Sound Waves Effect on Oscillation and Startup of Oscillating Heat Pipe
6 Angebote vergleichen
Bester Preis: € 27,28 (vom 04.12.2019)1
Sound Waves Effect on Oscillation and Startup of Oscillating Heat Pipe
~EN NW AB
ISBN: 9783330344082 bzw. 3330344083, vermutlich in Englisch, neu, Hörbuch.
Lieferung aus: Schweiz, Lieferzeit: 2 Tage, zzgl. Versandkosten.
Oscillating heat pipe (OHP) or pulsating heat pipe (PHP) has drawn attention as a highly efficient two-phase heat transferring device that does not need the wick structure to return the condensate to evaporator section like many other types of heat pipes. Also, it can transfer the heat through liquid-vapor slug oscillations set up without any aid from external power. In the conventional heat pipe, wick structure helps to return the condensate to the evaporator, hence it can be operated at any orientation. But the performance of oscillating heat pipe gets affected when it is operated at any orientation other than vertical due to the reduction of perturbations caused because of reduced gravity. This restricts the flexibility of the OHP. Hence by keeping this in mind, use of some external means (e.g. sound waves) may help to make oscillating heat pipe operation possible at different orientations. In this research work, sound waves of 1 kHz frequency are generated and are passed through the evaporator section of CLOHP which may increase the perturbations through acoustic cavitation and enhance its thermal performance at all orientations.
Oscillating heat pipe (OHP) or pulsating heat pipe (PHP) has drawn attention as a highly efficient two-phase heat transferring device that does not need the wick structure to return the condensate to evaporator section like many other types of heat pipes. Also, it can transfer the heat through liquid-vapor slug oscillations set up without any aid from external power. In the conventional heat pipe, wick structure helps to return the condensate to the evaporator, hence it can be operated at any orientation. But the performance of oscillating heat pipe gets affected when it is operated at any orientation other than vertical due to the reduction of perturbations caused because of reduced gravity. This restricts the flexibility of the OHP. Hence by keeping this in mind, use of some external means (e.g. sound waves) may help to make oscillating heat pipe operation possible at different orientations. In this research work, sound waves of 1 kHz frequency are generated and are passed through the evaporator section of CLOHP which may increase the perturbations through acoustic cavitation and enhance its thermal performance at all orientations.
2
Sound Waves Effect on Oscillation and Startup of Oscillating Heat Pipe - For Different Working Fluids & Orientations of OHP
DE PB NW
ISBN: 9783330344082 bzw. 3330344083, in Deutsch, LAP Lambert Academic Publishing, Taschenbuch, neu.
Lieferung aus: Deutschland, Versandkostenfrei.
Sound Waves Effect on Oscillation and Startup of Oscillating Heat Pipe: Oscillating heat pipe (OHP) or pulsating heat pipe (PHP) has drawn attention as a highly efficient two-phase heat transferring device that does not need the wick structure to return the condensate to evaporator section like many other types of heat pipes. Also, it can transfer the heat through liquid-vapor slug oscillations set up without any aid from external power. In the conventional heat pipe, wick structure helps to return the condensate to the evaporator hence it can be operated at any orientation. But the performance of oscillating heat pipe gets affected when it is operated at any orientation other than vertical due to the reduction of perturbations caused because of reduced gravity. This restricts the flexibility of the OHP. Hence by keeping this in mind, use of some external means (e.g. sound waves) may help to make oscillating heat pipe operation possible at different orientations. In this research work, sound waves of 1 kHz frequency are generated and are passed through the evaporator section of CLOHP which may increase the perturbations through acoustic cavitation and enhance its thermal performance at all orientations, Englisch, Taschenbuch.
Sound Waves Effect on Oscillation and Startup of Oscillating Heat Pipe: Oscillating heat pipe (OHP) or pulsating heat pipe (PHP) has drawn attention as a highly efficient two-phase heat transferring device that does not need the wick structure to return the condensate to evaporator section like many other types of heat pipes. Also, it can transfer the heat through liquid-vapor slug oscillations set up without any aid from external power. In the conventional heat pipe, wick structure helps to return the condensate to the evaporator hence it can be operated at any orientation. But the performance of oscillating heat pipe gets affected when it is operated at any orientation other than vertical due to the reduction of perturbations caused because of reduced gravity. This restricts the flexibility of the OHP. Hence by keeping this in mind, use of some external means (e.g. sound waves) may help to make oscillating heat pipe operation possible at different orientations. In this research work, sound waves of 1 kHz frequency are generated and are passed through the evaporator section of CLOHP which may increase the perturbations through acoustic cavitation and enhance its thermal performance at all orientations, Englisch, Taschenbuch.
