Skip to main content
Disciplines
Automotive Business IT + Informatics Construction + Real Estate Electrical Engineering + Electronics Energy + Sustainability Insurance + Risk Finance + Banking Management + Leadership Marketing + Sales Mechanical Engineering + Materials
Events
DE
EN
Books
Journals
Topic Page
Marketing
Start single access now
Access for companies
EXTENDED SEARCH
Log in
Top
Published in:
Cover of the book

2020 | OriginalPaper | Chapter

1. Introduction

Authors : Sujoy Kumar Saha, Hrishiraj Ranjan, Madhu Sruthi Emani, Anand Kumar Bharti

Published in: Heat Transfer Enhancement in Plate and Fin Extended Surfaces

Publisher: Springer International Publishing

Log in

Activate our intelligent search to find suitable subject content or patents.

search-config
loading …

Abstract

The details of plate-fin surface geometries have been presented in this chapter. Different designs of plate-fins used for compact heat exchangers have also been presented. The applications of plate-fin-extended surfaces for heat transfer enhancement in both single-phase and two-phase flows, as studied by researchers across the globe, have been discussed. The works carried out on the fouling of compact heat exchangers has also been dealt with in this chapter.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

  • über 102.000 Bücher
  • über 537 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Finance + Banking
  • Management + Führung
  • Marketing + Vertrieb
  • Maschinenbau + Werkstoffe
  • Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

  • über 67.000 Bücher
  • über 390 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Maschinenbau + Werkstoffe




 

Jetzt Wissensvorsprung sichern!

