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This page displays all 「FI」 in main group F28D15/00. |
HB:Handbook | ||||
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CC:Concordance | |||||
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Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls | HB | CC | 3L106 | |
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.in which the medium condenses and evaporates, e.g. heat-pipes [4] | HB | CC | 3L106 | |
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used in heat exchangers | HB | CC | 3L106 | |
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.rotary heat exchangers | HB | CC | 3L106 | |
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.movable layer or fluid layer heat exchangers | HB | CC | 3L106 | |
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.using a plurality of single-tube type heat pipes (F28D15/02B and F28D15/02C take precedence) | HB | CC | 3L106 | |
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.using circulation type heat pipes (F28D15/02B and F28D15/02C take precedence) | HB | CC | 3L106 | |
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.Characterized by the heat transfer amount adjustment structure | HB | CC | 3L106 | |
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.Characterised by the heat pipe mounting and support structure | HB | CC | 3L106 | |
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.Characterised by the heat pipe safety and maintenance structure | HB | CC | 3L106 | |
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used as a heat transfer means of heat accumulators | HB | CC | 3L106 | |
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used as a cooling and heat radiation means of enclosed frames | HB | CC | 3L106 | |
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used as a cooling means of electronic parts | HB | CC | 3L106 | |
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.used as a boiling cooler | HB | CC | 3L106 | |
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used as a cooling means of bearings and rotary shafts | HB | CC | 3L106 | |
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used as a cooling means of oil coolers | HB | CC | 3L106 | |
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used as a heat transfer means of internal-combustion engines | HB | CC | 3L106 | |
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used as a heat transfer means of freezing machines and refrigerators | HB | CC | 3L106 | |
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used as a heat transfer means of thawing and freezing prevention devices | HB | CC | 3L106 | |
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used as a heat transfer means of water heaters, e.g. boilers, geysers | HB | CC | 3L106 | |
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used as a heat transfer means of bath facilities | HB | CC | 3L106 | |
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used as a heat transfer means of heating systems | HB | CC | 3L106 | |
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used for heaters and heating rolls | HB | CC | 3L106 | |
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used for solar systems, e.g. heat collectors | HB | CC | 3L106 | |
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Others | HB | CC | 3L106 | |
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..Characterized by | HB | CC | 3L106 | |
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of the single-pipe structure | HB | CC | 3L106 | |
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.thermosihpons | HB | CC | 3L106 | |
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.using magnetic fluids | HB | CC | 3L106 | |
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.with forced circulation means of working liquids | HB | CC | 3L106 | |
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.with heat accumulating materials | HB | CC | 3L106 | |
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.Characterized by the structure used for rotation | HB | CC | 3L106 | |
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.Characterized by the structure of evaporation units | HB | CC | 3L106 | |
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of the flat plate structure | HB | CC | 3L106 | |
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of the double cylinder structure | HB | CC | 3L106 | |
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of the circulation structure | HB | CC | 3L106 | |
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.heat received by heating units being transferred to heat radiation units | HB | CC | 3L106 | |
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of the compound structure | HB | CC | 3L106 | |
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Characterised by the connection structure between heat pipes | HB | CC | 3L106 | |
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Others | HB | CC | 3L106 | |
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...Characterized by vessels | HB | CC | 3L106 | |
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Characterized by the structure of vessels | HB | CC | 3L106 | |
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.Characterized by the outside surface structure | HB | CC | 3L106 | |
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..Characterised by the fin structure | HB | CC | 3L106 | |
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..of the double wall structure | HB | CC | 3L106 | |
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.of the flexible structure | HB | CC | 3L106 | |
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.a destructive unit being formed at a part of vessels | HB | CC | 3L106 | |
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Characterized by vessel materials | HB | CC | 3L106 | |
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Characterized by vessel shapes | HB | CC | 3L106 | |
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Others | HB | CC | 3L106 | |
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..characteristics related to use of working media, e.g. selection of composition | HB | CC | 3L106 | |
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related to working media | HB | CC | 3L106 | |
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.non-azeotrope mixed media | HB | CC | 3L106 | |
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related to compatibility with vessels, wicks, and working media | HB | CC | 3L106 | |
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related to removal of non-condensed gas | HB | CC | 3L106 | |
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Others | HB | CC | 3L106 | |
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..manufacturing method | HB | CC | 3L106 | |
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Characterized by the filling means of working liquids | HB | CC | 3L106 | |
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.involving the heating process | HB | CC | 3L106 | |
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.involving the setting and freezing process | HB | CC | 3L106 | |
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.involving the measurement process | HB | CC | 3L106 | |
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.involving the ampul filling process | HB | CC | 3L106 | |
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Characterized by the unsealing means | HB | CC | 3L106 | |
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Characterized by the synthetic production process | HB | CC | 3L106 | |
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Others | HB | CC | 3L106 | |
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..with tubes having a capillary structure [6] | HB | CC | 3L106 | |
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Characterized by the wick structure | HB | CC | 3L106 | |
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.by forming of grooves | HB | CC | 3L106 | |
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.by wire netting | HB | CC | 3L106 | |
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.by wires | HB | CC | 3L106 | |
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.by porous members | HB | CC | 3L106 | |
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..formed by the plating means | HB | CC | 3L106 | |
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..formed by the sintering means | HB | CC | 3L106 | |
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.of the compound wick structure | HB | CC | 3L106 | |
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Characterized by wick supports | HB | CC | 3L106 | |
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Others | HB | CC | 3L106 | |
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..Control arrangements therefor [6] | HB | CC | 3L106 | |
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Control of single-pipe type heat pipes | HB | CC | 3L106 | |
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.controlling of the flow rate of working media, e.g. valves provided | HB | CC | 3L106 | |
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.controlling of the conductance | HB | CC | 3L106 | |
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Control of circulation type heat pipes | HB | CC | 3L106 | |
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Others | HB | CC | 3L106 | |