Effects of specific fuel consumption and exhaust emissions of four stroke diesel engine with CuO/water nanofluid as coolant

Journal title

Archive of Mechanical Engineering




vol. 64


No 1



nanofluids ; engine performance ; exhaust emissions

Divisions of PAS

Nauki Techniczne




Polish Academy of Sciences, Committee on Machine Building




Artykuły / Articles


ISSN 0004-0738, e-ISSN 2300-1895


Esfe (2015), Experimental investigation and development of new correlations for thermal conductivity of cuo / eg water nanofluid in Heat and Mass, International Communications Transfer, 12, 47, ; Kulkarni (2008), Application of aluminum oxide nanofluids in diesel electric generator as jacket water coolant, Applied Thermal Engineering, 28, 1774, ; Liu (2006), Enhancement of thermal conductivity with CuO for nanofluids &, Chemical Engineering Technology, 29, 72, ; Shojaeizadeh (2015), Exergy efficiency investigation and optimization of an - water nanofluid based flat - plate solar collector, Energy and Buildings, 101. ; Peyghambarzadeh (2011), Experimental study of heat transfer enhancement using water / ethylene glycol based nanofluids as a new coolant for car radiators in Heat and Mass, International Communications Transfer, 38, 1283, ; Patel (2010), An experimental investigation into the thermal conductivity enhancement in oxide and metallic nanofluids, Journal of Nanoparticle Research, 12, 1015, ; Gupta (2015), An experimental investigation of a low temperature nanofluid based direct absorption solar collector, Solar Energy, 118, 390, ; Goudarzi (2014), An experimental investigation on the simultaneous effect of CuO - nanofluid and receiver helical pipe on the thermal efficiency of a cylindrical solar collector, Applied Thermal Engineering, 73, 1236, ; Behabadi (2015), Experimental investigation of thermal rheological properties and heat transfer behavior of the heat transfer oil copper oxide ( HTO CuO nanofluid in smooth tubes and Fluid, Experimental Thermal Science, 68. ; Harikrishnan (2012), Preparation and thermal characteristics of CuO - oleic acid nanofluids as a phase change material, Thermochimica Acta, 533. ; Saeedinia (2012), Thermal and rheological characteristics of CuO - base oil nanofluid flow inside a circular tube in Heat and Mass, International Communications Transfer, 39, 152, ; Abbassi (2015), Two - phase mixture simulation of water nanofluid heat transfer in a non - uniform heat addition test section in, Progress Nuclear Energy, 83. ; Raja (2013), Effect of heat transfer enhancement and NOxemission using water nanofluid as coolant in CI engine of Engineering & Materials, Indian Journal Sciences, 20, 443. ; Bouhalleb (2015), Natural convection in an inclined rectangular enclosure filled by CuO - nanofluid , with sinusoidal temperature distribution of, International Journal Hydrogen Energy, 40, 13676, ; Suresh (2011), Experimental studies on heat transfer and friction factor characteristics of CuO / water nanofluid under turbulent flow in a helically dimpled tube and Fluid, Experimental Thermal Science, 35, 542, ; Naik (2013), Experimental investigation of heat transfer and friction factor with water propylene glycol based CuO nanofluid in a tube with twisted tape inserts in Heat and Mass, International Communications Transfer, 46, 13, ; Sundar (2013), Experimental thermal conductivity of ethylene glycol and water mixture based low volume concentration of and CuO nanofluids in Heat and Mass, International Communications Transfer, 13, 41, ; Naraki (2013), Parametric study of overall heat transfer coefficient of Cuo / water nanofluids in a car radiator of Thermal, International Journal Sciences, 66, 82. ; Esfe (2015), Experimental study on thermal conductivity of ethylene glycol based nanofluids containing nanoparticles of Heat and Mass, International Journal Transfer, 88, 728, ; Michael (2015), Performance analysis of a copper sheet laminated photovoltaic thermal collector using copper oxide water nanofluid, Solar Energy, 119. ; Khedkar (2012), Influence of CuO nanoparticles in enhancing the thermal conductivity of water and monoethylene glycol based nanofluids in Heat and Mass, International Communications Transfer, 39, 665, ; Naik (2014), Comparative study on thermal performance of twisted tape and wire coil inserts in turbulent flow using CuO / water nanofluid and Fluid, Experimental Thermal Science, 57. ; Rashin (2014), A novel ultrasonic approach to determine thermal conductivity in CuO - ethylene glycol nanofluids, Journal of Molecular Liquids, 197. ; Sayin (2009), Effects of injection timing on the engine performance and exhaust emissions of a dual - fuel diesel engine and, Energy Conversion Management, 50, 203, ; Xiao (2013), Developing a novel form of thermal conductivity of nanofluids with Brownian motion effect by means of fractal geometry, Powder Technology, 239. ; Choi (1995), Enhancing thermal conductivity of fluids with nanoparticles In International mechanical engineering congress and exhibition Nov, ASME, 12, 1995. ; Karthik (2012), Thermal conductivity of CuO - DI water nanofluids using - ωmeasurement technique in a suspended micro - wire and Fluid, Experimental Thermal Science, 40, 3. ; Liu (2011), Enhancements of thermal conductivities with Cu and carbon nanotube nanofluids and application of MWNT / water nanofluid on a water chiller system, Nanoscale Research Letters, 6, 1,