inform now
next chapter Offset-Strip Fins
Literature
Abdel-Kariem AH, Fletcher LS (1999) Comparative analysis of heat transfer and pressure drop in plate heat exchangers. In: Proc of the 5th ASME/JSME thermal eng conf, San Diego, CA, AJTE99-6291
Abu Madi M, Johns RA, Heikal MR (1998) Performance characteristics correlation for round tube and plate finned heat exchangers. Int J Refrig 21:507–517CrossRef
Aldoss TK (2004) Using capsulated liquid metal fins for heat transfer enhancement. J Enhanc Heat Transf 11(2):151–160CrossRef
Ali MM, Ramadhyani S (1992) Experiments on convective heat transfer in corrugated channels. Exp Heat Transfer 5:175–193CrossRef
Aoki H, Shinagawa T, Suga K (1989) An experimental study of the local heat transfer characteristics in automotive louvered fins. Exp Therm Fluid Sci 2:293–300CrossRef
Araid FF, Awad MM, El-hadik AA (1983) Heat transfer and hydrodynamic resistance in compacting plate heat exchanger type ‘divergent-convergent’ surfaces. ASME-JSME Therm Eng Joint Conf Proc 3:437–441
Asano H, Takenaka N, Fujii T (2004) Flow characteristics of gas–liquid two- phase flow in plate heat exchanger: (visualization and void fraction measurement by neutron radiography). Exp Therm Fluid Sci 28:223–230CrossRef
Asby MF, Evans AG, Fleck NA, Gibson LJ, Hatchinson JW, Wadley HNG (2000) Metal foams: a design guide. Butterworth & Heinemann, Boston
Ay H, Jang J, Yeh J-N (2002) Local heat transfer measurements of plate finned-tube heat exchangers by infrared thermography. Int J Heat Mass Transfer 45:4069–4078CrossRef
Ayub ZH (2003) Plate heat exchanger literature survey and new heat transfer and pressure drop correlations for refrigerant evaporators. Heat Transfer Eng 24(5):3–16CrossRef
Bai X, Newell TA (2000) Two-phase flow characteristics in Chevron-style flat plate heat exchangers. In: Proc 2000 int refrigeration conf at Purdue, pp 87–94
Bailey KM (1997) Plate heat exchangers: a compact heat exchanger technology. In: Proc int conf on compact heat exchangers for the process. Ind Begell House Inc., New York, pp 1–10
Bansal B, Muller-Steinhagen H (1993) Crystallization fouling in plate heat exchangers. J Heat Transfer 115:584–591CrossRef
Barker JJ (1958) The efficiency of the composite fins. Nucl Sci Eng 3:300–312CrossRef
Barrow H, Sherwin K (1994) Theoretical investigation of the effect of fouling on the performance of a tube and plate fin heat exchanger. Heat Recov Syst CHP 14:1–5CrossRef
Berndt T, Connell JW (1978) Plate heat exchangers for OTEC. In: Proc the fifth ocean thermal energy conversion conf, pp VI-288–VI-320
Bhatt Bhattacharya A, Mahajan RL (2002) Finned metal foam heat sinks for electronics cooling in forced convection. J Electron Packag 124:155–163CrossRef
Bowen BD, Epstein N (1979) Fine particle deposition in smooth parallel-plate channels. J Colloid Interface Sci 72(1):81–97CrossRef
Brinkman R, Ramadhyani S, Incropera FP (1988) Enhancement of convective heat transfer from small heat sources to liquid coolants using strip fins. Exp Heat Transfer 1:315–330CrossRef
Brockmeier U, Guntermann T, Fiebig M (1993) Performance evaluation of a vortex generator heat transfer surface and comparison with different high performance surfaces. Int J Heat Mass Transfer 36:2575–2587CrossRef
Calmidi VV, Mahajan RL (2000) Forced convection in high porosity metal foams. J Heat Transfer 122:557–565CrossRef
Chang YJ, Wang CC (1996) Air side performance of brazed aluminum heat exchangers. J Enhanc Heat Transf 3:15–28CrossRef
Charre O, Jurkowsk R, Bailly A, Maziani S, Altazin M (2003) General model for plate heat exchanger performance prediction. J Enhanc Heat Transf 10:181–186
Cheng L, Xia G (2001) Characteristics of single-phase heat transfer and pressure drop in plate heat exchangers with and without PTFE coatings. In: Exp heat transfer, fluid mechanics, and thermodynamics (2001) Edzioni ETS, Pisa, Italy, pp 1815–1820
Chiba T, Kinoshita T, Shinmura T, Aoki H, Nakajima Y (1998) New development of plate and fin evaporator. In: SAE int congress and exposition SAE 981179
