UNIVERSITATEA TEHNICĂ GHEORGHE ASACHI DIN IAŞI … Aristotel/Atestat... · Formular...

Formular TUIASI.POB.08-F5.4.1, rev.3 1/21

UNIVERSITATEA TEHNICĂ "GHEORGHE ASACHI" DIN IAŞI FACULTATEA DE Mecanică DEPARTAMENTUL DE INGINERIE MECANICĂ ȘI AUTOVEHICULE RUTIERE Concurs pentru obţinerea atestatului de abilitare

FIŞA DE VERIFICARE

a îndeplinirii standardelor minimale naţionale pentru obţinerea atestatului de abilitare în domeniul Inginerie Mecanică

conform OM nr. 3121 din 27 ianuarie 2015 (Anexa 1 - art. 5)

Candidat: POPESCU ARISTOTEL Data naşterii: 26 / 07 / 1965 Funcţia actuală: profesor universitar, doctor inginer ,

Data numirii în funcţia actuală: 25 / 09 / 2014 Instituţia: UNIVERSITATEA TEHNICĂ "GHEORGHE ASACHI" DIN IAŞI .

Notă privind îndeplinirea standardelor minimale naționale pentru profesor universitar (conform Ordin MECTS 6560 din 20.12.2012)

Comisia CNATDCU nr.17, Inginerie mecanică, mecatronică și robotică

Criteriul Indicatori Condiții minimale Punctaj obținut de

candidat Punctaj criteriu Grad de îndeplinire

CDI

CDI-ART

Minim 10 puncte, din care minim 6 puncte din CDI-ART

478.523

479.523 CDI-ART: 478.523 (99%)

4795 % CDI-BRV -

CDI-MON 1

DID DID-MSC

Minim 10 puncte, din care minim 6 puncte din DID-MSC

21.58 28.58

DID-MSC: 21.58 (75%) 286 %

DID-LAB 7

RIA

RIA-GRA Minim 10 puncte, din care minim 6 puncte contribuție

principală în calitate de director de grant/proiect

34.50 46.72

Ca director: 34.5 (74%) 467 %

RIA-CRT 12.22


prof.dr.ing. POPESCU Aristotel Stadiul de îndeplinire a criteriilor minimale naționale (pentru obţinerea atestatului de abilitare = profesor universitar) Conform Ordin MECTS 6560 din 20.12.2012, publicat în Monitorul Oficial al Romîniei, Partea I, nr. 890 din 27.12.2012

Criteriul CDI CDI-ART: Articole științifice publicate în reviste de specialitate cotate ISI sau în reviste/volume indexate ISI sau BDI (citările sunt detaliate la final)

* *

1

0,1 0,1 n

articol citare articol citarePunctaj articol FI FI Factor impact Factor impact

Nr.crt Descriere elemente criteriu Punctaj element

Punctaj indicator

Articole ști inț if ice publicate în reviste de specialitate cotate ISI

478.523

1 R1. Panaite C.E., Băisan I., Popescu A., Numerical study of desiccant wheel behavior for environmentally friendly air conditioning system,

Environmental Engineering and Management Journal, 13(7), pp. 1673-1678, 2014 (ISSN 1582-9596, factor impact 1,258; 0 citări) 1.258

2 R2. Popescu A., Hernandez A., Donosă D., Panaite C.E., Environmentally friendly, improved solar thermal collectors, Environmental Engineering and

Management Journal, 9(10), pp. 1363-1369, 2010 (ISSN 1582-9596, factor impact 1,435; 7 citări) 9.376

3 R3. Pfund D.M., Rector D., Shekarriz A., Popescu A., Welty J.R., Fluid Mechanics and Transport Phenomena - Pressure Drop Measurements in a

Microchannel, AIChE Journal, 46(8), pp. 1496-1507, 2000 (ISSN 0001-1541, factor impact 2.493; 163 citări) 224.259

4 R4. Horbaniuc B., Dumitrascu Gh., Popescu A., Mathematical models for the study of solidification within a longitudinally finned heat pipe latent heat thermal

storage system, Energy Conversion and Management, Pergamon Press, 40, pp. 1765-1774, 1999 (ISSN 0196-8904, factor impact 2.775; 69 citări) 158.367

5 R5. Horbaniuc B., Popescu A., Dumitrașcu Gh., The correlation between the number of fins and discharge time for a finned heat pipe latent heat

storage system, Renewable Energy, Pergamon Press, 8(1), pp. 605-608, 1996 (ISSN 0960-1481, factor impact 2.989; 11 citări) 31.446

6 R6. Dumitrașcu Gh., Horbaniuc B., Popescu A., Energy savings by using central heating system with LiBr-H2O absorption heat pump, Renewable

Energy – Special Issue, Pergamon Press, Vol. III, pp. 1849-1852,1996 (ISSN 0960-1481, factor impact 2.989; 0 citări) 3.089

7 R7. Popescu A., Dumitrașcu Gh., Horbaniuc B., Reduced motor vehicle emissions and energy savings at cold start using a heat battery storage,

Renewable Energy – Special Issue, Pergamon Press, Vol. III, pp. 2107-2110, 1996 (ISSN 0960-1481, factor impact 2.989; 0 citări) 3.089

8 R8. Dumitrașcu Gh., Horbaniuc B., Popescu A., Finite time analysis model of the vapor compression heat pump for heating system, Renewable Energy

– Special Issue, Pergamon Press, Vol. III, pp. 1905-1908, 1994 (ISSN 0960-1481, factor impact 2.989; 0 citări) 3.089

Articole ști inț if ice publicate în reviste/volume indexate ISI sau BDI

9 R9. Lupu A.G., Dumencu A., Atanasiu M.V., Panaite C.E., Dumitrascu Gh., Popescu A., SWOT analysis of renewable energy sources in Romania -

case study: solar energy, IOP Conference Series: Materials Science and Engineering, 147(1), 012138., 2016 (ISSN 1757-899X, ISI Proceedings) 0.1

10 R10. Panaite C.E., Popescu A., Dodun O., Papakostas K., Air Conditioning: A Renewable Energy Perspective, Applied Mechanics and Materials, 809-

810, pp 694-699, 2015 (ISSN 1660-9336, ISI Proceedings) 0.1

11 R11. Popescu A., Panaite C.E., Lupu A.G., Atanasiu M., Vlachokostas C., Michailidou A., Self-sustained, Independent Trifold Solar Energy Conversion

System for Isolated Locations in Hot Climate Areas, Applied Mechanics and Materials, 659, pp. 421-424, 2014 (ISSN 1660-9336, ISI Proceedings) 0.2

12 R12. Popescu A., Pfund D.M., Hernandez-Guerrero A., Panaite C.E., Lupu A.G., Stadoleanu O.V., Improved Heat Transfer using Micro-structures in

Trifold Solar Energy Conversion Systems, Applied Mechanics and Materials, 659, pp. 417-420, 2014 (ISSN 1660-9336, ISI Proceedings) 0.1

13 R17. Popescu A., Panaite C.E., Stadoleanu O.V., Combined Photovoltaic and Thermal Solar Panels – Enhanced Energy Conversion and Heat Transfer,

Revista Termotehnica / Termotehnique / Thermal Engineering, nr. 2, anul XVII, pp. 135-140, 2013 (ISSN 1222-4057, BDI: Index Copernicus International, Academic Keys, getCITED)

