Hitoshi Narita is a Japanese naval architect, researcher, businessman, and an International Fellow of the Royal Academy of Engineering[1] (FREng).
For a time, Narita was one of the Managing Directors of Mitsui Engineering and Shipbuilding Co. in the 1990s.[2] Dr. Narita is currently senior advisor for science and technology at the US Office of Naval Research's International Field Office, Asia. In this position, he coordinates partnerships between Japanese and American science and technology organizations. Dr. Narita played a significant role in steps which led to establishing Japan-US joint participation projects, which meant Japan's National Institute of Advanced Industrial Science and Technology (AIST), 2001.[3] began to partner with the US Naval Research Laboratory.[4]
Early life
editAs a child growing up in Nagoya, Japan, he recalls having been fascinated by large mobile structures—airplanes, ships, trains—anything which was large, mechanical, and moved. He believes that his career interests were sparked by having watched the large cargo ships coming in and out of the ports near his home.[4]
Education
edit- University of Tokyo, B.A. in Naval architecture.[4]
- Massachusetts Institute of Technology (Fulbright Scholarship), M.A. in Naval architecture.[4]
- University of Tokyo, Ph.D. in Engineering.[4]
Career
editAt Mitsui Engineering and Shipbuilding|Mitsui Engineering and Shipbuilding Co., Narita started out in ship design, and went on to work in research and development.[4]
Narita developed the world's first use of the catamaran-like design for large commercial ferries—the "small waterplane area twin hull" or SWATH configuration. The demonstrated stability and seaworthiness of these ferries led to the increased use of a similar vessel design in contexts, including naval ships, oceanographic survey ships, pleasure crafts and sightseeing boats.[4]
Narita lead the team developing the novel Mitsui Integrated Duct Propeller (MIDP), which was designed to increase fuels saving in large ships. The MIDP effectively mitigated the constant erosion caused by cavitation from the ship's propeller on the conventional propeller duct by moving the duct forward and by realigning a non-symmetrical duct adapted to the stern flow. The MIDP increased propeller efficiency and virtually eliminated the shipyard downtime which was formerly necessary for repairing the erosion problems. The substantial fuel savings has been demonstrated in over 200 ships, including all of Exxon's Very Large Crude Carriers. New ships have been incorporated MIDP in their design, and older ships have been retrofitted.[4]
In the 1990s, Narita was given broader responsibility for managing Research and Development, as well as business development at Mitsui Engineering & Shipbuilding. During this period, Japanese ocean-going shipbuilding industry has evolved into two distinct sectors and today's second tier or medium-sized firms build close to half the nation's output of large ocean-going vessels. Narita was well-positioned to monitor this diversification in the industry.[5]
In 2002, Narita's contributions to naval architecture—particularly the SWATH configuration and the MIDP assembly—were recognized by his election to Fellowship of the Royal Academy of Engineering, joining an elite group of only 86 other Foreign Members in the Royal Academy.[4] The Royal Academy of Engineering's 2002 "New Fellows' Dinner" took place at the Drapers' Hall, Throgmorton Street in London;[6] and pre-dinner photos commemorating this gala event were organized in the Drapers' formal Drawing Room.[7]
Honors
edit- International Fellow of the Royal Academy of Engineering[1] (FREng),[1] 2002.[4]
- National Medal of Honor (褒章, hosho), purple ribbon, 1990.[4]
- Medal of the Minister of Transport, 1989.[4]
- Medal of the Kanto District Marine Bureau, 1988.[4]
- Ichimura Prize, 1981.[4]
Notes
edit- ^ a b c d e "List of Fellows". Archived from the original on 2016-06-08. Retrieved 2014-10-28.
- ^ US, Securities and Exchange Commission: Mitsui, filing statement (199
- ^ Japan, National Institute of Advanced Industrial Science and Technology: AIST history
- ^ a b c d e f g h i j k l m n Office of Naval Research (US): "Prince Philip, Duke of Edinburgh admits Office of Naval Research engineer to United Kingdom's Royal Academy of Engineering," Archived 2007-07-13 at the Wayback Machine Press release. November 11, 2002.
- ^ Koenig, Philip C. et al. (2001). Strategies and outcomes in the two sectors of the Japanese shipbuilding industry, Journal of ship production. Vol. 17, No. 3, pp. 174-182.
- ^ Buckingham Palace. Court Circular. November 11, 2002.
- ^ The Drapers' Company: "Banqueting," the Drawing Room. Archived 2008-05-13 at the Wayback Machine -- click to see digitized image.
References
edit- Koenig, Philip C., Hitoshi Narita and Koichi Baba. (2001). "Strategies and outcomes in the two sectors of the Japanese shipbuilding industry, Journal of ship production. Vol. 17, No. 3, pp. 174–182. (published by the Society of Naval Architects and Marine Engineers)
- Narita, Hitoshi and Philip Koenig, "Austal Ships and Incat Australia: Shipbuilding Competitiveness via Product Differentiation and Focus"', Shipbuilding and Ocean Technology: Asia-Pacific Region. (published by the U.S. Navy, Office of Naval Research International Field Office in Tokyo).
- _______________. (1962). A Step Response Analysis of Damping and Virtual Inertia of a Pitching Ship. Cambridge: Massachusetts Institute of Technology Press. [OCLC 12965336]