Effect of hybrid blends of raw tyre pyrolysis oil, karanja biodiesel and diesel fuel on single cylinder four stokes diesel engine

Recycling is the need of time and tyre pyrolysis is a process of recycling waste tyre to yield oil. A lot of research has been conducted on blending of diesel to produce oil but due to higher sulphur content and higher exhaust emission limits, use of tyre pyrolysis oil can be very beneficial. In the present study, our focus is on hybrid blends of oil generated, karanja biodiesel and diesel. One of the major problems with biofuel is the lower calorific value, but pyrolysis oil has higher calorific value. Hence the decision was made to blend karanja biodiesel and pyrolysis oil. The blends prepared are tyre pyrolysis (TP) 10%, karanja biodiesel (KB) 20% and diesel 70% called as TP10KB20. Similarly, TP20KB10 was also done. Further, equivalent blends of individual fuel source (TPO30 and KB30) are done and compared. Experimental investigation of hybrid blends (TP10KB20, TP20KB10) and equivalent source blend (TPO30, KBD30 and diesel) fuel are done on single cylinder CI engine. It was observed that performance and combustion of TP10KB20 and TP20KB10 were superior than any other individual blend and diesel. However, emission of TP20KB10 limits it use. Further, TP10KB20 has given superior performance, combustion and emissions characteristics compared to diesel and other blends. (C) 2021 Published by Elsevier Ltd.

Automated summary

Recycling waste tyre through pyrolysis process to yield oil is beneficial due to its higher calorific value. Blending tyre pyrolysis oil with karanja biodiesel produces superior performance and combustion, although emission limits the use of some blends. TP10KB20 blend shows superior characteristics compared to diesel and other blends in terms of performance, combustion, and emissions.