0.4


14 R18. Popescu A., Welty J.R., Panaite C.E., Liquid Metal Cooling For Microelectronics, Buletinul Institutului Politehnic din Iaşi, Secția Construcții de

Mașini, Tom LIX(LXIII), 1, pp. 9-16, 2013 (ISSN 1011-2855, BDI: Index Copernicus International, ULRICHS) 0.1

15 V1. Martin A., Hernandez A., Rubio-Arana C., Popescu A., Optimal Hardware Placement in a Minitower Computer Enclosure System, The 2011 ASME

International Mechanical Engineering Congress and Exposition, Denver, Colorado, USA, IMECE2011-65544, pp. 1027-1034, 2011, (ISI Proceedings) 0.1

16 R19. Popescu A., Nistoroschi G., Văceanu B., Enhanced heat transfer in solar panels, Revista Termotehnica / Termotehnique / Thermal Engineering,

nr. 1s – Transfer de căldură/2011, anul XV, pp. 62-66, 2011 (ISSN 1222-4057, BDI: Index Copernicus International, Academic Keys, getCITED) 0.1

17 R20. Horbaniuc B., Dumitraşcu Gh., Panaite C.E., Popescu A., Studiul teoretic al solidificării controlate folosind o schemă implicită cu diferenţe finite,

Revista Termotehnica / Termotehnique / Thermal Engineering, nr. 1s, anul XV, pp. 37-42, 2011 (ISSN 1222-4057, BDI: Index Copernicus International, Academic Keys, getCITED)

0.1

18 R21. Panaite C.E., Popescu A., Horbaniuc B., Study on Air Conditioning Through Desiccant Technology, Revista Termotehnica / Termotehnique /

Thermal Engineering, nr. 1, anul XV, pp. 54-58, 2011 (ISSN 1222-4057, BDI: Index Copernicus International, Academic Keys, getCITED) 0.1

19 V2. Dumitrașcu Gh., Popescu A., The Influence of Working Fluid Properties on the Internal Irreversibility of Power Systems, The 2010 ASME

International Mechanical Engineering Congress and Exposition, Vancouver, BC, Canada, IMECE2010-40467, pp. 635-642, 2010 (ISI Proceedings) 0.1

20 R22. Popescu, A., Panaite, C.E., Hernandez-Guerrero A., Donosă D., Microchanneled structures in solar panels - impact on environment, Buletinul

Institutului Politehnic din Iaşi, Secția Construcții de Mașini, Tomul LVI(LVX), 3b, pp. 409-417, 2010, (ISSN 1011-2855, BDI: Index Copernicus International, ULRICHS)

0.1

21 R23. Panaite C.E., Popescu A., Pătrașcu A., Study of a Solar Desiccant Cooling System, Bulletin of the Transilvania University of Braşov, Seria I

Engineering Sciences, 2(51), pp. 545-550, 2009 (ISSN 2065-2119, BDI: EBSCO Publishing DataBase) 0.1

22 R24. Popescu A., Panaite C.E., An Overview of advanced Electronics Cooling. Emphasis on liquid metals solutions, Bulletin of the Transilvania

University of Braşov, Seria I Engineering Sciences, 2(51), 255-260, 2009 (ISSN 2065-2119, BDI: EBSCO Publishing DataBase) 0.1

23 V3. Popescu A., Pfund DM., Panaite CE., Improving research on micro-scale structures with visualization experiments, 6th International Conference on

Management of Technological Changes, Alexandroupolis, Greece, vol. 1, pp. 695-698, 2009 (ISBN 978-960-89832-7-4, ISI Proceedings) 0.1

24 V4. Ștefan G., Donosă D., Popescu A., Donosă R.E., Entrepreneurial Attitudes, Activities and Aspirations, 6th International Conference on Management

Technological Changes, Alexandroupolis, Greece, vol. 1, pp. 281-284, 2009 (ISBN 978-960-89832-7-4, ISI Proceedings) 0.1

25 V5. Panaite C.E., Popescu A., An Energy and Exergy Approach for the Analysis of District Heating Networks, Proceedings of the 21th International

Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems ECOS 2008, Cracow-Gliwice, Poland, vol. III, pp. 1519-1526, 2008 (ISBN 978-83-922381-4-0, ISI Proceedings)

0.1

26 V6. Panaite C.E., Popescu A., Popescu D., Exergy Method to Diagnose and Analyze Hot Water Distribution System, Proceedings of the 1st WSEAS

International Conference on Urban Rehabilitation And Sustainability (URES 08), Bucharest, Romania, pp. 79-84, 2008 (ISSN 1790-5095, ISBN 978-960-474-023-9, ISI Proceedings)

0.1

27 V7. Zuniga-Cerroblanco J.L., Hernandez-Guerrero A., Rubio-Arana C., Popescu A., Geometric Influences in the Design of Square Pin-Fin Heat Sinks

Arrangements for Electronic Devices, ASME Proceedings of the 20th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems ECOS 2007, Padova, Italy, Vol. II, pp. 1199-1206, 2007 (ISBN 88-89884-08-8, ISI Proceedings)

0.1

28 V8. Panaite C.E., Popescu T., Popescu D., Popescu A., The Optimal Design of Solid Desiccant Dehumidifier for Computer Enclosures, Proceedings of

the ASME-International Center for Applied Thermodynamic 19th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems (ECOS 2006), Crete, Greece, vol. 3, pp. 1345-1350, 2006 (ISBN 960-87584-1-6, ISI Proceedings)

0.1

29 V9. Popescu D., Popescu T., Panaite C.E., Popescu A., A Method for Studying the Hydraulic Behavior of Closed Pipeline Networks, Proceedings of the

ASME-International Center for Applied Thermodynamic 19th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy (ECOS 2006), Crete, Greece, vol. 3, pp. 1267-1271, 2006 (ISBN 960-87584-1-6, ISI Proceedings)

0.1

30

V13. Popescu A., Welty J.R., Pfund D.M., Panaite E.C., Stadoleanu O.V., Improved Experimental Device for Thermal Phenomena Studies On Transition to Microscale, Proceedings of The ASME - ZSIS International Thermal Science Seminar II, Bled, Slovenia, pp. 779-786, 2004 (ISBN 961-91393-0-5, BDI: Begell House Digital Library Database)

0.1


31 V14. Panaite C.E., Tarawneh M., Popescu A, Theoretical Study of the Transfer Processes in Desiccant Microsystems, Proceedings of the ASME - ZSIS

International Thermal Science Seminar II, Bled, Slovenia, pp. 205-210 2004 (ISBN 961-91393-0-5, BDI: Begell House Digital Library Database) 0.1

32 R13. Popescu A., Welty J.R., Pfund D.M., Rector D., 2002, Thermal measurements in rectangular microchannels, American Society of Mechanical

Engineers, Heat Transfer Division, ASME-HTD, 372 (1), pp. 277-284, ISSN 0272-5673 (indexată ISI, FI = 0, 1 citare) 0.2

33 V10. Popescu A., Welty J.R., Pfund D.M., Rector D., Thermal measurements in rectangular microchannels, The 2002 ASME International Mechanical

Engineering Congress and Exposition, New Orleans, LO, USA, IMECE2002-32442, pp. 277-284, 2002 (ISI Proceedings; 16 citări) 26.681

