Presentation by Ms. Lalani Ediriweera
Technical Session 02: Climate Change Adaptation
Experience Sharing Forum on Climate Smart Initiatives of Sri Lanka
Sri Lanka Next – A blue Green Era – Conference and Exhibition 2017
16 – 17 October 2017, BMICH, Colombo, Sri Lanka
Presentation by Ms. Lalani Ediriweera
Technical Session 02: Climate Change Adaptation
Experience Sharing Forum on Climate Smart Initiatives of Sri Lanka
Sri Lanka Next – A blue Green Era – Conference and Exhibition 2017
16 – 17 October 2017, BMICH, Colombo, Sri Lanka
Bioenergy draws on a wide range of potential feedstock materials: forestry and agricultural residues and wastes of many sorts, as well as material grown specifically for energy purposes. The raw materials can be converted to heat for use in buildings and industry, to electricity, or into gaseous or liquid fuels, which can be used in transport, for example. This degree of flexibility is unique amongst the different forms of renewable energy.
General introduction of Biorefineries.
Some research papers to support my study on biorefineries.
Classification of biorefinery systems in four main features.
The economic viability of Biorefinery systems.
Environmental impacts of biorefinery systems.
Biorefinery prospects in India.
Merits and Demerits of these systems.
Applicability of biorefineries.
Figures show the process of biorefinery, Concept, conceptual biorefinery, a schematic diagram of classification, biorefinery model, etc.
1. BIOMASS
STUDENT
EXECUTIVE
PROGRAMME
J.VIJAY MBA
2. OBJECTIVES
• Learn about the pros and cons of biomass
energy and it sustainability
• Learn about the production and
implementation of biomass energy
• Learn about technical aspects of biomass
and how they can be overcome
• Learn about the regulations impacting
biomass use
• Develop an educated opinion about the
sustainability of biomass as an alternative
energy
3. OVERVIEW
•Biomass is a renewable energy source that is
derived from living or recently living
organisms.
•Biomass includes biological material, not
organic material like coal.
•Energy derived from biomass is mostly used
to generate electricity or to produce heat.
•Thermal energy is extracted by means of
combustion, torrefaction, pyrolysis, and
gasification.
•Biomass can be chemically and biochemically
treated to convert it to a energy-rich fuel.
8. DEVELOPMENT
• Many areas could be
used
• Potentially supply more
than 20% of US energy
supply
• Bioenergy crops will be
• More important in future
• Come closer to area
that
• Need energy