RE311 Biomass Energy Technology

Slides:

Advertisements

Similar presentations

Biogas Energy Potential in Florida

Advertisements

BIOGAS By Jenni, Tinh, Ly and Chau. Introduction To Biofuel Biofuels are fuels that have been developed from other materials such as plant matter and.

1 Clean Coal Technology Conference PDPU / CFSR Nov 09.

Anuchit Jayapipat 3 July 2014 MSW Technology Anuchit Jayapipat 3 July 2014.

Powering the Future: Biofuels. Activity: Biogas Describe the features of a biogas generator Evaluate the pros and cons of biogas feedstocks Create a biogas.

LESSON PLAN Subject: Science Class: X Time: 35 min Presented by

What are Biofuels?. A Biofuel is any solid, liquid or gas fuel made from organic matter. Common examples of biofuels are wood, vegetable oil, sugar cane.

Biomass as a Fossil Fuel. Biofuel (also called agrofuel) can be defined as solid, liquid, or gas fuel consisting of, or derived from biomass. Biofuels.

© OECD/IEA 2010 Current status of InterEnerStat definitions UN Expert Group on Energy Statistics – Second meeting New York, 2-5 November 2010 Karen Tréanton.

Center for Clean Energy Research and Education Eastern Illinois University ADM Partnership Meeting1 8/26/2011.

EE535: Renewable Energy: Systems, Technology & Economics Bioenergy.

Syngas Information Syngas (synthesis gas) is a gas mixture produced by gasification of biomass materials. The gas contains varying amounts of carbon monoxide.

Striclty for educational purposes Final project in M.Sc. Course for teachers, in the framework of the Caesarea –Rothschild program of the Feinberg Grad.

Renewable & Non-renewable Energy Resources. What is a NON-RENEWABLE energy resource? An energy resource that cannot be replaced or is replaced much.

Biomass Conversion Technologies Priscilla Ho November 21, 2006 CHE 384.

Alternative Energy : Biomass By: Araceli Gallegos.

Presented by Hikmet Görkem ŞAKIR & Burak GÖNEN. We Will Look At: The Kyoto Protocol Main Renewable Energy Resources What is Biomass? Biomass Energy Sources.

Biomass Electricity Megan Ziolkowski November 29, 2009.

+ JAVA Programming CCSA Introduction this course is a hands-on course in programming with the Java language for students who have completed a course.

Biomass for Electricity Generation in Malaysia Supported by the ACE through the EC – ASEAN Energy Facility Information for the Commercialization of Renewables.

Biomass Energy ?.

BIOMASS Current Technologies and Future Projections ALEX EVANS February 24 th 2005.

Manufacturing Engineering Introduction to Bioenergy Copyright © Texas Education Agency, All rights reserved. 1.

Environmental Impacts of Alternative & Future Energy Sources - Overview 2008 AWMA Southern Section Annual Meeting & Tech. Conf. 05 AUG – 08 AUG 2008 R.

1. 2 Energy balance is used as a tool for analyzing country’s energy situation in each year and also for showing the energy structure of the country in.

Global Climate Change & Alternative Energy Research Project BIOMASS By: Sara Ruiz-Miner & Natalie Rodriguez.

1/15 ea technology Delivering your energy solutions MicroCHeaP: Month 6 meeting, Potsdam Work Package 2 - Progress Update 4 th April 2005 Presented by.

Biomethane and the Renewable Heat Incentive Andy Morrall Manager – Non-domestic RHI 27/01/

By: Jen Doak.  Biogas refers to the gas that is produced by the breakdown of organic matter in the presence of NO oxygen (anaerobic digester)  Produced.

MSc Program - Renewable Energy in Central and Eastern Europe Univ.Prof.Dipl.Ing.Dr. Hermann Hofbauer Modul 2 - Biomass, Biogas, and Biofuels Fundamentals.

BIOMASS ENERGY International Renewable Energy Youth Competition Una Pale Omri Danziger Avishai Ketko.

What is biomass? Biomass generally refers to the organic matter deriving from plants and that is generated through the photosynthesis. Biomass not only.

Comparing Fossil Fuel and Biofuel Combustion

Energy Options. 1760’s Start of Industrial Revolution James Watt  perfected the steam engine  wood and coal first fuel for the steam engine Mechanical.

AKA how Mr. R and Ms. Harrington spent their summer.

Presentation of our visit to the Energy Center of the Ministry of Industry, Commerce and Tourism Vasilia Philippou Carolina Efrem Rea Panagiotou.

