Research |
Period |
Researcher(s) |
Overview |
Plan |
2002 |
35. Improving transmission of boiling and condensational
heat applying a radiation catalyst |
5 |
2 |
K. Takamasa T. Hakutsu |
It has been clarified that the efficiency of heat transmission
and especially limited heat flow is remarkably improved by a radiation catalyst
applying a oxidize semiconductor membrane. By applying this theory, boiling and
condensational heat transmission is improved. |
36. Cleaning the surface of pipes by applying
a radiation catalyst |
5 |
1 |
K. Takamasa T. Hakutsu |
Based on the theory that a radiation catalyst using an oxidized
semiconductor membrane prevents the accumulation of scale and keeps the inside
of pipes clean, heat transmission pipes inside nuclear reactors and boilers are
developed. |
37. Measuring liquid speed under a free surface
three dimensionally by applying picture image analysis and LED |
4 |
4 |
K. Takamasa T. Hakutsu |
A measurement method is developed for the position and slope
of a free surface of moving liquid and of liquid speed just under the surface
using picture analysis and laser focus deformation measurement. |
38. A refrigerator absorbing Li-H2O system |
4 |
4 |
T. Fujita M. Kojima K. Yamashita |
A test series on the number of cycles is carried out. |
39. The generation of noise under microscopic
motion of machine elements |
2 |
1 |
M. Shima T. Sugahara |
Generation of noise under microscopic motion of machine elements
is investigated. |
40. Cleaning exhaust gas from the ship's diesel
engine |
2 |
2 |
H. Okada T. Tsukamoto K. Ohe |
Research on cleaning exhaust gas from the diesel engines of
ships is carried out. |
41. The efficiency of transmission of evaporating
and condensational heat on heat transmission pipes with a V ditch |
5 |
4 |
M. Gotoh |
A mechanism to accelerate heat transmission of heat transmission
pipes pipe with a V ditch used for air conditioning is investigated. |
42. Developing a high performance reclaimed heat
exchange device for marine gas turbines |
3 |
1 |
M. Osakabe |
To develop a highly efficiency reclaimed heat exchange device
for marine gas turbines, basic investigation on the flow of heat transmission
is carried out. |
43. Paint for the bottoms of ships by applying
a flow channel |
2 |
1 |
Y. Suzuki S. Motoda H. Tabata |
The bottom painting of ships using a flow channel is evaluated,
aiming at self-polishing grind. |
44. Paint for the bottoms of ships in sea-water |
4 |
4 |
Y. Suzuki S. Motoda H. Tabata |
Development of a new paint for stain protection is investigated
statically and dynamically in water. |
45. Controlling the direction of the bow and the
voyage route of ships simultaneously |
2 |
2 |
E. Shimizu |
Investigation into control systems to maintain the direction
of the bow and the voyage route are simultaneously carried out. |
46. Flow mode in pipes with ditches and loss of
heat transmission on the Freon catalyzer |
5 |
4 |
M. Gotoh N. Inoue |
Observation of flow in pipes with a ditch is carried out,
and experiment is conducted on the behavior of substitutional Freon catalyzers
in pipes using tests of condensation, transmission of evaporating heat and loss
of pressure. |
47. Heat and material transmission on absorbing
the liquid membrane of an ammonia/water system in horizontal pipes |
3 |
2 |
M. Gotoh N. Inoue |
The effect of various experimental conditions on an ammonia/water
system-absorbing instrument to heat and transmit materials using an absorbent
liquid membrane is investigated. |
48. Estimating decreasing CO2 and investigating
corrosion and decay of materials when applying natural energy to ships and mega
floating structures |
5 |
1 |
Y. Suzuki M. Gotoh S. Motoda N. Inoue H. Tabata |
Estimating the decrease of exhaust CO2 by applying natural
energy as solar energy is investigated, and effect of stained equipment and corrosion
in sea water is investigated. |
49. Developing ceramic materials works as rays
or a magnetic function under infrared rays |
3 |
1 |
M. Izumi |
A composite function material that transmits electric, magnetizes,
expands and contracts mechanically on receiving infrared rays is investigated.
The results of the investigation are applied to transmission, signal transmission
and an information system. |
50. Applying ultra heat conduction material in
high temperature to ship technology, and investigating the electronic propulsion
of ships |
10 |
1 |
M. Izumi |
Applying a high temperature ultra heat conduction material
to ships is investigated, and the effect of the materials on electric ship propulsion
systems in nextgeneration and harbor or offshore structures is evaluated. |
51. Developing a technology for recycling the
FRP powder of scrapped ships |
3 |
1 |
M. Izumi |
Basic of techniques in recycling FRP of scrapped ships and
molding processes of new materials is developed. |
52. Application of a thin membrane of organic
metal for supper condition and composition function, and for devices |
3 |
1 |
M. Izumi H. Ohnuki |
An ultra thin membrane of organic metal as a material and
composite function that is easily used over a wide area and as a rust preventive
is developed and the results are applied to devices and for covering the surface
of materials. |