Chu HS, Weng CI, Chen CK (1983) Transient response of a composite straight fin. J Heat Transfer 105(2):307–311CrossRef
Chung BT, Iyer JR (1993) Optimum design of longitudinal rectangular fins and cylindrical spines with variable heat transfer coefficient. Heat Transfer Eng 14(1):31–42CrossRef
Claesson J, Simanic B (2003) Pressure drop and visualization of adiabatic R134a two-phase flow inside a Chevron type plate heat exchanger. In: Proc the 21st IIR int congress of refrigeration, Washington, DC, ICR 314
Corberán JM, Melón MG (1998) Modelling of plate finned tube evaporators and condensers working with R134A. Int J Refrig 21:273–284CrossRef
Creswick FA, Talbert SG, Bloemer JW (1964) Compact heat exchanger study. Battelle Memorial Institute Report, ColumbusCrossRef
Das PK, Ghosh I (2012) Thermal design of multistream plate fin heat exchangers—a state-of-the-art review. Heat Transfer Eng 33(4–5):284–300CrossRef
Davenport CJ (1983) Heat transfer and flow friction characteristics of louvered heat exchanger surfaces. In: Taborek J, Hewitt GF, Afgan N (eds) Heat exchangers: theory and practice. Hemisphere Publishing, Washington, DC, pp 387–412
Dong J, Chen J, Chen Z, Zhou Y, Zhang W (2007) Heat transfer and pressure drop correlations for the wavy fin and flat tube heat exchangers. Appl Therm Eng 27:2066–2073CrossRef
Dović D, Palm B, Švaić S (2002) Basic single phase flow phenomena in Chevron type plate heat exchangers. Zero leaks – minimum charge, IIR/IIF, Stockholm, Sweden Paper H4
Dovic D, Svaic S (2004) Experimental and numerical study of the flow and heat transfer in plate heat exchanger channels. In: Tenth international refrigeration and air conditioning conference at Purdue, R097
Dubrovskii EV, Fedotva AL (1972) Investigation of heat exchanger surfaces with plate fins. Heat Transfer Sov Res 4:75–79
Dubrovsky EV (1993) Highly effective plate-fin “heat exchanger surfaces: from conception to manufacturing”. In: Aerospace heat exchanger technology, pp 501–547
Dubrovsky EV (1995) Experimental investigation of highly effective plate-fin heat exchanger surfaces. Exp Therm Fluid Sci 10(2):200–220CrossRef
Eckert ER, Drake G (1959) Heat and mass transfer, 2nd edn. McGraw-Hill, New York
Edwards MF (1983) Heat transfer in plate heat exchangers at low Reynolds numbers in low Reynolds number flow heat exchangers. Hemisphere Publishing Corporation, Washington, DC, pp 933–947
Edwards FJ, Henry TA, Hayward GL (1973) The characteristics of the tube and continuous plate fin type of compact heat exchanger. In: Conf on recent dev in compact high duty heat exchangers, Institution of Mech Eng, pp 53–61
Feijoo L, Davis HT, Ramkrishna D (1979) Heat transfer in composite solids with heat generation. J Heat Transfer 101(1):137–143CrossRef
Feldman A, Marvillet C, Lebouché M (2000) Nucleate and convective boiling in plate fin heat exchangers. Int J Heat Mass Transfer 43:3433–3442CrossRef
Fiebig M, Valencia A, Mitra NK (1993) Wing-type vortex generators for fin-and- tube heat exchangers. Exp Therm Fluid Sci 7:287–295CrossRef
Fletcher LS, Abdel-Kariem AH (1999) A comparative analysis of heat transfer and pressure drop in plate heat exchangers. In: Proc 5th ASME/JSME thermal eng joint conf, Paper ATJE99-6291
Fujikake K, Aoki H, Mitui H (1983) An apparatus for measuring the heat transfer coefficients of finned heat exchangers by use of a transient method. In: Proc of Japan 20th symposium on heat transfer, pp 466–468
Fukai J, Miyatake O (1991a) Laminar-flow heat transfer within parallel-plate channel with staggered baffles. Abstract Kagaku Kogaku Ronbun 17:325
Fukai J, Miyatake O (1991b) Evaluation of heat transfer augmentation for laminar flow within parallel plate channel with staggered baffles. Abstract Kagaku Kogaku Ronbun 17:904CrossRef
Galezha VB, Usyukin JP, Kan KD (1976) Boiling heat transfer with Freons in finned-plate heat exchangers. Heat Transfer Sov Res 8(3):103–110
