Patents by Inventor Mohammed HOSSAIN

Mohammed HOSSAIN has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Ideal Liquid Compression Refrigeration Cycle
    Publication number: 20180045440
    Abstract: Liquid compression refrigeration cycle (LCRC) is a new cycle, that can be applied in the refrigeration and heat pump applications, this cycle has achieved the coefficient of performance of the reversed Carnot cycle, unlike the vapor compression cycle, where a clear deviation from the reversed Carnot cycle is appeared in it's ideal case, these deviations from the reversed Carnot cycle have been solved in the Liquid Compression Cycle (LCRC) to achieve a thermal efficiency more than the Vapor Compression Cycle (VCRC) efficiency.
    Type: Application
    Filed: August 25, 2017
    Publication date: February 15, 2018
    Inventor: Khaled Mohammed HOSSAIN
  • ACOUSTIC FLUID MACHINE
    Publication number: 20080041658
    Abstract: In an acoustic resonator, an actuator allows a piston to reciprocate axially at very small amplitude at high speed. Owing to pressure fluctuation in the acoustic resonator involved by reciprocal motion of the piston, fluid is sucked into and discharged from the acoustic resonator via a valve device at the top end of the acoustic resonator. The acoustic resonator is covered with a gas guide with a space. The valve device is cooled by a fan at the top end of the gas guide.
    Type: Application
    Filed: October 19, 2007
    Publication date: February 21, 2008
    Applicant: ANEST IWATA CORPORATION
    Inventors: Masaaki Kawahashi, Tamotsu Fujioka, Mohammed Hossain, Masayuki Saito
  • Acoustic compressor with two resonators
    Publication number: 20060213720
    Abstract: A resonator of an acoustic compressor is provided at each side of an actuator so that the two resonators are arranged side by side. Two pistons are provided at the inner ends of the resonators and actuated by the actuator. At the outer end of the each of the resonators, a gas is introduced into the resonator through a suction hole. When the pistons are actuated by the actuator, the gases in the two resonators are oscillated and compressed by the piston and discharged through discharge holes at the outer ends of the resonators.
    Type: Application
    Filed: March 23, 2006
    Publication date: September 28, 2006
    Inventors: Masaaki Kawahashi, Mohammed Hossain, Tamotsu Fujioka
  • ACOUSTIC FLUID MACHINE
    Publication number: 20060054383
    Abstract: A piston is reciprocated axially at high speed at very small amplitude by an actuator in the larger-diameter base of an acoustic resonator. According to pressure fluctuation in the acoustic resonator involved by reciprocal motion of the piston, fluid is sucked into and discharged from the acoustic resonator via a valve device at the top end of the acoustic resonator. The acoustic resonator is contained in a gas guide. Fluid from the valve device is introduced into the gas guide to cool the valve device.
    Type: Application
    Filed: September 8, 2005
    Publication date: March 16, 2006
    Applicant: ANEST IWATA CORPORATION
    Inventors: Masaaki KAWAHASHI, Tamotsu FUJIOKA, Mohammed HOSSAIN, Masayuki SAITO
  • ACOUSTIC FLUID MACHINE
    Publication number: 20060054382
    Abstract: In an acoustic resonator, an actuator allows a piston to reciprocate axially at very small amplitude at high speed. Owing to pressure fluctuation in the acoustic resonator involved by reciprocal motion of the piston, fluid is sucked into and discharged from the acoustic resonator via a valve device at the top end of the acoustic resonator. The acoustic resonator is covered with a gas guide with a space. The valve device is cooled by a fan at the top end of the gas guide.
    Type: Application
    Filed: September 6, 2005
    Publication date: March 16, 2006
    Applicant: ANEST IWATA CORPORATION
    Inventors: Masaaki KAWAHASHI, Tamotsu FUJIOKA, Mohammed HOSSAIN, Masayuki SAITO