Pascal and Francis Bibliographic Databases

Help

Search results

Your search

kw.\*:("Refrigerator")

Filter

A-Z Z-A Frequency ↓ Frequency ↑
Export in CSV

Document Type [dt]

A-Z Z-A Frequency ↓ Frequency ↑
Export in CSV

Publication Year[py]

A-Z Z-A Frequency ↓ Frequency ↑
Export in CSV

Discipline (document) [di]

A-Z Z-A Frequency ↓ Frequency ↑
Export in CSV

Language

A-Z Z-A Frequency ↓ Frequency ↑
Export in CSV

Author Country

A-Z Z-A Frequency ↓ Frequency ↑
Export in CSV

Origin

A-Z Z-A Frequency ↓ Frequency ↑
Export in CSV

Results 1 to 25 of 22497

  • Page / 900
Export

Selection :

  • and

Solid state magnetic refrigeratorSILVA, D. J; BORDALO, B. D; PEREIRA, A. M et al.Applied energy. 2012, Vol 93, pp 570-574, issn 0306-2619, 5 p.Article

Characterization of 350 Hz thermoacoustic driven orifice pulse tube refrigerator with measurements of the phase of the mass flow and pressureGODSHALK, K. M; JIN, C; KWONG, Y. K et al.Advances in cryogenic engineering. 1996, Vol 41, pp 1411-1418, issn 0065-2482, BConference Paper

Vibration characteristics of a 100 Hz TADOPTRPATELZICK, D. L; HERSHBERG, E. L; KWONG, Y. K et al.Advances in cryogenic engineering. 1996, Vol 41, pp 1403-1410, issn 0065-2482, BConference Paper

Start-up behavior of pulse tube refrigeratorsSHIRAISHI, M; KIM, Y; SEO, K et al.Advances in cryogenic engineering. 1996, Vol 41, pp 1455-1462, issn 0065-2482, BConference Paper

Maximizing the temperature span of a solid state active magnetic regenerative refrigeratorSILVA, D. J; VENTURA, J; ARAUJO, J. P et al.Applied energy. 2014, Vol 113, pp 1149-1154, issn 0306-2619, 6 p.Article

A pulse-tube refrigerator using variable-resistance orificeHUANG, B. J; SUN, B. W.Cryogenics (Guildford). 2003, Vol 43, Num 1, pp 59-65, issn 0011-2275, 7 p.Article

A simple technique for refrigerant mass measurementBJÖRK, Erik.Applied thermal engineering. 2005, Vol 25, Num 8-9, pp 1115-1125, issn 1359-4311, 11 p.Article

Great earthquake East Japan observation by superconducting gravimeter in AntarcticaIKEDA, H; AOYAMA, Y; HAYAKAWA, H et al.Cryogenics (Guildford). 2012, Vol 52, Num 12, pp 704-707, issn 0011-2275, 4 p.Conference Paper

Review of alternative cooling technologiesBROWN, J. Steven; DOMANSKI, Piotr A.Applied thermal engineering. 2014, Vol 64, Num 1-2, pp 252-262, issn 1359-4311, 11 p.Article

A review of pulse tube refrigerationRICHARDSON, R. N; EVANS, B. E.International journal of refrigeration. 1997, Vol 20, Num 5, pp 367-373, issn 0140-7007Article

Performance of a domestic refrigerator using TiO2-R600a nano-refrigerant as working fluidSHENGSHAN BI; KAI GUO; ZHIGANG LIU et al.Energy conversion and management. 2011, Vol 52, Num 1, pp 733-737, issn 0196-8904, 5 p.Article

EPA's research projects relating to the dual-circuit and Lorenz refrigerator/freezersBARE, J. C.Journal of the Air & Waste Management Association. 1992, Vol 42, Num 1, pp 68-69, issn 1047-3289Article

A review of thermodynamics and heat transfer in solar refrigeration systemAFSHAR, O; SAIDUR, R; HASANUZZAMAN, M et al.Renewable & sustainable energy review. 2012, Vol 16, Num 8, pp 5639-5648, issn 1364-0321, 10 p.Article

Analysis of DC gas flow in GM type double inlet pulse tube refrigeratorsSHAOWEI ZHU; NOGAWA, Masafumi; INOUE, Tatsuo et al.Cryogenics (Guildford). 2009, Vol 49, Num 2, pp 66-71, issn 0011-2275, 6 p.Article

Numerical simulation of a step-piston type series two-stage pulse tube refrigeratorSHAOWEI ZHU; NOGAWA, Masafumi; INOUE, Tatsuo et al.Cryogenics (Guildford). 2007, Vol 47, Num 9-10, pp 483-489, issn 0011-2275, 7 p.Article

Dependence of convective secondary flow on inclination angle in an inclined pulse tube refrigerator revealed by visualizationSHIRAISHI, Masao; TAKAMATSU, Koichi; MURAKAMI, Masahide et al.Cryogenics (Guildford). 2004, Vol 44, Num 2, pp 101-107, issn 0011-2275, 7 p.Article

Experimental investigation on the role of orifice and bypass valves in double-inlet pulse tube refrigeratorsINADA, T; NISHIO, S; OHTANI, Y et al.Advances in cryogenic engineering. 1996, Vol 41, pp 1479-1486, issn 0065-2482, BConference Paper

Proposal for a tube expanderZHU, S; MATSUBARA, Y.Cryogenics (Guildford). 1996, Vol 36, Num 6, pp 403-408, issn 0011-2275Article

An experimental study on defrost heaters applied to frost-free household refrigeratorsMELO, Cláudio; KNABBEN, Fernando T; PEREIRA, Paula V et al.Applied thermal engineering. 2013, Vol 51, Num 1-2, pp 239-245, issn 1359-4311, 7 p.Article

Transient simulation of household refrigerators: A semi-empirical quasi-steady approachBORGES, Bruno N; HERMES, Christian J. L; GONCALVES, Joaquim M et al.Applied energy. 2011, Vol 88, Num 3, pp 748-754, issn 0306-2619, 7 p.Article

Cryogenic low noise 2.2―3 GHz amplifierNEILINGER, P; TRGALA, M; GRAJCAR, M et al.Cryogenics (Guildford). 2012, Vol 52, Num 7-9, pp 362-365, issn 0011-2275, 4 p.Article

A numerical method of regeneratorSHAOWEI ZHU; MATSUBARA, Yoichi.Cryogenics (Guildford). 2004, Vol 44, Num 2, pp 131-140, issn 0011-2275, 10 p.Article

Superfluid orifice pulse tube refrigerator below 1 KelvinWATANABE, A; SWIFT, G. W; BRISSON, J. G et al.Advances in cryogenic engineering. 1996, Vol 41, pp 1519-1526, issn 0065-2482, BConference Paper

CFD simulations and reduced order modeling of a refrigerator compartment including radiation effectsBAYER, Ozgur; OSKAY, Ruknettin; PAKSOY, Akin et al.Energy conversion and management. 2013, Vol 69, pp 68-76, issn 0196-8904, 9 p.Article

Energetic analysis of a diffusion—absorption system: A bubble pump under geometrical and operational conditions effectsBELMAN-FLORES, J. M; RODRIGUEZ-MUNOZ, J. L; RUBIO-MAYA, C et al.Applied thermal engineering. 2014, Vol 71, Num 1, pp 1-10, issn 1359-4311, 10 p.Article

  • Page / 900