Goldstein LJ, Sparrow EM (1977) Heat/mass transfer characteristics for flow in a corrugated wall channel. J Heat Transfer 99:187–195CrossRef
Gorobets V (2008) Influence of coatings on thermal characteristics and optimum sizes of fins. J Enhanc Heat Transf 15(1):65–80CrossRef
Gudmundsson JS (1981) Particulater fouling. In: Fouling of heat transfer equipment, pp 357–387
Guo K, Zhang N, Smith R (2015) Optimisation of fin selection and thermal design of counter-current plate-fin heat exchangers. Appl Therm Eng 78:491–499CrossRef
Gut JAW, Pinto JM (2003) Modeling of plate heat exchangers with generalized configurations. Int J Heat Mass Transfer 46:2571–2585CrossRef
Gut JAW, Pinto JM (2004) Optimal configuration design for plate heat exchangers. Int J Heat Mass Transfer 47:4833–4848CrossRef
Hamaguchi K, Takahashi S, Miyabe H (1983) Heat transfer characteristics of a regenerator matrix (case of packed wire gauzes). Trans JSME 49B-445:2001–2009CrossRef
Haseler L (1983) Performance calculation methods for multistream plate fin heat exchangers. In: Taborek J, Hewitt GF, Afgan N (eds) Heat exchangers—theory and practice. Hemisphere Publishing, New York, pp 495–506
Hesselgreaves JE (2001) Compact heat exchangers: selection. In: Design and operation
Hicksen DC (1999) Boiling and condensation heat transfer coefficients in a plate heat exchanger. In: IMeChE conf trans, 6th UK national conf on heat transfer, pp 133–139
Hsieh YY, Lin TF (2002) Saturated flow boiling heat transfer and pressure drop of refrigerant R-410A in a vertical plate heat exchanger. Int J Heat Mass Transfer 45:1033–1044CrossRef
Huang SC, Chang YP (1980) Heat conduction in unsteady, periodic, and steady states in laminated composites. J Heat Transfer 102(4):742–748CrossRef
Ismail LS, Velraj R, Ranganayakulu C (2010) Studies on pumping power in terms of pressure drop and heat transfer characteristics of compact plate-fin heat exchangers—a review. Renew Sust Energ Rev 14(1):478–485CrossRef
Jokar A, Eckels SJ, Hosni MH (2004) Thermo-hydrodynamic of the evaporation of refrigerant R134A in brazed plate heat exchangers. In: ASME heat transfer/fluids engineering summer conference, HT-FED2004-56573
Jonsson H, Moshfegh B (2000) Modeling of the thermal and hydraulic performance of plate fin, strip fin, and pin fin heat sinks – influence of flow bypass. In: Kromann GB, Culham JR, Ramakrishna K (eds) Intersociety conf on thermal and thermomechanical phenomena in electronic systems, vol 1, pp 185–192
Kameoka T, Nakamura K (1975) Investigation on convective heat transfer from finned plate surface, JSME, Transactions, vol. 41, no. 346, 1975–1976, p. 1878–1888.) Heat Transfer - Japanese Research, vol. 6, Jan.-Mar. 1977, p. 41–54. Translation
Kanzaka M, Iwabuchi M, Aoki Y, Ueda S (1989) Study on heat transfer characteristics of pin finned plate type heat exchangers. AIChE Symp Ser 269(85):306
Kays WM, London AL (1984) Compact hear exchangers, 3rd edn. McGraw-Hill, New Year
Kedzierski MA (1997) Effect of inclination on the performance of a compact brazed plate condenser and evaporator. Heat Transfer Eng 18(3):25–38CrossRef
Kedzierski M (1998) Effect of inclination/mal-distribution on the performance of a compact brazed plate condenser and evaporator. ASHRAE Trans 104:1
Kern DQ, Kraus AD (1972) Extended surface heat transfer
Kim SY, Paek JW, Kang BH (2000) Flow and heat transfer correlations for porous fin in a plate-fin heat exchanger. Heat Transfer 122:572–578CrossRef
Kim NH, Yun JH, Webb RL (1997) Heat transfer and friction correlations for wavy plate fin-and-tube heat exchangers. J Heat Transfer 119(3):560–567CrossRef
Klett J, Ott R, McMillan A (2000) Heat exchangers for heavy vehicles utilizing high thermal conductivity graphite foams. SAE Paper No. 2000-01-2207
Koyama S, Yara T (1999) Heat transfer of binary Zeotropic mixtures in a plate-fin condenser. In: Proc int conf on compact heat exchangers and enhancement technology for the process ind, pp 423–430
