing there within a passage (30) and a chamber (50). The body (10) is integral with a base (12) in which one end of a cable (14) may be secured. The other free end of the cable (14) may be inserted into the passage (30) which is preferably curved and traverses the assembled body-and-cover block. The chamber (50) is adapted with a ramp (52) rising towards the passage (30), a slot (54) for retaining a spring (56) which second end is disposed to urge a locking wheel (53) up the ramp (52) against said passage (30). The urging of the locking wheel (53) by the biasing means (56 or 58) up the ramp (52) is restrained when the locking wheel's axle (55) engages a rib (51) on the chamber wall to limit the wheel (53)'s further entry into the passage (30) upon sufficiently engaging said cable (14) and preventing its withdrawal by reversing its insertion.
WO/2015/112001 SYSTEM AND METHOD FOR ARBITRARY BIT PERMUTATION USING BIT-SEPARATION AND BIT-DISTRIBUTION INSTRUCTIONS||WO||30.07.2015|
||PCT/MY2015/000006||MIMOS BERHAD||MOHAMAD YUSRI, Bin Mohamad Yusof|
The embodiments herein disclose a system and method for arbitrary bit permutation. According to one embodiment a method involving log2 (n) instances of bit distribution (BDST) instruction and in another embodiment involving log2 (n) instances of bit separation (BSEP) instructions to perform an arbitrary bit permutation on a programmable processor is disclosed. In one instance of the embodiment, the permute instruction separates selected bits to one side in order and unselected bits to the other side in reverse order and in an another instance of the embodiment, the permute instruction distributes sequence of bits from one side to selected bit positions in order and sequence of bits from the other side to unselected bit positions in reverse order.
WO/2015/108407 A LIMB PROSTHESIS SUSPENSION SYSTEM||WO||23.07.2015|
||PCT/MY2014/000047||UNIVERSITI MALAYA||ABU OSMAN, Dr. Noor Azuan|
The present invention relates to a limb prosthesis suspension system, comprising: a liner (11) for receiving a limb (10); a socket (12) coupled to the liner (11); and characterized by: the socket (12) including an open end (13) for receiving the liner (11); an aperture (14) on a side of said socket (12); a strap (15) coupled to the socket (12) via the aperture (14) for engaging with the liner (11); wherein the strap (15) is optionally rotatable through said apertures (14); and wherein the liner (11) and the strap (15) are provided with complementary male (17) and female (18) fastening elements.
WO/2015/108409 AN INTEGRATED PROCESS FOR FRACTIONATION OF OIL PALM EMPTY FRUIT BUNCH AND CONVERSION OF THE CELLULOSIC SOLID TO ETHANOL||WO||23.07.2015|
||PCT/MY2015/050002||MALAYSIAN PALM OIL BOARD||LOH, Soh Kheang|
The invention relates to an integrated process for fractionation of oil palm empty fruit 5 bunch (EFB) to obtain cellulosic solid, hemicellulosic sugars and high-purity lignin, and conversion of the cellulosic solid to ethanol by enzymatic hydrolysis and microbial fermentation. The end-products of the disclosed integrated process comprises at least a cellulosic solid, hemicellulosic sugars, high-purity lignin and cellulosic ethanol. 10
WO/2015/108408 COMPOSITION COMPRISING OKRA FOR USE IN REDUCING DIETARY FAT ABSORPTION||WO||23.07.2015|
||PCT/MY2015/000004||INQPHARM GROUP SDN BHD||LAU, Kai Zhia|
Composition comprising (optionally processed) edible parts of an okra plant species for use in reducing dietary fat absorption in a subject or for use in treating or preventing obesity and/or for use in treating or preventing a metabolic disease such as metabolic syndrome, or for managing the weight of a subject, by binding dietary fat in the subject's stomach.
WO/2015/105407 A METHOD FOR PRODUCING NANOLIPID FORMULATION FOR SKIN CARE AND/OR REPAIR AND A NANOLIPID FORMULATION OF THE SAME||WO||16.07.2015|
||PCT/MY2015/000001||SIRIM BERHAD||UJANG, Zanariah|
There is disclosed a method for producing a nano lipid carrier system encapsulating Supercritical Fluid Extraction (SFE) extracts of Curcuma Xanthorriza with High Pressure Homogenization (HPH) technique for skin care and/or repair. The method utilizes a solid lipid and a liquid lipid encapsulating the supercritical fluid extract of Curcuma xanthorrhiza wherein the solid lipid includes cetyl alcohol and beeswax and the liquid lipid includes apricot kernel oil. The nano lipid formula is produced through the process of high pressure homogenization utilizing pressure in the range of about 305-815 Kg/cm (300-800 bar). The present invention also disclosed a nanolipid formulation for skin care and/or repair produced from the method and use of the same.