Tetsuro Kajita 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).
Abstract: A ship that reduces the total amount of fossil fuels and other energy sources required, thereby saving energy. The ship (1) has a plurality of subsystems (10) constructed by dividing a network of power supply lines (3) and signal lines (4) into groups. The subsystems (10) consist of at least two subsystems among a bridge subsystem (10a) on the bridge; a propulsion subsystem (10b) in an engine room; a deck subsystem (10c) installed on a deck; a ballast cargo subsystem (10d) for ballasting and equipment installed in a hold; and an information processing subsystem (10e) corresponding to communication equipment. The subsystems (10) each have a storage battery (5) and a smart meter (6), each of which is linked to a microgrid monitoring and control system (2), which detects the amount of electric power consumed by the subsystems (10), and controls the transfer of electric power between the subsystems.
Type:
Grant
Filed:
December 9, 2011
Date of Patent:
May 27, 2014
Assignee:
Mitsui Engineering & Ship Building Co., Ltd.
Abstract: A ship that reduces the total amount of fossil fuels and other energy sources required, thereby saving energy. The ship (1) has a plurality of subsystems (10) constructed by dividing a network of power supply lines (3) and signal lines (4) into groups. The subsystems (10) consist of at least two subsystems among a bridge subsystem (10a) on the bridge; a propulsion subsystem (10b) in an engine room; a deck subsystem (10c) installed on a deck; a ballast cargo subsystem (10d) for ballasting and equipment installed in a hold; and an information processing subsystem (10e) corresponding to communication equipment. The subsystems (10) each have a storage battery (5) and a smart meter (6), each of which is linked to a microgrid monitoring and control system (2), which detects the amount of electric power consumed by the subsystems (10), and controls the transfer of electric power between the subsystems.