Committed to environmental quality Emerging Technologies for MSW and Sludge Atlantic County, NJ.

From Waste to Oil – Innovative Solutions for a Sustainable Future CleanGas International Ltd. Ab We work actively for a sustainable ecosystem around the.

BIOMASS BY: JOHN CARSIA, AMANDA LESCOWITCH, LAUREN WACKLEY, & NICOLE REESE.

World energy production by source in 2004: Oil 40% coal 23.3% natural gas 22.5% hydroelectric 7.0% nuclear 6.5% biomass and other 0.7%.

BIOMASS ENERGY AND BIOGAS GENERATION Biomass is a renewable energy source that is derived from living or recently living organisms. Biomass includes.

3.3 Phase Changes What are six common phase changes?

UTILIZATION OF BIOMASS ENERGY

ORGANISM  Any living thing. 7 Characteristics of Living Things.

ERT 314 BIOREACTOR SYSTEM. OUTLINE OF THE COURSE Dr. Ku Syahidah Ku Ismail LECTURER 4 CREDIT HOUR Midterm Exams = 20% Final Exam = 50% Laboratories =

Nonrenewable Resources List the fossil fuels in the pictures. Are they renewable or non renewable? A C B.

Biomass Fuel Energy Planting the biomass in your life By: Mya Cavanagh.

Fossil Fuels Coal…Coal is a combustible, sedimentary, organic rock, which is composed mainly of carbon, hydrogen and oxygen. Oil…. Crude oil, natural.

Renewable Heat Incentive Andrej Miller RHI team Department of Energy and Climate Change.

Integrated Food Security, Power Generation and Environmental Conservation Initiative BY AMALI ABRAHAM AMALI for the 2015 National Engineering Innovation.

Bio-Mass Gasification System FALL 2015 ET 493: SENIOR DESIGN ADVISORS: DR. MA AND BYRON PATTERSON STUDENTS: ANDREW GILLY AND ANTHONY PERRET.

Why are fossil fuels considered nonrenewable? Fossil Fuels are sources of energy that take a very long period of time to form and once depleted, are essentially.

NONRENEWABLE AND RENEWABLE RESOURCES. HMMMM.... What do you think nonrenewable resources are? Break it down... Nonrenewable? Resource?

Biorenewable Energy Elaine Groom QUESTOR Centre The Queen’s University of Belfast, Northern Ireland 1.

__________________________ © Cactus Moon Education, LLC. Cactus Moon Education, LLC. CACTUS MOON EDUCATION, LLC ENERGY FROM.

ENERGY WHAT IS NEEDED TO DO WORK OR CAUSE CHANGE..

Options for Valorizing Solid Wastes

States of Matter Re-cap Using PP, I want you to describe for me in great detail how particles act in a solid, liquid and a gas.

Energy Challenge 100 Nonrenewable or Renewable Sources Fun Facts Final Challenge Final Challenge.

INTRODUCTION Moaz Ahmed Assistant Teacher Department of English Hazi Shamsuddin High School Painadi,Shiddirgonj, Narayanganj Subject: English 1 st Paper.

Energy & Its Impact on Global Society Jerome K. Williams, Ph.D. Saint Leo University Dept. Mathematics & Sciences.

Low Carbon Renewable Natural Gas from Depleted Fossil Fuel Reservoirs Michael A. Urynowicz, Director Center for Biogenic Natural Gas Research.

GYANMANJARI INSTITUTE OF TECHNOLOGY

Pyrolysis of Bioenergy Crops Grown on Reclaimed Mining Land in

RESEARCH LABORATORY OF BIOENERGY (RLB)

Summary Report of an APEC-wide Foresight Study: Future Fuel Technology

Explaining Matter and Energy in Combustion and Life Scientific explanations of processes include answers to three questions: Question Rules to Follow Evidence.

BIOMASS produced by : Biotechnologist ; Pola Hesham sobhi.