26 V11. Dumitrascu Gh., Stadoleanu O.V., Horbaniuc B., Popescu A., Experimental investigation of the heat transfer during the vortex flow between two

conical surfaces, ASME Proceedings of the 7th AIAA/ASME Joint Thermophysics and Heat Transfer Conference, 2, pp. 71-76, 1998 (ISI Proceedings) 0.1

27 V12. Horbaniuc B., Dumitrascu Gh., Popescu A., Analytical technique for the study of solidification within a heat pipe thermal storage system, The

ASME Proceedings of the 7th AIAA/ASME Joint Thermophysics and Heat Transfer Conference, 3, pp. 45-52, 1998 (ISI Proceedings) 0.1

28 R14. Pfund D., Shekarriz A., Popescu A., Welty J.R., Pressure drop measurements in a microchannel, American Society of Mechanical Engineers,

Dynamic Systems and Control Division, ASME-DSC, 66, pp. 193-198, 1998 (ISBN-13: 9780791815960, indexată ISI, FI = 0, 26 citări) 14.569

29 R15. Dumitraşcu Gh., Stadoleanu O.V., Horbaniuc B., Popescu A., Experimental Investigation of the Heat Transfer During the Vortex Flow Between

Two Conical Surfaces, American Society of Mechanical Engineers, Heat Transfer Division, ASME-HTD, 357(2), pp. 71-76, 1998 (ISSN 0272-5673, indexată ISI, FI = 0)

0.1

30 R16. Horbaniuc B., Dumitraşcu Gh., Popescu A., Analytical Technique for the Study of Solidification Within a Heat Pipe Thermal Storage System,

American Society of Mechanical Engineers, Heat Transfer Division, ASME-HTD, 357(3), pp. 45-52, 1998 (ISSN 0272-5673, indexată ISI, FI = 0) 0.1

CDI-MON: Monografii de specialitate sau capitole în monografii de specialitate 1 punct=50 pagini contribuție editură națională

Nr.crt Descriere elemente criteriu Nr. pag Punctaj element

Punctaj indicator

1 Cb1. Popescu A., Consideraţii Privind Stadiul Actual al Cercetărilor în Domeniul Curgerii Fluidelor şi Transferului de Căldură în

Structuri cu Microcanale Rectangulare, Editura Pim, Iaşi, ISBN 973-7967-51-8, 50 pg., 2003 50 1 1



Criteriul DID DID-MSC: Manuale suport curs, format tipărit sau electronic 1 punct=50 pagini contribuție

Nr.crt Descriere elemente criteriu Nr. pag Punctaj element

Punctaj indicator

1 Ca1. Popescu A., Thermal Systems Engineering – textbook for Erasmus students, Editura PIM, Iaşi, ISBN 978-606-13-1639-7,

245 pg., 2013 245 4.90

21.58

2 W2. Popescu A., Suport de prezentare/instruire (ppt) pentru disciplina Procese de transfer, modelare şi simulare, 120 pg., 2011

(disponibil pe Web) 120 2.40

3 I1. Popescu A., Îndrumar laborator – Transfer de Căldură si Masă, 70 pg., 2010 (disponibil pe Web) 70 1.40

4 I2. Popescu A., Îndrumar laborator – Reference Guide for Heat Transfer Laboratory, (în Engleză), 70 pg., 2008 (disponibil pe Web) 70 1.40

5 W1. Popescu A, Suport de studiu/prezentare/autoinstruire pe Web (ppt) pentru disciplina Transfer de căldură şi masă, 150 pg.,

2008 (disponibil pe Web) 150 3.00

6 Ca2. Popescu A., Elemente Fundamentale de Transfer de Căldură, Editura Eurobit, Timișoara, ISBN 973-620-086-8, 207 pg., 2003 207 4.14

7 Ca3. Popescu A., Basic Principles of Heat Transfer (în Engleză), Editura Solness, Timișoara, ISBN 973-8472-78-4, 217 pg., 2003 217 4.34

DID-LAB: Standuri/laboratoare pentru activități didactice realizate sau dezvoltate de candidat 1 punct=1 lucrare de laborator cu infrastructură realizată/dezvoltată de candidat

Nr.crt Descriere elemente criteriu Punctaj element

Punctaj indicator

1 D1. Măsurarea temperaturii (3): Determinarea răspunsului tranzitoriu al termocuplului 1

7

2 D2. Analiza unei instalatii cu panouri solare termice pentru producerea apei calde menajere 1

3 D3. Algor – Elemente de bază ale analizei curgerii fluidelor: Modelul Venturi 1

4 D4. Algor – Curgerea bidimensională peste un cilindru 1

5 D5. Algor – Transferul de căldură printr-un perete izolat termic 1

6 D6. Algor – Incălzirea în pardoseală – Analiza bidimensională 1

7 D7. Algor – Analiza cuplată hidrodinamică şi termică: modelul unui schimbător de căldură 1



Criteriul RIA

Nr.crt Titlul proiectului Număr

contract/tip Valoare

Instituţie Perioada/

Anul Punctaj proiect

Punctaj indicator

Contribuție principală în calitate de director grant/proiect sau responsabil partener (RIA-GRA)

34.5

(34.5*1p)

1

P6. Phase Change Phenomena in Enclosed Micro-structures with Forced Flow Beneficiar: US Department of Energy (DoE), Division of Basic Energy Sciences USA Coordonator proiect: James Welty Valoare proiect: 600.000 USD Popescu A. – responsabil temă cercetare: Single Phase Fluid Flow and Heat Transfer in Rectangular Micro-channels

US DOE Grant No. DE-FG03-

97ER14777 270.000 USD 1997 – 2000

27.0* (270000/10000)

*Suma ce revine instituţiei (OSU) este exprimată în dolari SUA. Pentru perioada derulării contractului, am considerat paritatea 1 USD = 1 EUR

Contribuție principală în calitate de director contract (RIA-CTR)

2

P7. Performance optimization of solar photovoltaic panels by temperature control using liquid cooling Beneficiar: Energiaki Eirinoypolis O.E., Greece Director proiect: Popescu A., TUIASI Valoare proiect: 15000 Euro (66525 RON)

Agent economic internațional

A1/2013 - 13868/2013

15000 EUR 2013 7.5

(15000/2000)

Nr.crt Titlul proiectului Număr

contract/tip Valoare

instituţie Perioada/

Anul Punctaj proiect

Punctaj indicator

Contribuție complementară în calitate de membru în echipa de cercetare grant/proiect (RIA-GRA)

12.22

(48.88*0.25p)

1 P1. Detailed chemical kinetic models for cleaner combustion - COST

Coordonator proiect TUIASI: Gheorghe Dumitrașcu Popescu A. – membru în echipa de cercetare

European Project

CM 0901 9700 EUR 2009 – 2013

0.97 (9700/10000)

2

P2. Adaptarea activă a educaţiei la cerinţele pieţei muncii Director: prof. Mihai Korka Beneficiar: ARACIS prin SC Educaţia 2000+ Consulting SRL. Popescu A. – expert evaluator

PHARE 2006 018-147.05.01

0 2009 – 2010 0


3

P8. Instalaţie de generare a ceţii pentru protecţia plantelor contra factorilor nefavorabili ai mediului utilizând camere de ardere pulsatorie - PULSOPROTECT Responsabil TUIASI: Gheorghe Dumitrașcu Popescu A. – membru în echipa de cercetare

