Fluid Flow and Heat Transfer in a Heat Exchanger Channel with Short-Length Twisted Tape Turbulator Inserts

AI-Fahed S, Chakroun W (1996) Effect of tube tape clearance on heat transfer for fully developed turbulent flow in a horizontal isothermal tube. Int J Heat Fluid Flow 17(2):173–178

Balachandar C, Arunkumar S, Madhumitha R, Venkatesan M (2018) MANFIS–GA heat transfer analysis and optimization of fins with elliptical perforation. Iran J Sci Technol Trans Mech Eng. https://doi.org/10.1007/s40997-018-0179-4

Bergles AE, Blumenkrantz AR, Taborek J (1974) Performance evaluation criteria for enhanced heat transfer surfaces. Paper FC 6.3. In: Proceedings of the 5th international heat transfer conference, vol II, Tokyo, pp 239–243

Bhattacharyya S, Saha SK (2012) Thermohydraulics of laminar flow through a circular tube having integral helical rib roughness and fitted with centre cleared twisted-tape. Exp Therm Fluid Sci 42:154–162

Bhattacharyya S, Saha S, Saha SK (2013) Laminar flow heat transfer enhancement in a circular tube having integral spiral rib roughness and fitted with centre cleared twisted-tape. Exp Therm Fluid Sci 44:727–735

Bhattacharyya S, Chattopadhyay H, Haldar A (2018) Design of twisted tape turbulator at different entrance angle for heat transfer enhancement in a solar heater. Beni-Suef Univ J Basic Appl Sci 7(1):118–126

Eiamsa-ard S, Promvonge P (2005) Enhancement of heat transfer in a tube with regularly-spaced helical tape swirl generators. Sol Energy 78:483–494

Eiamsa-ard S, Thianpong C, Eiamsa-ard P, Promvonge P (2009) Convective heat transfer in a circular tube with short-length twisted tape insert. Int Commun Heat Mass Transf 36:365–371

Ghajar AJ, Tang CC, Cook WL (2010) Experimental investigation of friction factor in the transition region for water flow in minitubes and microtubes. Heat Transf Eng 31(8):646–657

Manglik RM, Bergles AE (1994) Fully developed laminar heat transfer in circular-segment ducts with uniform wall temperature. Numer Heat Transf Part A Appl 26:499–519

Meyer JP, Abolarin SM (2018) Heat transfer and pressure drop in the transitional flow regime for a smooth circular tube with twisted tape inserts and a square edge inlet. Int J Heat Mass Transf 117:11–29

Meyer JP, Olivier JA (2011) Transitional flow inside enhanced tubes for fully developed and developing flow with different types of inlet disturbances: part I—adiabatic pressure drops. Int J Heat Mass Transf 54(7–8):1587–1597

Mohammadiun H, Amerian V, Mohammadiun M, Rahimi AB (2017) Similarity solution of axisymmetric stagnation-point flow and heat transfer of a nanofluid on a stationary cylinder with constant wall temperature. Iran J Sci Technol Trans Mech Eng 41:91–95

Ozisik MN (1985) Heat transfer. McGraw-Hill, New York

Rahimi M, Soran RA (2017) Numerical analysis of heat transfer and flow field due to slot air jet impingement for the cases of moving plate and moving nozzle. Iran J Sci Technol Trans Mech Eng 41:217

Roy S, Saha SK (2015) Thermal and friction characteristics of laminar flow through a circular duct having helical screw-tape with oblique teeth inserts and wire coil inserts. Exp Therm Fluid Sci 68:733–743

Sabet GS, Pavithran S, Iran Kulkarni RR (2017) comparison of heat transfer enhancement in a diffuser by inserting wing vortex generators and protrusions. Iran J Sci Technol Trans Mech Eng. https://doi.org/10.1007/s40997-017-0084-2

Saha SK (2010) Thermohydraulics of turbulent flow through rectangular and square ducts with axial corrugation roughness and twisted tapes with and without oblique teeth. Exp Therm Fluid Sci 34(6):744–752

Saha SK (2011) Thermohydraulics of turbulent flow through square and rectangular ducts with transverse ribs and twisted tapes with and without oblique teeth. J Enhanc Heat Transf 18(4):281–293

Saha SK, Bhattacharyya S, Pal PK (2012) Thermo-hydraulics of laminar flow of viscous oil through a circular tube having integral spiral rib roughness and fitted with centre-cleared twisted tape. Exp Therm Fluid Sci 41:121–129

Sheikholeslami M (2018a) Numerical investigation for CuO–H2O nanofluid flow in a porous channel with magnetic field using mesoscopic method. J Mol Liq 249:739–746

Sheikholeslami M (2018b) Numerical investigation of nanofluid free convection under the influence of electric field in a porous enclosure. J Mol Liq 249:1212–1221

Sheikholeslami M, Ganji DD (2016a) Heat transfer improvement in a double pipe heat exchanger by means of perforated turbulators. Energy Convers Manag 127:112–123

Sheikholeslami M, Ganji DD (2016b) Heat transfer enhancement in an air to water heat exchanger with discontinuous helical turbulators; experimental and numerical studies. Energy 116:341–352

Sheikholeslami M, Rokni HB (2018) Numerical simulation for impact of Coulomb force on nanofluid heat transfer in a porous enclosure in presence of thermal radiation. Int J Heat Mass Transf 118:823–831

Sheikholeslami M, Seyednezhad M (2018) Simulation of nanofluid flow and natural convection in a porous media under the influence of electric field using CVFEM. Int J Heat Mass Transf 120:772–781

Sheikholeslami M, Shehzad SA (2018) Simulation of water based nanofluid convective flow inside a porous enclosure via non-equilibrium model. Int J Heat Mass Transf 120:1200–1212

Sheikholeslami M, Darzi M, Sadoughi MK (2018) Heat transfer improvement and pressure drop during condensation of refrigerant-based nanofluid; an experimental procedure. Int J Heat Mass Transf 122:643–650

Sivashanmugam P, Suresh S (2006) Experimental studies on heat transfer and friction factor characteristics of laminar flow through a circular tube fitted with helical screw-tape inserts. Appl Therm Eng 26:1990–1997

Sivashanmugam P, Suresh S (2007a) Experimental studies on heat transfer and friction factor characteristics of laminar flow through a circular tube fitted with regularly spaced helical screw-tape inserts. Exp Therm Fluid Sci 31:301–308

Sivashanmugam P, Suresh S (2007b) Experimental studies on heat transfer and friction factor characteristics of turbulent flow through a circular tube fitted with regularly spaced helical screw-tape inserts. Appl Therm Eng 27:1311–1319

Sivashanmugam P, Suresh S (2007c) Experimental studies on heat transfer and friction factor characteristics of turbulent flow through a circular tube fitted with helical screw-tape inserts. Chem Eng Process 46:1292–1298

Suresh KP, Mahanta P, Dewan A (2004) Study of heat transfer and pressure drop in a large hydraulic diameter annulus. In: 17th national heat and mass transfer conference and 6th ISHMT/ASME, heat and mass transfer conference. Indira Gandhi Centre for Atomic Research, Kalpakkam, pp 62–66

Tiwari M, Saha SK (2015) Thermohydraulics of laminar flow through a circular tube with transverse ribs and twisted tapes. ASME J Therm Sci Eng Appl 7(4):041009. https://doi.org/10.1115/1.4030792