Koyama S, Yu J, Matsumoto T (1998) Approximate analysis for laminar film condensation of pure refrigerant on vertical finned surface. J Enhanc Heat Transf 5(3):191–200CrossRef
Kraus AD (1988) Sixty-five years of extended surface technology (1922–1987). Appl Mech Rev 41(9):321–364CrossRef
Laor K, Kalman H (1992) The effect of tip convection on the performance and optimum dimensions of cooling fins. Int Commun Heat Mass Transfer 19(4):569–584CrossRef
Lee YN (1980) Technological advancement in all aluminum plate-type oil cooler. In: Compact heat exchangers – history, technological advancement and mechanical design problems HTD, ASME, vol 10, pp 145–152
Legkiy VM, Babenko Y, Dikiy VA (1979) Heat transfer and drag of plate-type heat exchangers with hemispherical projections. Heat Transfer Sov Res 11(2):143–150
Li Q, Flamant G, Yuan X et al (2011) Compact heat exchangers: a review and future applications for a new generation of high temperature solar receivers. Renew Sust Energ Rev 15(9):4855–4875CrossRef
Liang CY, Yang WJ (1975) Heat transfer and friction loss performance of perforated heat exchanger surfaces. J Heat Transfer 97:9–15CrossRef
London AL, Shah RK (1968) Offset rectangular plate-fin surfaces heat transfer and flow friction characteristics. ASME J Eng Power 90:218–228CrossRef
Longo GA, Gasparella A, Sartori R (2003) Development of innovative plate heat exchangers for refrigeration application. In: Proc of the 21st IIR int congress of refrigeration, Washington, DC, ICR 62
Longo GA, Gasparella A, Sartori R (2004a) Experimental heat transfer coefficients and pressure drop during refrigerant vaporization inside plate heat exchangers. In: Tenth international refrigeration and air conditioning conference at Purdue, R095
Longo GA, Gasparella A, Sartori R (2004b) Experimental heat transfer coefficients during refrigerant vaporization and condensation inside herringbone-type plate heat exchangers with enhanced surfaces. Int J Heat Mass Transfer 47:4125–4136CrossRef
Manglik RM (1996) Plate heat exchangers for process industry applications: enhanced thermal hydraulic characteristics of chevron plates. In: Manglik RM, Kraus AD (eds) Enhanced and multiphase heat trans. Begell House, New York, pp 267–276
Marr YN (1990) Correlating data on heat transfer in plate-fin heat exchangers with short offset fins. Therm Eng 37:249–252
Marriott J (1977) Performance of an Alfaflex plate heat exchanger. Chem Eng Prog 2:73–78
Marsi MA, Cliffe KR (1996) A study of the deposition of fine particles in compact plate fin heat exchangers. J Enhanc Heat Transf 3:259–272CrossRef
Marvillet C (1991) Welded plate heat exchangers as refrigerants dry-ex evaporators. Design and operation of heat exchangers. Springer-Verlag, Berlin, Germany, pp 265–268
Masri MA, Cliffe KR (1996) A study of the deposition of fine particles in compact plate fin heat exchangers. J Enhanc Heat Transf 3(4):259–272CrossRef
McNab GS, Meisen A (1973) Thermophoresis in liquids. J Colloid Interface Sci 44(2):339–346CrossRef
Mennicke U (1972) The apparent overall heat transfer coefficient of plate heat exchangers. Waerme Stoffuebertragung 5:168–180CrossRef
Metzner AB, Friend WL (1958) Theoretical analogies between heat, mass and momentum transfer and modifications for fluids of high Prandtl or Schmidt numbers. Can J Chem Eng 36(6):235–240CrossRef
Mochizuki S, Yagi Y (1977) Heat transfer and friction characteristics of strip fins. Heat Transfer Jpn Res 6:36–59
Mochizuki S, Yagi Y, Enomoto T (1979) Transient response of air-cooled plate-fin condensers. Refrigeration 54(624):835–843
Molki M, Yuen CM (1986) Effect of interwall spacing on heat transfer and pressure drop in a corrugated wall channel. Int J Heat Mass Transfer 29:987–997CrossRef
Muley A, Manglik RM (1997a) Enhanced heat transfer characteristics of single-phase flows in a plate heat exchanger with mixed Chevron plates. J Enhanc Heat Transf 4(3):187CrossRef