PN II Parteneriate 51-043/2007

105000 RON 2007-2010 2.1

(105000/50000)

4 P9. Compresor cu grad de comprimare > 9 într-o singură treaptă - COMCIP

Responsabil TUIASI: Gheorghe Dumitrașcu Popescu A. – membru în echipa de cercetare

PN II Parteneriate 82-090/2008

15000 RON 2008 0.3

(15000/50000)

5 P10. Studiul sistemelor energetice cu oxi-combustie

Responsabil TUIASI: Gheorghe Dumitrașcu Popescu A. – membru în echipa de cercetare

CNCSIS 237 33 GR/2007 77 GR/2008

146000 RON 2007 – 2008 2.92

(146000/50000)

6 P11. Noi tipuri de camere de ardere policarburante cu funcţionare în regim pulsatoriu

Director grant: Prof. Gh. Dumitraşcu PULSOCAM Popescu A. – membru în echipa de cercetare

CEEX 281/2006

202500 RON 2006 – 2008 4.05

(202500/50000)

7

P12. Sisteme inteligente si metode pentru optimizarea, monitorizarea si controlul rețelelor de termoficare Director proiect: Daniela Popescu, TUIASI Popescu A. – membru în echipa de cercetare

CEEX 71/2006

687700 RON 2006 - 2008 13.754

(687700/50000)

8 P13. Cercetări asupra utilizării bio-masei în centrale cogenerative cu microturbomotoare

Director grant: Prof. Gh. Dumitraşcu UBICENT Popescu A. – membru în echipa de cercetare

CEEX 272/2006

95000 RON 2006 – 2008 1.9

(95000/50000)

9

P14. Soluţie avansată pentru reducerea zgomotului produs de motoarele avioanelor de transport pasageri – TRIPLUFLUX. Director grant: Prof. Gh. Dumitraşcu Popescu A. – membru în echipa de cercetare

CEEX 64/2005 PC-D07-PT01-

1151 85000 RON 2006 – 2007

1.7 (85000/50000)

10 P15. Cercetări pluridisciplinare privind sistemele de răcire ale microprocesoarelor

Director proiect: Theodor Popescu, TUIASI Popescu A. – membru în echipa de cercetare

Grant CNCSIS 547/2004

64500 RON 2004 - 2006 1.29

(64500/50000)

11

P3. Development and testing of training modules and methods for a sustainable development - SUS-TRAIN Coordonator proiect: VHS Bildungsinstitut VoG, Belgia Coordonator proiect TUIASI: Gheorghe Dumitrașcu Popescu A. – membru în echipa de cercetare

100734-CP-1-2002-1-BE-

GRUNDTVIG-G1

57150 Euro 2002 - 2005 5.715

(57150/10000)

12

P4. Study of the Laminar / Turbulent Transition Characteristics in Liquid Microchannel Flow Beneficiar: OSU Foundation, USA Coordonator proiect: James Liburdy Popescu A. – membru în echipa de cercetare

OSU EME 019 20000 USD 2000 – 2001 2*

(20000/10000)


13

P5. Heat Transfer and Flow Predictions for Concentric Canister Launchers Beneficiar: Dept. of the US Navy, Navy Surface Warfare Center, USA Coordonator proiect: James Liburdy Popescu A. – membru în echipa de cercetare

OSU N014A EME

NSWC 71501 57000 USD 2000 – 2001

5.7* (57000/10000)

14

P16. Metode moderne de intensificare a transferului de căldură (transferul de căldură la utilizarea amestecurilor bifazice aer-apă, la schimbătoare de căldură cu plăci, la curgerea cu vârtejuri tip Taylor). Director grant: Prof. Gh. Dumitraşcu Popescu A. – membru în echipa de cercetare

CNCSU-MIS 10116/C76

2027 RON 1994 – 1997 0.04

(2027/50000)

15 P17. Studii şi cercetări privind stocarea căldurii şi frigului bazat pe călduri latente.

Director grant: Prof. Gh. Dumitraşcu Popescu A. – membru în echipa de cercetare

CNCSU-MIS 2696-1556

70000 RON 1992 1.4

(70000/50000)

16

P18. Studii şi cercetări privind realizarea unor motoare stirling de mică putere pentru agricultură. Director grant: Prof. Gh. Dumitraşcu Popescu A. – membru în echipa de cercetare

CNCSU-MIS 2692-1555

70000 RON 1992 1.4

(70000/50000)

17

P19. Studii şi cercetări privind reducerea consumului specific de combustibil la sarcini parțiale pentru motoare diesel. Director grant: Prof. Gh. Dumitraşcu Popescu A. – membru în echipa de cercetare

CNCSU-MIS 2693-1554

182000 RON 1992 3.64

(70000/50000)

*Suma ce revine instituţiei (OSU) este exprimată în dolari SUA. Pentru perioada derulării contractului, am considerat paritatea 1 USD = 1 EUR

Contribuție complementară în calitate de membru în echipa de cercetare grant/proiect (RIA-CTR)

18

P20. Sistem de vid preliminar în agregat cu pompele de vid cu inel de lichid. Beneficiar: IUPS Botoşani Director contract: Prof. Gh. Dumitraşcu Popescu A. – membru în echipa de cercetare

52/8645 0 1990 0

19

P21. Sistem de sorb - ejector pentru pompe multietajate care să permită o diferenţă de nivel între sorb şi pompă mai mare de 10 m. Beneficiar: IUPS Botoşani Director contract: Prof. Gh. Dumitraşcu Popescu A. – membru în echipa de cercetare

53/8647 0 1990 0

01.12.2016

Prof. dr. ing. POPESCU Aristotel



Articole știintifice citate și referințele bibliografice care citează articolele respective

Articol citat articolFI articolFI articol citareFI FI

R2. Popescu A., Hernandez A., Donosă D., Panaite C.E., Environmentally friendly, improved solar thermal collectors, Environmental Engineering and Management Journal, 9(10), pp. 1363-1369, 2010 (ISSN 1582-9596, factor impact 1,435; 7 citări)

1,435 1,535 9,376

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2 Manca O., Minea A.A., Nardini S., Tamburrino S., Numerical investigation on convective heat transfer in high temperature solar receiver, Environmental Engineering and Management Journal 10 (10) , pp. 1467-1475, 2011

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3 Paraschiv S., Ion I.V., Paraschiv L.S., Thermodynamic performance for the solar collector of a micro-combined cooling, heating and power system, Environmental Engineering and Management Journal 10 (9) , pp. 1311-1317, 2011

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4 Ciobanu D., Conceptual design of a solar thermal system with dish solar collectors, Environmental Engineering and Management Journal 10 (8) , pp. 1087-1095, 2011

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5 Câmpean M., Marinescu I., Solar systems for wood drying, Environmental Engineering and Management Journal 10 (8), pp. 1069-1076, 2011

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6 Ciocǎnea A., Dragomirescu A., Budea S., Experimental research on transient regimes of solar air heat collectors,

Environmental Engineering and Management Journal 10 (8) , pp. 1097-1103, 2011 1,004 1,104

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1 Ning, J.F., Zhao, G.P., A fractal study of sound propagation characteristics in roughened porous materials, Wave Motion, 68, pp. 190-201, 2017

