Journal of Thermal Engineering and Applications

Today heat exchangers are commonly used with twisted-tape inserts to improve convective
heat transfer in various industries such as thermal power plants, chemical processing plants,
air conditioning equipment, refrigerators, petrochemical, biomedical, and food processing
plants. By using the twisted tape patch, the fluid flow swirls together, interrupting a thermal
boundary layer on the surface of the pipeline. Heat exchanger thermal efficiency can be
enhanced by heat transfer increase techniques. Tape insert is one of the techniques of passive
heat transfer augmentation and used in the utmost application of heat transfer, for example,
food processes for air conditioning and refrigeration systems. Thus, various techniques of
enhancement were reviewed.

Shailesh Dewangan. A Review of

Literature on Experimental Analysis of

Overall Heat Transfer Coefficient in

Parallel Flow Heat Exchanger by Using

Helical Ribs. International Journal of

Emerging Technology and Advanced

Engineering. 4(9), 180–192, 2018.

N Sreenivasalu Reddy, Experimental

Investigation of Heat Transfer

Enhancement of a Double Pipe Heat

Exchanger with Helical Fins in the

Annulus Side, International Journal of

Dynamics of Fluids. 2017;13(2), 285–293.

Patel Yogeshwari, Numerical and

Experimental Investigation of Heat

Transfer Augmentation in Double Pipe

Heat Exchanger with Helical and Twisted

Tape Inserts. International Journal of

Emerging Technology and Advanced

Engineering. 4(9), 180–192, 2017.

Pourahmad S, Pesteei S M, Effectiveness-

NTU analyses in a double tube heat

exchanger equipped with wavy strip

considering various angles. Energy

Conversion and Management. 123, 462–

, 2016.

Fei Duan, Ke Wei Song, Numerical study

of laminar flow and heat transfer

characteristics in the fin side of the

intermittent wavy finned flat tube heat

exchanger. Applied Thermal Engineering.

, 112–127, 2016.

K.A. Goudiya, Experimental Investigation

of Heat Transfer in Heat Exchanger Using

Different Geometry of Inserts: A Review.

International Journal for Research in

Applied Science & Engineering

Technology. 4(3), 702–705, 2016.

Ayush Kumar, Performance Analysis of

Double Pipe Heat Exchanger using

Convergent—Divergent-Divergent Spring

Turbulators. International Journal for

Innovative Research in Science &

Technology. 2(2), 224–228, 2015.

Patnala Sankara Rao, Numerical and

Experimental Investigation of Heat

Transfer Augmentation in Double Pipe

Heat Exchanger with Helical and Twisted

Tape Inserts, International Journal of

Emerging Technology and Advanced

Engineering. 4(9), 180–192, 2014.

Parag S. Desale, Heat Transfer

Enhancement in Tube-in-Tube Heat

Exchanger using Passive Techniques,

International Journal of Innovative

Research in Advanced Engineering. 1(10)-

–120, 2014.

H.H. Al-Kayiem, Ribbed double pipe heat

exchanger: experimental analysis, WIT

Transactions on Engineering Sciences. 83,

–120, 2014.

Nawras Shareef Sabeeh, Thermo-

Hydraulic Performance of Horizontal

Circumferentially Ribbed Double Pipe

Heat Exchanger, Journal of Engineering

and Development. 18(3): 183–192,

Melvinraj CR, Comparative Study of Heat

Exchangers Using CFD, Int. Journal of

Engineering Research and Applications.

(5), 118–120, 2014.

Antony Luki. A, Flow Analysis and

Characteristics Comparison of Double

Pipe Heat Exchanger Using Enhanced

Tubes. IOSR Journal of Mechanical and

Civil Engineering. 16–21, 2013.

M. Kanan. Experimental and Analytical

Comparison of Heat Transfer in Double

Pipe Heat Exchanger. International

Journal of Automobile Engineering

Research and Development. 2(2), 1–10,