Muley A, Manglik RM (1997b) Experimental study of turbulent flow heat transfer and pressure drop in a plate heat exchanger with chevron plates. In: Oosthuizen PH, Armaly BF, Chen TS, Pepper DW, Acharya S (eds) ASME proc of the 32nd national heat trans conf, HTD, vol 346, pp 69–76
Newson IH, Bott TR, Hussain CI (1983) Studies of magnetite deposition from a flowing suspension. Chem Eng Commun 20(5–6):335–353CrossRef
O’Brien JE, Sparrow EM (1982) Corrugated-duct heat transfer, pressure drop and flow visualization. J Heat Transfer 104:410–416CrossRef
Ohadi MM, Salemi M, Dessiatoun S, Singh A (1995) EHD-enhanced pool boiling of r-123 in a parallel plate configuration. In: Fletcher LS Aihara T (eds) Proc of the ASME/JSME thermal eng joint conference, vol 2, pp 225–232
Okada K, Ono M, Tomimura T, Okuma T, Konno H, Ohtani S (1972) Design and heat transfer characteristics of new plate type heat exchanger. Heat Trans Jpn Res 1(1):90–95
Oshima T, Iuchi S (1974) Calculation method for cooler condensers with continuous plate finned tubes. Heat Trans Jpn Res 3(3):1–5
Ouazia B (2001) Evaporation heat transfer and pressure drop of HFC-134a inside a plate heat exchanger. In: Aminemi NK, Toma O, Rudland R, Crain E (eds) Proc of the ASME process industries division paper, pp 115–124
Paffenbarger J (1990) General computer analysis of multistream, plate-fin heat exchangers in compact heat exchangers: a festschrift for London AL. Hemisphere Publishing Corporation, Washington, DC, pp 727–746
Panchal CB, Hillis DL, Thomas A (1983) Convective boiling of ammonia and Freon 22 in plate heat exchangers. ASME-JSME Therm Eng Joint Conf Proc 2:261–268
Panitsidis H, Greham RD, Westwater JW (1975) Boiling of liquids in a compact plate-fin heat exchanger. Int J Heat Mass Transfer 18:37–42CrossRef
Parker KO, Coombs, MG (1980) New developments in compact plate-fin heat exchangers. In: Compact heat exchangers history technological advancement and mechanical design problems, vol 10, pp 171–179
Pauley WR, Eaton JK (1988) Experimental study of the development of longitudinal vortex pairs embedded in a turbulent boundary layer. AIAA J 26:816–823CrossRef
Peng XF, Peterson GP, Wang BX (1996) Flow boiling of binary mixtures in microchanneled plates. Int J Heat Mass Transfer 39:1257–1264CrossRef
Prasad BS (1991) The performance prediction of multistream plate-fin heat exchangers based on stacking pattern. Heat Transfer Eng 12(4):58–70CrossRef
Pritchard AM, Clarke RH, de Block MX (1992) Fouling of small passages in compact heat exchangers. In: Fouling mechanisms, theoretical and practical aspects, Eurotherm seminar, vol 23, pp 47–56
Pucci PF, Howard CP, Piersall CH Jr (1967) The single blow transient testing technique for compact heat exchanger surfaces. J Eng Power 89:29–39
Quazia B (2001) Evaporation heat transfer and pressure drop of hfc-134a inside a plate heat exchanger. In: Proc of 2001 ASME int mech eng congress and exposition PID-6, pp 115–123
Raghavan VR, Murthy MS (1983) On the selection of fin profiles for OTEC plate-fin evaporators. Energy Convers Manag 23(4):193–199CrossRef
Rao B, Das S (2004) Effect of flow distribution to the channels on the thermal performance of the multipass plate heat exchangers. Heat Transfer Eng 25(8):48–59CrossRef
Robertson JM, Lovegrove PC (1980) Boiling heat transfer with Freon 11 in brazed-aluminum plate-fin heat exchangers. ASME paper no 80-HT-58
Rosenblad G, Kullendorf A (1975) Estimating heat transfer rates from mass transfer studies on plate heat exchanger surfaces. Wiirme Stoffubertrag 8:187–191CrossRef
Rovazhyanskiy LL, Atroshchenko VI, Kedrov MS (1977) Coefficients of heat transfer for condensation of low pressure steam in plate condensers with slot-like channels in a grid pattern. Heat Trans Sov Res 9(2):28–31
Rupani A, Molki M, Ohadi M, Franca F (2002) Flow boiling of R-134a in a minichannel plate evaporator with augmented surface. Heat Trans Proc 12th Int Heat Trans Conf 4:279–284
Rupani AP, Molki M, Ohandi MM, Franca FHR (2003) Enhanced flow boiling of r-134a in a minichannel plate evaporator. J Enhanc Heat Transf 10:1–8CrossRef