3
Sound Waves Effect on Oscillation and Startup of Oscillating Heat Pipe
DE HC NW
ISBN: 9783330344082 bzw. 3330344083, in Deutsch, Lap Lambert Academic Publishing, gebundenes Buch, neu.
Lieferung aus: Deutschland, Versandkostenfrei innerhalb von Deutschland.
Oscillating heat pipe (OHP) or pulsating heat pipe (PHP) has drawn attention as a highly efficient two-phase heat transferring device that does not need the wick structure to return the condensate to evaporator section like many other types of heat pipes. Also, it can transfer the heat through liquid-vapor slug oscillations set up without any aid from external power. In the conventional heat pipe, wick structure helps to return the condensate to the evaporator; hence it can be operated at any Oscillating heat pipe (OHP) or pulsating heat pipe (PHP) has drawn attention as a highly efficient two-phase heat transferring device that does not need the wick structure to return the condensate to evaporator section like many other types of heat pipes. Also, it can transfer the heat through liquid-vapor slug oscillations set up without any aid from external power. In the conventional heat pipe, wick structure helps to return the condensate to the evaporator; hence it can be operated at any orientation. But the performance of oscillating heat pipe gets affected when it is operated at any orientation other than vertical due to the reduction of perturbations caused because of reduced gravity. This restricts the flexibility of the OHP. Hence by keeping this in mind, use of some external means (e.g. sound waves) may help to make oscillating heat pipe operation possible at different orientations. In this research work, sound waves of 1 kHz frequency are generated and are passed through the evaporator section of CLOHP which may increase the perturbations through acoustic cavitation and enhance its thermal performance at all orientations Sofort lieferbar Lieferzeit 1-2 Werktage.
Oscillating heat pipe (OHP) or pulsating heat pipe (PHP) has drawn attention as a highly efficient two-phase heat transferring device that does not need the wick structure to return the condensate to evaporator section like many other types of heat pipes. Also, it can transfer the heat through liquid-vapor slug oscillations set up without any aid from external power. In the conventional heat pipe, wick structure helps to return the condensate to the evaporator; hence it can be operated at any Oscillating heat pipe (OHP) or pulsating heat pipe (PHP) has drawn attention as a highly efficient two-phase heat transferring device that does not need the wick structure to return the condensate to evaporator section like many other types of heat pipes. Also, it can transfer the heat through liquid-vapor slug oscillations set up without any aid from external power. In the conventional heat pipe, wick structure helps to return the condensate to the evaporator; hence it can be operated at any orientation. But the performance of oscillating heat pipe gets affected when it is operated at any orientation other than vertical due to the reduction of perturbations caused because of reduced gravity. This restricts the flexibility of the OHP. Hence by keeping this in mind, use of some external means (e.g. sound waves) may help to make oscillating heat pipe operation possible at different orientations. In this research work, sound waves of 1 kHz frequency are generated and are passed through the evaporator section of CLOHP which may increase the perturbations through acoustic cavitation and enhance its thermal performance at all orientations Sofort lieferbar Lieferzeit 1-2 Werktage.
5
Sound Waves Effect on Oscillation and Startup of Oscillating Heat Pipe
DE PB NW
ISBN: 3330344083 bzw. 9783330344082, in Deutsch, LAP Lambert Academic Publishing, Taschenbuch, neu.
Lieferung aus: Vereinigtes Königreich Großbritannien und Nordirland, Versandkostenfrei.
Sound Waves Effect on Oscillation and Startup of Oscillating Heat Pipe ab 35.9 € als Taschenbuch: For Different Working Fluids & Orientations of OHP. Aus dem Bereich: Bücher, Wissenschaft, Technik,.
Sound Waves Effect on Oscillation and Startup of Oscillating Heat Pipe ab 35.9 € als Taschenbuch: For Different Working Fluids & Orientations of OHP. Aus dem Bereich: Bücher, Wissenschaft, Technik,.
6
Sound Waves Effect on Oscillation and Startup of Oscillating Heat Pipe
~EN PB NW
ISBN: 3330344083 bzw. 9783330344082, vermutlich in Englisch, LAP Lambert Academic Publishing, Taschenbuch, neu.
Sound Waves Effect on Oscillation and Startup of Oscillating Heat Pipe ab 35.9 € als Taschenbuch: For Different Working Fluids & Orientations of OHP. Aus dem Bereich: Bücher, Wissenschaft, Technik,.
Lade…