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215.566+ 6.1=

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2 Saha, S.K., Agrawal, A., Soni, Y., Heat transfer characterization of rhombic microchannel for H1 and H2 boundary conditions, International Journal of Thermal Sciences, 111, pp. 223-233, 2017

2.769 2.869

3 Sherief, H.H., Faltas, M.S., Ashmawy, E.A., Abdel-Hameid, A.M., Creeping motion of a micropolar fluid between two sinusoidal corrugated plates, European Journal of Mechanics, B/Fluids, 59, pp. 186-196, 2016

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4 Gou, J., Xian, Y., Lu, X., Low-temperature, high-density plasmas in long micro-tubes, Physics of Plasmas, 23 (5), 053508, 2016 2.207 2.307

5 Dhanekar, S., Chandra, S., Balasubramaniam, R., Micro-mixer device with deep channels in silicon using modified RIE process: fabrication, packaging and characterization, Microsystem Technologies, 22 (3), pp. 515-522, 2016

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6 Pelević, N., Van Der Meer, T.H., Heat transfer and pressure drop in microchannels with random roughness, International Journal of Thermal Sciences, 99, pp. 125-135, 2016

2.769 2.869

7 O’Connor, J., Punch, J., Jeffers, N., Stafford, J., Investigation of the roughness effect on flow behavior and heat transfer characteristics in microchannels, Microfluidics and Nanofluidics, 19 (2), pp. 385-394, 2015

2.537 2.637

8 Yang, S., Liang, M., Yu, B., Zou, M., Permeability model for fractal porous media with rough surfaces, Microfluidics and Nanofluidics, 18 (5-6), pp. 1085-1093, 2015

2.537 2.637

9 Liu, Y., Xu, G., Sun, J., Li, H., Investigation of the roughness effect on flow behavior and heat transfer characteristics in microchannels, International Journal of Heat and Mass Transfer, 83, pp. 11-20, 2015

2.857 2.957

10 Chen, Q.-L., Wu, K.-J., He, C.-H., Investigation on liquid flow characteristics in microtubes, AIChE Journal, 61 (2), pp. 718-735, 2015

2.980 3.080

11 Dixit, T., Ghosh, I., Review of micro- and mini-channel heat sinks and heat exchangers for single phase fluids, Renewable and Sustainable Energy Reviews, 41, pp. 1298-1311, 2015

6.798 6.898

12 Zhang, J., Diao, Y.H., Zhao, Y.H., Zhang, Y.N., An experimental study of the characteristics of fluid flow and heat transfer in the multiport microchannel flat tube, Applied Thermal Engineering, 65(1-2), pp. 209-218, 2014

2.127 2.227

13 Su, Y., Chen, G., Yuan, Q., Effect of viscosity on the hydrodynamics of liquid processes in microchannels, Chemical Engineering and Technology, 37(3), pp. 427-434, 2014

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14 Ushida, A., Hasegawa, T., Narumi, T., Anomalous phenomena in pressure drops of water flows through micro-orifices, Microfluidics and Nanofluidics, 17 (5), pp. 863-870, 2014

3.218 3.318

15 Yang, S., Yu, B., Zou, M., Liang, M., A fractal analysis of laminar flow resistance in roughened microchannels, International Journal of Heat and Mass Transfer 77, pp. 208-217, 2014

2.315 2.415

16 Chepyala, R., Panda, S., Flow characteristics of polar liquids in microfluidic immunosensors, Microfluidics and Nanofluidics 16(4), pp. 729-741, 2014

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17 Dai, B., Li, M., Ma, Y. Effect of surface roughness on liquid friction and transition characteristics in micro- and mini-channels, Applied Thermal Engineering, 67(1-2), pp. 283-293, 2014

2.127 2.227


18 Asadi, M., Xie, G., Sunden, B., A review of heat transfer and pressure drop characteristics of single and two-phase microchannels, International Journal of Heat and Mass Transfer, 79, pp. 34-53, 2014

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19 Riaud, A., Tostado, C.P., Wang, K., Luo, G., A facile pressure drop measurement system and its applications to gas-liquid microflows, Microfluidics and Nanofluidics 15(5), pp. 715-724, 2013

3.218 3.318

20 Maggiolo, D., Manes, C., Marion, A., Momentum transport and laminar friction in rough-wall duct flows, Physics of Fluids 25(9), art. no. 093603, 2013

1.942 2.042

21 Georget, E., Sauvageat, J.L., Burbidge, A., Mathys, A., Residence time distributions in a modular micro reaction system, Journal of Food Engineering 116(4) , pp. 910-919, 2013

2.276 2.376

22 Kolekar, R., Torgerson, D., Viner, J., Gale, B., Ameel, T., Depth measurement in fully enclosed microchannels using laser interferometry, Measurement Science and Technology 23(8), art. no. 087004, 2012

1.435 1.535

23 Leonida, M.D., Kumar, I., Microfluidics: From engineering to life sciences, Current Nanoscience 8(3), pp. 458-473, 2012 1.356 1.456

24 Chen, Y., Zhang, C., Fu, P., Shi, M., Characterization of surface roughness effects on laminar flow in microchannels by using fractal cantor structures, Journal of Heat Transfer 134(5), art. no. 051011, 2012

1.718 1.818

25 Dey, R., Das, T., Chakraborty, S., Frictional and heat transfer characteristics of single-phase microchannel liquid flows, Heat Transfer Engineering 33 (4-5) , pp. 425-446, 2012

0.694 0.794

26 Hetsroni, G., Mosyak, A., Pogrebnyak, E., Yarin, L.P., Micro-channels: Reality and myth, Journal of Fluids Engineering, Transactions of the ASME 133(12), art. no. 121202, 2011

0.886 0.986

27 Natrajan, V.K., Christensen, K.T., Non-intrusive measurements of transitional and turbulent convective heat transfer in a rectangular microchannel, Journal of Micromechanics and Microengineering 21(8), art. no. 085001, 2011

1.790 1.890

28 Akyildiz, F.T., Siginer, D.A., Fully developed laminar slip and no-slip flow in rough microtubes, Zeitschrift fur Angewandte Mathematik und Physik 62(4), pp. 741-748, 2011

0.938 1.038

29 Khan M.G., Fartaj A., A review on microchannel heat exchangers and potential applications, International Journal of Energy Research 35(7), pp. 553-582, 2011

1.987 2.087

30 Kumar V., Paraschivoiu M., Nigam K.D.P., Single-phase fluid flow and mixing in microchannels, Chemical Engineering Science 66(7), pp. 1329-1373, 2011

2.386 2.486

31 Zhou G., Yao S.C., Effect of surface roughness on laminar liquid flow in micro-channels, Applied Thermal Engineering 31(2-3), pp. 228-234, 2011

2.127 2.227

32 Natrajan V.K., Christensen K.T., Non-intrusive measurements of convective heat transfer in smooth- and rough-wall microchannels: Laminar flow, Experiments in Fluids 49(5), pp. 1021-1037, 2010

1.572 1.672

33 Brackbill, T.P., Kandlikar, S.G., Application of lubrication theory and study of roughness pitch during laminar, transition, and low reynolds number turbulent flow at microscale, Heat Transfer Engineering 31(8), pp. 635-645, 2010