Sarma PK, Chary SP, Rao VD (1989) Condensation of vertical plate fins of variable cross section-limiting solutions. Can J Chem Eng 67:937–941CrossRef
Shah RK (1975a) Perforated heat exchanger studies. Part 1: Flow phenomena, noise and vibration. ASME Paper No. 75-WA/HT-8, ASME, New York
Shah RK (1975b) Perforated heat exchanger studies. Part 2: Heat transfer and flow friction characteristics. ASME Paper 75-WA/HT-9, ASME, New York
Sieder EN, Tate GE (1936) Heat transfer and pressure drop of liquids in tubes. Ind Eng Chem 28(12):1429–1435CrossRef
Smith MC (1972) Performance analysis and model experiments for louvered fin evaporator core development. SAE Paper No. 720078
Sohrabpour S, Razani A (1993) Optimization of convective fin with temperature-dependent thermal parameters. J Franklin Institute 330(1):37–49MATHCrossRef
Sparrow EM, Baliga RR, Patankar SV (1977) Heat transfer and fluid flow analysis of interrupted-wall channels, with application to heat exchangers. J Heat Transfer 99:4–11CrossRef
Sparrow EM, Hossfeld M (1984) Effect of rounding protruding edges on heat transfer and pressure drop in a duct. Int J Heat Mass Transfer 27:1715–1723CrossRef
Sparrow EM, Liu CH (1979) Heat transfer, pressure drop and performance relationships for inline, staggered, and continuous plate heat exchangers. Int J Heat Mass Transfer 22:1613–1625CrossRef
Syed A (1991) The use of plate heat exchangers as evaporators and condensers in process refrigeration. In: Foumeny EA, Heggs PJ (eds) Heat trans eng design of heat exchangers. Ellis Horwood Limited, Hemel Hempstead, vol 1, no 10, pp 139–157
Taler D (2001) Mathematical model and experimental study of a plate-fin-and-tube heat exchanger (in Polish). Arch Automot Eng 4:145–162
Taler D (2004a) Determination of heat transfer correlations for plate-fin-and-tube heat exchangers. Heat Mass Transfer 40(10):809–822CrossRef
Taler D (2004b) Experimental determination of heat transfer and friction correlations for plate fin-and-tube heat exchangers. J Enhanc Heat Transf 11(3):183–204CrossRef
Talik AC, Fletcher LS, Anand NK, Swanson LW (1995a) Heat transfer and pressure drop characteristics of a plate heat exchanger using a propylene-glycol/water mixture as a working fluid. In: Sernas V, Boyd RB, Jensen MK (eds) Proc of the 30th national heat trans conf, HTD, vol 314, pp 83–88
Talik AC, Swanson LW, Fletcher LS, Anand NK (1995b) Heat transfer and pressure drop characteristics of a plate heat exchanger. In: Proc of the ASME/JSME thermal eng joint conference, vol 4, pp 321–330
Theoclitus G (1966) Heat transfer and flow-friction characteristics in nine pin-fin surfaces. J Heat Transfer 85:383–390CrossRef
Thonon B, Grandgeorge S, Jallut C (1999) Effect of geometry and flow conditions on particulate fouling in plate heat exchangers. Heat Transfer Eng 20(3):12–24CrossRef
Thonon B, Vidil R, Marvillet C (1995) Recent research and developments in plate heat exchangers. J Enhanc Heat Transf 2(1–2):149CrossRef
Tiggelbeck S, Mitra NK, Fiebig M (1994) Comparison of wing-type vortex generators for heat transfer enhancement in channel flows. J Heat Transfer 116:880–885CrossRef
Tishchenko ZV Bondarenko VN (1983) Comparison of the efficiency of smooth-finned plate heat exchangers. Int Chem Eng 23(3):550–557
Torii K, Nishina K, Nakayama K (1994) Mechanism of heat transfer augmentation by longitudinal vortices in a flat plate boundary layer. In: Heat transfer proc 10th int heat trans conf, vol 5, pp 123–128
Torikoshi K, Kawabata K (1989) Heat transfer and flow friction characteristics of a mesh finned air- cooled heat exchanger convection heat transfer and transport processes. In: Figliola RS, Kaviany M, Ebadian MA (eds) ASME symp, vol 116. ASME, New York, pp 71–77
Turner CW, Lister DH (1991) A study of the deposition of silt onto the surface of type 304 stainless steel. Can J Chem Eng 69(1):203–211CrossRef
