Burning velocity measurment of biodiesel components using divergent chennal technique and Heat Flux Method

Start Date: Saturday, Oct 15,2016

School: School of Engineering, Coimbatore

Project Incharge:Dr. Ratna Kishore V.

Co-Project Incharge:Prof . Sudarshan Kumar

Funded by:DST (SERB)

The project titled Burning velocity measurment of biodiesel components using divergent chennal technique and Heat Flux Method, is funded by DST (SERB). The investigators of the project are Dr. V. Ratna Kishore and Prof. Sudarshan Kumar.

About Amrita Vishwa Vidyapeetham

Rankings

Accreditation

Governance

Chancellor

Leadership

Press Media

Newsletters

Amritapuri
Campus

Amaravati
Campus

Bengaluru
Campus

Chennai
Campus

Coimbatore
Campus

Faridabad
Campus

Kochi
Campus

Mysuru
Campus

Nagercoil
Campus

Haridwar

Research

Centers

Patents

Project

Burning velocity measurment of biodiesel components using divergent chennal technique and Heat Flux Method

Related Projects

Development of a Hybrid Inverted Pendulum on wheels and Hopper based Dual Locomotion Assistive Robot

IoT-Based Humidity and Temperature Monitoring System for Improved Mushroom Farming

Ethylene Propylene Diene Monomer (EPDM) Rubber based Nanocomposites for Application in Corrosive and Radiation Environments

Improvement in Transient Stability Margin using STATCOM with Super Capacitor

Experimental and Numerical Investigation of flame stabilization in porous media burner for hydrocarbon-hydrogen fuels

Interests

Programs

Research

About Amrita

Resources

Locations

Reports

About Amrita Vishwa Vidyapeetham

Amritapuri Campus

Amaravati Campus

Bengaluru Campus

Chennai Campus

Coimbatore Campus

Faridabad Campus

Kochi Campus

Mysuru Campus

Nagercoil Campus

Haridwar

Research

Programs

From the news

Others

Project

Burning velocity measurment of biodiesel components using divergent chennal technique and Heat Flux Method

Related Projects

Development of a Hybrid Inverted Pendulum on wheels and Hopper based Dual Locomotion Assistive Robot

IoT-Based Humidity and Temperature Monitoring System for Improved Mushroom Farming

Ethylene Propylene Diene Monomer (EPDM) Rubber based Nanocomposites for Application in Corrosive and Radiation Environments

Improvement in Transient Stability Margin using STATCOM with Super Capacitor

Experimental and Numerical Investigation of flame stabilization in porous media burner for hydrocarbon-hydrogen fuels

Amritapuri
Campus

Amaravati
Campus

Bengaluru
Campus

Chennai
Campus

Coimbatore
Campus

Faridabad
Campus

Kochi
Campus

Mysuru
Campus

Nagercoil
Campus