Experimental and numerical study of a micro-cogeneration Stirling unit under diverse conditions of the working fluid

摘要

Micro-cogeneration Stirling units are promising for residential applications because of high total efficiencies, favorable ratios of thermal to electrical powers and low CO as well as NO emissions. This work focuses on the experimental and the numerical analysis of a commercial unit generating 8 kW of hot water (up to 15 kW with an auxiliary burner) and 1 kW of electricity burning natural gas. In the experimental campaign, the initial pressure of the working fluid is changed in a range from 9 to 24 bar(g) - 20 barg being the nominal value - while the inlet temperature of the water loop and its mass flow rate are kept at the nominal conditions of, respectively, 50 degrees C and 0.194 kg/s. The experimental results indicate clearly that the initial pressure of the working fluid - Nitrogen - affects strongly the net electrical power output and efficiency. The best performance for the output and efficiency of 943 W and 9.6% (based on the higher heating value of the burnt natural gas) are achieved at 22 bar(g). On the other hand, the thermal power trend indicates a maximum value of 8420W at the working pressure of 24 bar(g), which corresponds to a thermal efficiency of 84.7% (again based on higher heating value). Measurements are coupled to a detailed model based on a modification of the work by Urieli and Berchowitz. Thanks to the tuning with the experimental results, the numerical model allows investigating the profiles of the main thermodynamic parameters and heat losses during the cycle, as well as estimating those physical properties that are not directly measurable. The major losses turn to be the wall parasitic heat conduction from heater to cooler and the non-unitary effectiveness of the regenerator. (C) 2015 Elsevier Ltd. All rights reserved.