1. Department of Textile Technology IITD
Industry Day Theme 4: {Sustainable Habitat}
Development of Cost-effective and Energy-efficient
Air Filters for Engine Intake Application
Ajay K. Maddineni, Dipayan Das*, Ravi M Damodaran
Problem Statement
The space available for air intake system in vehicular engines is reducing day-by-day due to evolving engine technology. And to comply with stringent emission norms, the demand for filtration requirements is increasing than it was ever before. An innovative solution for effective air filtration by engine intake air filter system is therefore desired.
Results
Drop in efficiency
Innovative Solution
In this work, an engine intake air filter system is developed that consists of a fibrous filter media, which, upon optimal impingement of a viscous liquid, exhibits enhanced filtration performance by inhibiting particle bounce and re-entrainment.
Commercial Benefits
Longer filter life (1.5 to 2 times) due to enhanced dust holding capacity
Higher filtration efficiency (as high as 99 %) due to improved adhesion between fiber & particle
Lower pressure drop due to uniform deposition of particles
Reduced fuel consumption by 20 litre over filter life time
Decreased CO2 emission by 50 kg for a ride of km per motorcycle
3D virtual fibrous filter media – CFD & Experimentation
Chemically-treated
filter media
Department of Textile Technology IITD
Conclusions
A pleated air filter element treated with optimal impingement of a viscous liquid was developed for commercial motorcycle application. The developed air filter element was found to be more energy-efficient and cost-effective than the existing one.
Air filter prototype
References
A. K. Maddineni et al., Separation & Purification Tech., 193, 1-10, 2018
A. K. Maddineni et al., Powder Technology, 322, , 2017.
Acknowledgements
SERB, DST, Govt. of India (Project No. SB/S3ME/063/2015)
Varroc Polymers Pvt. Ltd. (Prototype & Commercialisation)
Industrial Significance: The current innovation contributes to the benefits of product end users in terms of cost and serviceability (Industrial impact) as well as to the improvement of air quality due to reduced green house gases (environmental impact)
Technology Readiness Level: This technology is developed in collaboration with an industry. The industry partner would like to commercialize the product for its customer base.