Experimental investigation of CI engine operated Micro-Trigeneration system
- 31 August 2010
- journal article
- research article
- Published by Elsevier BV in Applied Thermal Engineering
- Vol. 30 (11-12), 1505-1509
- https://doi.org/10.1016/j.applthermaleng.2010.02.013
Abstract
A Micro-Trigeneration system based on a CI engine has been designed and realized in laboratory. Experimental investigations have been carried out to evaluate the performance and emissions of the original single generation system and the Trigeneration system developed. Test results of the two generations are also compared. The test results show that the total thermal efficiency of Trigeneration reaches to 86.2% at full load where as it is only 33.7% for original single generation, at the same load. The CO2 emission from Trigeneration is 0.1211 kg CO2/kWh compared to that of 0.308 kg CO2/kWh from single generation at the engine full load. The reduction of CO2 emission in kg per unit (kWh) of useful energy output is 60.71% compared to that of single generation at full load. The experimental results show that the idea of realizing a Micro-Trigeneration suitable for a small remote home of a developing country like India is feasible and it is very effective technique to utilize the resources efficiently.Keywords
This publication has 10 references indexed in Scilit:
- An experimental investigation of a household size trigenerationApplied Thermal Engineering, 2007
- Design, testing and mathematical modelling of a small-scale CHP and cooling system (small CHP-ejector trigeneration)Applied Thermal Engineering, 2007
- Experimental investigation of a micro-combined cooling, heating and power system driven by a gas engineInternational Journal of Refrigeration, 2005
- Thermal integration of trigeneration systemsApplied Thermal Engineering, 2005
- A methodology for sizing a trigeneration plant in mediterranean areasApplied Thermal Engineering, 2003
- Micro-combined heat and power in residential and light commercial applicationsApplied Thermal Engineering, 2003
- Industrial trigeneration using ammonia–water absorption refrigeration systems (AAR)Applied Thermal Engineering, 2003
- Trigeneration in the food industryApplied Thermal Engineering, 2002
- Economic feasibility of combined heat and power and absorption refrigeration with commercially available gas turbinesEnergy Conversion and Management, 2001
- A new HVAC system based on cogeneration by an i.c. engineApplied Thermal Engineering, 1996