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Biodiesel derived from non-edible vegetable oils/tree borne oils hold potential for meeting India's future energy needs by part substitution of Diesel Fuel. This paper investigates performance of 5% blend of commercially available biodiesel (B5) in diesel as fuel for heavy duty vehicles. The test fuel was evaluated on buses with different aspiration technologies viz. naturally aspirated and turbo charged, and the same was compared with neat commercial diesel under different operating conditions like driving cycle, road load simulation (RLS) and wide open throttle (WOT) on chassis dynamometer for power, fuel economy, smoke and soot particle number concentration. Fuel economy was observed to be comparable with B5 in naturally aspirated bus while better fuel economy was observed in case of Turbo charged bus with B5. However, there was a marginal drop in the WOT power (vehicle) with B5 fuel in naturally aspirated bus while the drop was higher with Turbo charged bus.

This study focused on the small size nano-particulates that pose the greatest risk to human health for which significant uncertainties remain. Diesel engine powered vehicles are generally considered to be primary contributors of particulate matter and consequent health hazards as compared to particulates emitted by gasoline and gas driven vehicles. This paper discusses the findings of particulate emissions with respect to number and size distribution with variables like lubrication system, different fuels on 2-wheelers and 3-wheeler auto rickshaw using electrically low pressure impactor (ELPI). Analysis of particulates with CVS system and direct tail pipe were also done for highlighting the ambiguity in both the measurements. Particle number concentration was found more in the two-stroke engine powered two wheelers.

This paper covers the test work done on the comparative characterization of particulates using different blends of biofuels (like biodiesel and ethanol in diesel fuel) in light commercial vehicle under different operating conditions. The test vehicle selected was equipped with Direct Injection (DI) diesel engine with inline fuel injection pump. Under transient operating condition (Indian Driving Cycle), the results indicate that with increased percentage of biodiesel (upto 20%) in the blend, particulate concentration decreases. However, with 5% ethanol diesel blend, particulate concentration increases when compared with neat diesel as well as biodiesel blends while mass concentrations are lower with both the biofuels as compared to neat diesel. It is observed that the nanoparticles are higher with 5% ethanol diesel in IDC test mode.