0.694 0.794

34 Natrajan V.K., Christensen K.T., The impact of surface roughness on flow through a rectangular microchannel from the laminar to turbulent regimes, Microfluidics and Nanofluidics 9(1), pp. 95-121, 2010

3.218 3.318

35 Su, H., Niu, H., Pan, L., Wang, S., Wang, A., Hu, Y., The characteristics of pressure drop in microchannels, Industrial and Engineering Chemistry Research 49(8), pp. 3830-3839, 2010

2.206 2.306

36 Duan, Z., Muzychka, Y.S., Effects of axial corrugated roughness on low Reynolds number slip flow and continuum flow in microtubes, Journal of Heat Transfer 132(4), pp. 1-9, 2010

1.718 1.818

37 Xiong, R., Chung, J.N., Investigation of laminar flow in microtubes with random rough surfaces, Microfluidics and Nanofluidics 8(1), pp. 11-20, 2010

3.218 3.318

38 Gamrat, G., Favre-Marinet, M., Le Person, S., Modelling of roughness effects on heat transfer in thermally fully-developed laminar flows through microchannels, International Journal of Thermal Sciences 48(12), pp. 2203-2214, 2009

2.470 2.570


39 Ko, H.S., Gau, C., Bonding of a complicated polymer microchannel system for study of pressurized liquid flow characteristics with the electric double effect, Journal of Micromechanics and Microengineering 19(11), art. no. 115024, 2009

1.790 1.890

40 Kulkarni, A.A., Kalyani, V.S., Two-phase flow in minichannels: Hydrodynamics, pressure drop, and residence time distribution, Industrial and Engineering Chemistry Research 48(17), pp. 8193-8204, 2009

2.206 2.306

41 Firouzi, M., Hashemabadi, S.H., Analytical solution for Newtonian laminar flow through the concave and convex ducts, Journal of Fluids Engineering, Transactions of the ASME 131(9), pp. 0945011-0945016, 2009

0.886 0.986

42 Chen, Y., Zhang, C., Shi, M., Peterson, G.P., Role of surface roughness characterized by fractal geometry on laminar flow in microchannels, Physical Review E - Statistical, Nonlinear, and Soft Matter Physics 80(2), art. no. 026301, 2009

2.313 2.413

43 Ergu, O.B., Sara, O.N., Yapici, S., Arzutug, M.E., Pressure drop and point mass transfer in a rectangular microchannel, International Communications in Heat and Mass Transfer 36(6), pp. 618-623, 2009

2.208 2.308

44 Hasegawa, T., Ushida, A., Narumi, T., Huge reduction in pressure drop of water, glycerol/water mixture, and aqueous solution of polyethylene oxide in high speed flows through micro-orifices, Physics of Fluids 21(5), art. no. 052002, 2009

1.942 2.042

45 El-Genk, M.S., Yang, I.-H., Numerical analysis of laminar flow in micro-tubes with a slip boundary, Energy Conversion and Management 50(6), pp. 1481-1490, 2009

2.775 2.875

46 Vijayalakshmi K., Anoop K.B., Patel H.E., Harikrishna P.V., Sundararajan T., Das S.K., Effects of compressibility and transition to turbulence on flow through microchannels, International Journal of Heat and Mass Transfer 52(9-10), pp. 2196-2204, 2009

2.315 2.415

47 Mokrani, O., Bourouga, B., Castelain, C., Peerhossaini, H., Fluid flow and convective heat transfer in flat microchannels, International Journal of Heat and Mass Transfer 52(5-6), pp. 1337-1352, 2009

2.315 2.415

48 Zhang, C.-B., Chen, Y.-P., Shi, M.-H., Fu, P.-P., Wu, J.-F., Fractal characteristics of surface roughness and its effect on laminar flow in microchannels, Wuli Xuebao/Acta Physica Sinica 58(10), pp. 7050-7056, 2009

1.016 1.116

49 Hakamada, M., Asao, Y., Saito, N., Mabuchi, M., Microfluidic flows in metallic microchannels fabricated by the spacer method, Journal of Micromechanics and Microengineering 18(7), art. no. 075029, 2008

1.790 1.890

50 Silva, G., Leal, N., Semiao, V., Micro-PIV and CFD characteriza-tion of flows in a microchannel: Velocity profiles, surface roughness and Poiseuille numbers, International Journal of Heat and Fluid Flow 29(4), pp. 1211-1220, 2008

1.581 1.681

51 El-Genk, M.S., Yang, I.-H., Friction numbers and viscous dissipation heating for laminar flows of water in microtubes, Journal of Heat Transfer 130(8), art. no. 082405, 2008

1.718 1.818

52 Schuster, A., Sefiane, K., Ponton, J., Multiphase mass transport in mini/micro-channels microreactor, Chemical Engineering Research and Design 86(5), pp. 527-534, 2008

1.927 2.027

53 Duan, Z., Muzychka, Y.S., Effects of corrugated roughness on developed laminar flow in microtubes, Journal of Fluids Engineering, Transactions of the ASME 130(3), pp. 0311021-0311027, 2008

0.886 0.986

54 Rahman, M.M., Gari, A.A., Shevade, S., Heat transfer in circular microchannels during volumetric heating with magnetic field, Heat and Mass Transfer/Waerme- und Stoffuebertragung 44(4), pp. 463-472, 2008

0.840 0.940

55 Gamrat, G., Favre-Marinet, M., Le Person, S., Bavière, R., Ayela, F., An experimental study and modelling of roughness effects on laminar flow in microchannels, Journal of Fluid Mechanics 594, pp. 399-423, 2008

2.183 2.283

56 Chakraborty, S., Das, T., Chattoraj, S., A generalized model for probing frictional characteristics of pressure-driven liquid microflows, Journal of Applied Physics 102(10), art. no. 104907, 2007

2.210 2.310

57 Kulkarni, A.A., Gorasia, A.K., Ranade, V.V., Hydrodynamics and liquid phase residence time distribution in mesh microreactor, Chemical Engineering Science 62(24), pp. 7484-7493, 2007

2.386 2.486

58 Costaschuk, D., Elsnab, J., Petersen, S., Klewicki, J.C., Ameel, T., Axial static pressure measurements of water flow in a rectangular microchannel, Experiments in Fluids 43(6), pp. 907-916, 2007

1.572 1.672

59 Mills, P.L., Quiram, D.J., Ryley, J.F., Microreactor technology and process miniaturization for catalytic reactions - A perspec-tive on recent developments and emerging technologies, Chemical Engineering Science 62(24), pp. 6992-7010, 2007

2.386 2.486


60 Maynes, D., Jeffs, K., Woolford, B., Webb, B.W., Laminar flow in a microchannel with hydrophobic surface patterned microribs oriented parallel to the flow direction, Physics of Fluids 19(9), art. no. 093603, 2007

1.942 2.042

61 Shevade, S.S., Rahman, M.M., Heat transfer in rectangular microchannels during volumetric heating of the substrate, International Communications in Heat and Mass Transfer 34(6), pp. 661-672, 2007

2.208 2.308

62 Mishan, Y., Mosyak, A., Pogrebnyak, E., Hetsroni, G., Effect of developing flow and thermal regime on momentum and heat transfer in micro-scale heat sink, International Journal of Heat and Mass Transfer 50(15-16), pp. 3100-3114, 2007

