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Clinical Microbiology: Open Access | ISSN: 2327-5073 | Volume: 7

Microbiology: Education, R&D and Market

7

th

Annual Summit on

September 28-29, 2018 | San Antonio, USA

Microbial fuel cells (MFCs) for future sustainable green technology

A

s the greatest threats facing the planet as warming, one of the most important is carbon dioxide (CO

2

), also sox, nox, PM etc.

which we release into the atmosphere by the internal & external conventional combustion of Solid, Liquid &gaseous fossil

fuels — such as oil, coal, and natural gas, Nuclear Fuel to generate electricity, power our vehicles, and so. More and more heat

is trapped and Earth steadily warms up in response, local environment pollutions. Thus The planet's temperature is rising, Has

led to global environmental concerns such as global warming, climate change and depleting energy resources ”Global warming

is already having significant and costly effects on our communities, our health, and our climate unless we take immediate action

of prevent a climate catastrophe. to reduce global warming emissions, these impacts will continue to intensify, grow ever

more costly and damaging, and increasingly affect the entire planet. To Meet the goal of ZET, Climate change and sustainable

development as contribute The top dominant decarbonized electricity from of energy supply & Hence MFCs mechanism is an

attractive & unique renewable technology, which is fully any kind of combustion free thereby making it a green technology.

Microbial fuel cell (MFC) is one choice that has received attention as alternative energy in directly generating electricity from

organic matters. MFC is a bioreactor that converts chemical energy in the chemical bonds in organic compounds to electrical

energy through catalytic reaction of microorganisms under anaerobic condition. Advancement in science and technology has

contributed to the development of emerging green technologies that might help to solve some (if not all) of the environmental

issues that we are facing. MFCs towards many specialized and value-added applications beyond wider range scope of the

laboratory conditions and thus show promising aspects towards a green and sustainable future.

Biography

S M Shamsuddin Khaled is Professionally in Energy and Environment Specialist as he holds numerous Corporate Advisory Positions, Professional Affiliations,

consultancy work for companies and has given expert advice also led and delivered more than 50 projects (20GWe+) of Thermal & Renewable Power Generation

Industries promote (HELE) such as USC/SC CFPP, CCPP, Solar CSP/PV, Multi fuel Fired (IC Engine based)Tri-generation/Quad-generation energy research,

Engineering/Design, O & M, Commissioning, Performance Benchmarking knowledge transfer with Proficiency in Codes & standard(s) Including EHV/HV/MV-GIS/

AIS (+35GVA). As a highly sought public speaker, he has delivered more than 200 lectures, speeches, and invited talks in the last few years such as conference

scientific committee member, OCM, scientific advisory board member, keynotes Speaker, plenary lectures at international scientific conferences and contributed to

numerous scientific research and its utilization in the world. He is part of the Sustainable Industrial Systems research group and specializes in the life cycle impacts

of energy technologies including environmental, social and economic aspects Energy sector.

kan.engr.khaled@gmail.com

S M Shamsuddin Khaled

Institution of Engineers, Bangladesh

S M Shamsuddin Khaled, Clin Microbiol 2018, Volume: 7

DOI: 10.4172/2327-5073-C3-038