Heat transfer performance and fouling factor analysis of carbon dot nanofluid synthesized using one-step method.

Heat transfer enhancement using nanofluids has been an established technique for the past few decades. However, the practical usage of the nanofluids is limited due to their various colloidal issues viz fouling and colloidal stability. This paper presents an experimental analysis of the fouling factor of carbon-dot nanofluid synthesized using a one-pot synthesis technique. In addition, the thermal performance of this heat transfer fluid/ nanofluid on a double-pipe heat exchanger was studied. Design of experiment concept was adopted to analyse the influence of various parameters like flow rate of hot and cold fluid and the inlet temperature of hot fluid on heat transfer coefficient. The resultant fouling factor observed during the study was 0.000682 m² K W⁻¹. In addition, the experimentation on heat transfer performance of double pipe heat exchanger revealed that at optimum flowrates of 85 L h⁻¹ (Cold and hot fluid) and inlet hot fluid temperature of 48 °C a maximum heat transfer coefficient of 369.5 W m⁻² K⁻¹ was observed. As it is well know that the operation conditions of the heat exchanger highly influence the heat transfer performance. This was studied using the response surface methodology, a statistical technique, which reveals that the flow rate of hot fluid highly influence the heat transfer coefficient of the heat exchanger. Whereas the temperature of the hot fluid exhibits less significance on the performance. A regression model has been developed to predict the heat transfer coefficient, which was further validated with the experimental data. [ABSTRACT FROM AUTHOR]