Eng-Seng Chan

Eng-Seng Chan

Eng-Seng Chan received his BEng (1998) and PhD (2002) from the University of Birmingham (UK). He is an associate professor and the head of discipline (Chemical Engineering) at Monash University Malaysia. His research interest revolves around the development of particulate systems for applications in biofuel production, food processing, water purification, protein purification, and drug and food delivery.

Advanced Technologies in Biodiesel: Introduction to Principles and Emerging Trends

Advanced Technologies in Biodiesel: Introduction to Principles and Emerging Tren
Print Price: 
$49.95
E-book Price: 
$29.95
In Stock Date: 
10/30/2014

Aminul Islam, Yun Hin Taufiq-Yap, and Eng-Seng Chan

The important strategic issue of the 21st century states that the struggle for existence as the struggle for sustainable energy. In the last few years, the interest in renewable fuels has increased dramatically due to high demand of energy and the limitation of fossil fuel. Given the rapidly increasing demand for energy which
is projected to double by mid-21st century, it is expected thatbiodiesels will become an important part of the global energy mix and make a significant contribution to meeting energy demand.

Advanced Technologies in Biodiesel: New Advances in Designed and Optimized Catalysts

Advanced Technologies in Biodiesel: New Advances in Designed and Optimized Catal
Print Price: 
$49.95
E-book Price: 
$29.95
In Stock Date: 
05/08/2015

Aminul Islam, Yun Hin Taufiq-Yap, Siow Hwa Teo, and Eng Seng Chan

The inadequacy of fossil fuel is the main driving force of the future sustainable energy around the world. Since heterogeneous catalysis is used in chemical industry for biodiesel production, achieving optimal catalytic performance is a signi cant issue for chemical engineers and chemists. Enormous attention has been placed in recent years on the selection of heterogeneous catalyst in biodiesel industry, where the catalyst could be facilitated highly selective toward desired products, easily handled, separated from the reaction medium, and subsequently reused.