Vasil’ev VY (2006) An experimental investigation into rational enhancement of convective heat transfer in rectangular interrupted ducts of plate-fin heat-transfer surfaces. Therm Eng 53(12):1006–1016CrossRef
Vlasogiannis P, Karagiannis G, Argyropoulos P, Bontozoglou V (2002) Air-water two-phase flow and heat transfer in a plate heat exchanger. Int J Multiphase Flow 28:757–772MATHCrossRef
Wadekar VV, Robertson JM (1989) Two-phase pressure gradients in the vertical upflow boiling of cyclohexane in perforated plate-fin passages. AIChe Symp Ser 269(85):301–305
Wang CC, Lee CJ, Chang CT, Chang YJ (1999) Some aspects of plate fin- and-tube heat exchangers: with and without louvers. J Enhanc Heat Transfer 6(5):357CrossRef
Wang Z, Li Y, Zhao M (2015) Experimental investigation on the thermal performance of multi-stream plate-fin heat exchanger based on genetic algorithm layer pattern design. Int J Heat Mass Transfer 82:510–520CrossRef
Wang Z, Li Y (2016) Layer pattern thermal design and optimization for multistream plate-fin heat exchangers—a review. Renew Sust Energ Rev 53:500–514CrossRef
Wang L, Sundén B (2001) Thermal performance analysis of multi-stream plate heat exchangers. Proc of the 35th National heat trans conf, ASME, New York, NY, paper no. NHTC2001–20052
Wang L, Sundén B (2003) Optimal design of plate heat exchangers with and without pressure drop specifications. Appl Therm Eng 23:295–311CrossRef
Wang LK, Sunden B, Yang QS (1999) Pressure drop analysis of steam condensation in a plate heat exchanger. Heat Transfer Eng 20(1):71–77CrossRef
Wanniarachchi AS, Ratman U, Tilton BE, Dutta-Roy K (1995) Approximate correlations for chevron-type plate heat exchangers. In: Sernas V, Boyd RB, Jensen MK (eds) Proc of the 30th national heat trans conf, HTD, vol 314, pp 145–152
Watel B, Thonon B (2001) An experimental study of convective boiling in a compact serrated plate-fin heat exchanger. J Enhanc Heat Transf 9(1):1–16CrossRef
Webb RL (1987) In: Kakac S, Shah RK, Aung W (eds) Handbook of single-phase heat transfer, vol 17. John Wiley, New York, pp 1–17.62, Chapter 17
Webb RL (1994) The flow structure in the louvered fin heat exchanger geometry. In: Alkidas AC (ed) Vehicle thermal management. SAE, pp 221–232
Webb RL, Kim NY (2005) Principles of enhanced heat transfer. Taylor and Francis, New York
Wellsandt S, Vamling, L (2000) Heat transfer of R-22 and alternatives in plate- type evaporator. In: Tree DR (ed) Proceedings of the 2000 international refrigeration conference at Purdue, pp 1161–1168
Wong LT, Smith MC (1966) Airflow phenomena in the louvered-fin heat exchanger. SAE Paper No. 730237
Yan YY, Lin TF (1999) Evaporation heat transfer and pressure drop of refrigerant R-134a in a plate heat exchanger. J Heat Transfer 121(1):118–127CrossRef
Yan YY, Lio HC, Lin TF (1999) Condensation heat transfer and pressure drop of refrigerant r-134a in a plate heat exchanger. Int J Heat Mass Transfer 42:993–1006CrossRef
Yeh RH (1994) Optimum spines with temperature dependent thermal parameters. Int J Heat Mass Transfer 37(13):1877–1884CrossRef
Yeh RH (1997) Analysis of thermally optimized fin array in boiling liquids. Int J Heat Mass Transfer 40(5):1035–1044MATHCrossRef
Yeh RH (2001) Optimum finned surfaces with longitudinal rectangular fins. J Enhanc Heat Transf 8(4):279–289CrossRef
Yeh RH, Liaw SP (1993) Optimum configuration of a fin for boiling heat transfer. J Franklin Institute 330(1):153–163MATHCrossRef
Zhang L, Qian Z, Deng J, Yin Y (2015) Fluid–structure interaction numerical simulation of thermal performance and mechanical property on plate-fins heat exchanger. Heat Mass Transfer 51(9):1337–1353CrossRef
Metadata
Title
Introduction
Authors
Sujoy Kumar Saha
Hrishiraj Ranjan
Madhu Sruthi Emani
Anand Kumar Bharti
Copyright Year
2020
Book
Heat Transfer Enhancement in Plate and Fin Extended Surfaces

Print ISBN: 978-3-030-20738-0

Electronic ISBN: 978-3-030-20736-6

Copyright Year: 2020

DOI
https://doi.org/10.1007/978-3-030-20736-6_1

Premium Partners

    Image Credits