Reducing the Viscosity of Diesel Fuel with Electrorheological Effect

Abstract

Improving engine efficiency and reducing pollutant emissions are extremely important. Here the authors report their finding, using electrorheology to reduce the viscosity of diesel fuel. Diesel is made of many different molecules, 75% small molecules and 25% large molecules. In addition, it contains other nanoscale particles, such as sulfur. Therefore, diesel can be regarded as a liquid suspension. Under a strong electric field, the large molecules aggregate into small clusters, yielding a lower viscosity. For high-sulfur diesel, the applied electric field is around 1 kV/mm. However, for ultra-low-sulfur diesel, the required electric field must be around 2 kV/mm. This viscosity reduction leads to finer mist in fuel atomization, improving the combustion, and engine efficiency.