2.315 2.415

63 Bahrami, M., Michael Yovanovich, M., Richard Culham, J., A novel solution for pressure drop in singly connected microchannels of arbitrary cross-section, International Journal of Heat and Mass Transfer 50(13-14), pp. 2492-2502, 2007

2.315 2.415

64 Xiong, R., Chung, J.N., Flow characteristics of water in straight and serpentine micro-channels with miter bends, Experimental Thermal and Fluid Science 31(7), pp. 805-812, 2007

1.595 1.695

65 Tang, G.H., Li, Z., He, Y.L., Tao, W.Q., Experimental study of compressibility, roughness and rarefaction influences on microchannel flow, International Journal of Heat and Mass Transfer 50(11-12), pp. 2282-2295, 2007

2.315 2.415

66 Valde ́s, J.R., Miana, M.J., Pelegay, J.L., Nu ́n ̃ez, J.L., Pu ̈tz, T., Numerical investigation of the influence of roughness on the laminar incompressible fluid flow through annular microchannels, International Journal of Heat and Mass Transfer 50(9-10), pp. 1865-1878, 2007

2.315 2.415

67 Tang, G.H., Li, Z., He, Y.L., Zhao, C.Y., Tao, W.Q., Experimental observations and lattice Boltzmann method study of the electroviscous effect for liquid flow in microchannels, Journal of Micromechanics and Microengineering 17(3), art. no. 017, pp. 539-550, 2007

1.790 1.890

68 Hrnjak, P., Tu, X., Single phase pressure drop in microchannels, International Journal of Heat and Fluid Flow 28(1 SPEC. ISS.), pp. 2-14, 2007

1.581 1.681

69 Wang, L., Ge, W., Chen, F., Pseudo-particle modeling for gas flow in microchannels, Chinese Science Bulletin 52(4), pp. 450-455, 2007

1.319 1.419

70 Chakraborty, S., Towards a generalized representation of surface effects on pressure-driven liquid flow in microchannels, Applied Physics Letters 90(3), art. no. 034108, 2007

3.794 3.894

71 Steinke, M.E., Kandlikar, S.G., Single-phase liquid friction factors in microchannels, International Journal of Thermal Sciences 45(11), pp. 1073-1083, 2006

2.470 2.570

72 Bahrami, M., Yovanovich, M.M., Culham, J.R., Pressure drop of fully-developed, laminar flow in microchannel of arbitrary cross-section, Journal of Fluids Engineering, Transactions of the ASME 128(5), pp. 1036-1044, 2006

0.886 0.986

73 Rands, C., Webb, B.W., Maynes, D., Characterization of transition to turbulence in microchannels, International Journal of Heat and Mass Transfer 49(17-18), pp. 2924-2930, 2006

2.315 2.415

74 Bavière, R., Gamrat, G., Favre-Marinet, M., Le Person, S., Modeling of laminar flows in rough-wall microchannel, Journal of Fluids Engineering, Transactions of the ASME 128(4), pp. 734-741, 2006

0.886 0.986

75 Li, H., Olsen, M.G., Examination of large-scale structures in turbulent microchannel flow, Experiments in Fluids 40(5), pp. 733-743, 2006

1.572 1.672

76 Li, H., Olsen, M.G., Aspect ratio effects on turbulent and transitional flow in rectangular microchannel as measured with microPIV, Journal of Fluids Engineering, Transactions of the ASME 128(2), pp. 305-315, 2006

0.886 0.986

77 Li, H., Olsen, M.G., MicroPIV measurements of turbulent flow in square microchannels with hydraulic diameters from 200 μm to 640 μm, International Journal of Heat and Fluid Flow 27(1), pp. 123-134, 2006

1.581 1.681

78 Schneider, M.-A., Stoessel, F., Determination of the kinetic parameters of fast exothermal reactions using a novel microreactor-based calorimeter, Chemical Engineering Journal 115(1-2), pp. 73-83, 2005

3.473 3.573

79 Baviere, R., Ayela, F., Le Person, S., Favre-Marinet, M., Experimental characterization of water flow through smooth rectangular microchannels, Physics of Fluids 17(9), art. no. 098105, pp. 1-4, 2005

1.942 2.042


80 Alfadhel, K.A., Kothare, M.V., Microfluidic modeling and simulation of flow in membrane microreactors, Chemical Engineering Science 60(11), pp. 2911-2926, 2005

2.386 2.486

81 Hetsroni, G., Mosyak, A., Pogrebnyak, E., Yarin, L.P., Fluid flow in micro-channels, International Journal of Heat and Mass Transfer 48(10), pp. 1982-1998, 2005

2.315 2.415

82 Li, H., Ewoldt, R., Olsen, M.G., Turbulent and transitional velocity measurements in a rectangular microchannel using microscopic particle image velocimetry, Experimental Thermal and Fluid Science 29(4), pp. 435-446, 2005

1.595 1.695

83 Kohl, M.J., Abdel-Khalik, S.I., Jeter, S.M., Sadowski, D.L., An experimental investigation of microchannel flow with internal pressure measurements, International Journal of Heat and Mass Transfer 48(8), pp. 1518-1533, 2005

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84 Kohl, M.J., Abdel-Khalik, S.I., Jeter, S.M., Sadowski, D.L., A microfluidic experimental platform with internal pressure measurements, Sensors and Actuators, A: Physical 118(2), pp. 212-221, 2005

1.841 1.941

85 Kandlikar, S.G., Roughness effects at microscale - Reassessing Nikuradse's experiments on liquid flow in rough tubes, Bulletin of the Polish Academy of Sciences: Technical Sciences 53 (4), pp. 343-349, 2005

0.980 1.080

86 Ren, C.L., Li, D., Improved understanding of the effect of electrical double layer on pressure-driven flow in micro-channels, Analytica Chimica Acta 531(1), pp. 15-23, 2005

4.387 4.487

87 Yue, J., Chen, G., Yuan, Q., Pressure drops of single and two-phase flows through T-type microchannel mixers, Chemical Engineering Journal 102(1), pp. 11-24, 2004

3.473 3.573

88 Morini, G.L., Single-phase convective heat transfer in microchannels: A review of experimental results, International Journal of Thermal Sciences 43(7), pp. 631-651, 2004

2.470 2.570

89 Sharp, K.V., Adrian, R.J., Transition from laminar to turbulent flow in liquid filled microtubes, Experiments in Fluids 36(5), pp. 741-747, 2004

1.572 1.672

90 Chen, X.Y., Toh, K.C., Chai, J.C., Yang, C., Developing pressure-driven liquid flow in microchannels under the electrokinetic effect, International Journal of Engineering Science 42(5-6), pp. 609-622, 2004

1.691 1.791

91 Chen, X.Y., Toh, K.C., Yang, C., Chai, J.C., Numerical computation of hydrodynamically and thermally developing liquid flow in microchannels with electrokinetics effects, Journal of Heat Transfer 126(1), pp. 70-75, 2004

1.718 1.818

92 Brutin, D., Topin, F., Tadrist, L., Transient Method for the Liquid Laminar Flow Friction Factor in Microtubes, AIChE Journal 49(11), pp. 2759-2767, 2003

2.493 2.593

93 Wu, H.Y., Cheng, P., Friction factors in smooth trapezoidal silicon microchannels with different aspect ratios, International Journal of Heat and Mass Transfer 46(14), pp. 2519-2525, 2003

2.315 2.415

94 Brutin, D., Tadrist, L., Experimental friction factor of a liquid flow in microtubes, Physics of Fluids 15(3), pp. 653-661, 2003 1.942 2.042

95 Chen, Y., Cheng, P., Fractal characterization of wall roughness on pressure drop in microchannels, International Communications in Heat and Mass Transfer 30(1), pp. 1-11, 2003

2.208 2.308

96 Buranda, T., Huang, J., Perez-Luna, V.H., Schreyer, B., Sklar, L.A., Lopez, G.P., Biomolecular recognition on well-characterized beads packed in microfluidic channels, Analytical Chemistry 74(5), pp. 1149-1156, 2002

5.695 5.795

Articol care citează în reviste cu factor de impact < 0.5

97 Ogata, S., Miyagi, J., Tsubone, T., Effect of surface roughness on micro-channel flow of dilute polymer solutions, Nihon Reoroji Gakkaishi, 44 (3), pp. 131-135, 2016

0.282 0.382

98 Ushida, A., Hasegawa, T., Uchiyama, H., Narumi, T., Measurement of jet thrusts and pressure drops and estimation of elongational stress of liquids in slit flows, Kagaku Kogaku Ronbunshu 37(3), pp. 203-210, 2011

0.370 0.470

99 Kumaraguruparan, G., Sornakumar, T., Development and testing of aluminum micro channel heat sink, Journal of Thermal Science 19(3), pp. 245-252, 2010

0.302 0.402


100 Hausner, O., Herwig, H., The study of micro scale effects in continuum flows with an experimental set-up with a continuously decreasing characteristic length, Forschung im Ingenieurwesen/Engineering Research 70(4), pp. 207-214, 2006

0.243 0.343

101 Baviere, R., Ayela, F., Local pressure drop measurements in microchannels by micromachined strain gauges, Houille Blanche (3), pp. 38-42, 2006

0.099 0.199

102 Brutin, D., Tadrist, L., Experimental study of the friction factor of liquid laminar flows in microtubes | [Etude expérimentale du coefficient de frottement d'écoulements laminaires en microtubes], Houille Blanche (5), pp. 40-45, 2003

0.099 0.199

OBSERVAŢIE: Restul articolelor care citează (până la totalul de 163), reprezintă articole publicate în reviste indexate ISI (FI = 0) sau ISI Proceedings Pentru fiecare dintre acestea s-a luat în calcul valoarea indicată în metodologie, FI* = FI +0.1 = 0.1



R4. Horbaniuc B., Dumitrascu Gh., Popescu A., Mathematical models for the study of solidification within a longitudinally finned heat pipe latent heat thermal storage system, Energy Conversion and Management, Pergamon Press, 40, pp. 1765-1774, 1999 (ISSN 0196-8904, factor impact 2.775; 69 citări)

2.775 2.875 158.367


1 Liu, J., Xu, C., Ju, X., (...), Ren, Y., Du, X., Numerical investigation on the heat transfer enhancement of a latent heat thermal energy storage system with bundled tube structures, Applied Thermal Engineering, 112, pp. 820-831, 2017

3.043 3.143

153.192+ 2.3=

155.492

2 Shukla, A., Kant, K., Sharma, A., Biwole, P.H., Cooling methodologies of photovoltaic module for enhancing electrical efficiency: A review, Solar Energy Materials and Solar Cells, 160, pp. 275-286, 2017

4.732 4.832

3 Du, Y., Ding, Y., Towards improving charge/discharge rate of latent heat thermal energy storage (LHTES) by embedding metal foams in phase change materials (PCMs), Chemical Engg and Processing: Process Intensification, 108, pp. 181-188, 2016

2.154 2.254

4 Tiari, S., Qiu, S., Mahdavi, M., Discharging process of a finned heat pipe-assisted thermal energy storage system with high temperature phase change material, Energy Conversion and Management, 118, pp. 426-437, 2016

4.801 4.901

5 Agyenim, F., The use of enhanced heat transfer phase change materials (PCM) to improve the coefficient of performance (COP) of solar powered LiBr/H2O absorption cooling systems, Renewable Energy, 87, pp. 229-239, 2016

3.404 3.504

6 Xu, B., Li, P., Chan, C., Application of phase change materials for thermal energy storage in concentrated solar thermal power plants: A review to recent developments, Applied Energy, 160, pp. 286-307, 2015

5.746 5.846

7 Naghavi, M.S., Ong, K.S., Mehrali, M., Badruddin, I.A., Metselaar, H.S.C., A state-of-the-art review on hybrid heat pipe latent heat storage systems, Energy Conversion and Management, 105, pp. 1178-1204, 2015

4.801 4.901

8 John, G., König-Haagen, A., King'ondu, C.K., Brüggemann, D., Nkhonjera, L., Galactitol as phase change material for latent heat storage of solar cookers: Investigating thermal behavior in bulk cycling, Solar Energy, 119, pp. 415-421, 2015

3.685 3.785

9 Diao, Y.H., Wang, S., Zhao, Y.H., (...), Li, C.Z., Li, F.F., Experimental study of the heat transfer characteristics of a new-type flat micro-heat pipe thermal storage unit, Applied Thermal Engineering, 89, 6763, pp. 871-882, 2015

3.043 3.143

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4.801 4.901

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4.781 4.881

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2.952 3.052

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2.775 2.875

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2.775 2.875

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2.315 2.415

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4.781 4.881

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4.781 4.881

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4.781 4.881

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0.840 0.940

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1.093 1.193

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0.000 0.100

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2.315 2.415

33 Agyenim, F., Eames, P., Smyth, M., Experimental study on the melting and solidification behaviour of a medium temperature phase change storage material (Erythritol) system augmented with fins to power a LiBr/H2O absorption cooling system, Renewable Energy 36(1), pp. 108-117, 2011

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5.627 5.727


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2.989 3.089

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2.952 3.052

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2.127 2.227

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0.881 0.981

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2.224 2.324

42 Liu, Z., Wang, Z., Ma, C., An experimental study on heat transfer characteristics of heat pipe heat exchanger with latent heat storage. Part I: Charging only and discharging only modes, Energy Conversion and Management 47(7-8), pp. 944-966, 2006

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1.609 1.709

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2.206 2.306

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1.793 1.893

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2.775 2.875




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2.989 3.089 31.446


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4.801 4.901

28.357

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4.801 4.901

3 Tay, N.H.S., Bruno, F., Belusko, M., Experimental investigation of dynamic melting in a tube-in-tank PCM system, Applied Energy 104 , pp. 137-148, 2013

4.781 4.881

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4.781 4.881

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9 Amin, N.A.M., Bruno, F., Belusko, M., Investigation of conducting pins in sphere filled with phase change material for enhancing heat transfer in thermal energy storage, Advanced Materials Research 472-475, pp. 1693-1697, 2012

0.000 0.100

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2.315 2.415

25.881+ 0.7=

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6 Liu Z., Zhao Y., Takei M., Experimental study on axial wall heat conduction for convective heat transfer in stainless steel microtube, Heat and Mass Transfer 43(6), pp.587-594, 2007

0.840 0.940

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3.218 3.318

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2.315 2.415




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0.000 0.100 14.569


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0.694 0.794

12.769+ 1.7=

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2.315 2.415


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