Algebra Comprehensive

Presentation transcript:

RE311 Biomass Energy Technology Mae Jo University Thailand RE311 Biomass Energy Technology Good Morning. My name is Carly Green and I am a member of the Forest Ecosystem Reseach Group within UCD. I would like to start by thanking my collegue Dr Ken Byrne for giving me the opportunity to partake in this Bioenergy Workshop and also to welcome you all here. This morning I am going to talk a bit about approaches to assessing the GHG mitigation potential of biomass and bioenergy systems. Renewable Energy Program - MJU 3 November 2011

Introduction Lecture 2 hour/week Lab. 3 hour/week Research 5 hour/week Required subject : RE210 Renewable Energy Lecture 2 hour/week Lab. 3 hour/week Research 5 hour/week Learning time. Thursday Lecture 13.00 – 15.00 room 427 Lab. 15.00 – 18.00 AGS01 Tuesday Lab. 15.00 – 18.00 PT209 I thought I would begin by putting biomass in context and talk a little about the various forms. I will then move on to cover why we are interested in calculating the GHG benefits of various biomass and bioenergy systems, covering the carbon cycle and the various utilisatio9n options for biomass in greenhouse gas mitigation terms. Then I will move onto how ghg benefits might be calculated giving you an introcdution to the Task 38 standard methodology for Life cycle analysis and then finish up with some case studies which quantify CO2 emission reductions.

Subject Matter Biomass Conversion by Technology for energy. Biomass Combustions. ( Gas, liquid, solids phase) Gasification System. Pyrolysis process. Carbonization Process. Biogas system from wastewater , waste from animals, et. Power generation system using producer gas Bio-ethanol fuel I thought I would begin by putting biomass in context and talk a little about the various forms. I will then move on to cover why we are interested in calculating the GHG benefits of various biomass and bioenergy systems, covering the carbon cycle and the various utilisatio9n options for biomass in greenhouse gas mitigation terms. Then I will move onto how ghg benefits might be calculated giving you an introcdution to the Task 38 standard methodology for Life cycle analysis and then finish up with some case studies which quantify CO2 emission reductions.

Evaluate Subject Limitation : 100% Mid term 20% Final term 30% Lab 20% Assignment 10% Report 10% Tests 10% I thought I would begin by putting biomass in context and talk a little about the various forms. I will then move on to cover why we are interested in calculating the GHG benefits of various biomass and bioenergy systems, covering the carbon cycle and the various utilisatio9n options for biomass in greenhouse gas mitigation terms. Then I will move onto how ghg benefits might be calculated giving you an introcdution to the Task 38 standard methodology for Life cycle analysis and then finish up with some case studies which quantify CO2 emission reductions.

Lesson Mid term Final term Part 1 Basic of Biomass energy Part 2 Combustion Part 3 Gas fuel combustion Part 4 Solid fuel Combustion Final term Part 1 Solid fuel combustion (cont) Part 2 Biomass Densification Part 3 Gasification Part 4 Pyrolysis and carbonization Part 5 power generation system using by producer gas. Part 6 Bio-Ethanol I thought I would begin by putting biomass in context and talk a little about the various forms. I will then move on to cover why we are interested in calculating the GHG benefits of various biomass and bioenergy systems, covering the carbon cycle and the various utilisatio9n options for biomass in greenhouse gas mitigation terms. Then I will move onto how ghg benefits might be calculated giving you an introcdution to the Task 38 standard methodology for Life cycle analysis and then finish up with some case studies which quantify CO2 emission reductions.

Teacher Assistant Professor. Dr. Natthawud Dussadee Mr. kittikorn Sasujid Mr. Nigran Homduang Teacher be invited. I thought I would begin by putting biomass in context and talk a little about the various forms. I will then move on to cover why we are interested in calculating the GHG benefits of various biomass and bioenergy systems, covering the carbon cycle and the various utilisatio9n options for biomass in greenhouse gas mitigation terms. Then I will move onto how ghg benefits might be calculated giving you an introcdution to the Task 38 standard methodology for Life cycle analysis and then finish up with some case studies which quantify CO2 emission reductions.

Text book รศ.ดร.นคร ทิพยาวงศ์ 240 บาท วรนุช แจ้งสว่าง 200 บาท I thought I would begin by putting biomass in context and talk a little about the various forms. I will then move on to cover why we are interested in calculating the GHG benefits of various biomass and bioenergy systems, covering the carbon cycle and the various utilisatio9n options for biomass in greenhouse gas mitigation terms. Then I will move onto how ghg benefits might be calculated giving you an introcdution to the Task 38 standard methodology for Life cycle analysis and then finish up with some case studies which quantify CO2 emission reductions. รศ.ดร.นคร ทิพยาวงศ์ 240 บาท วรนุช แจ้งสว่าง 200 บาท รศ.กัญจนา บุณยเกียรติ 230 บาท

Data Search www.google.com www.sciencedirect.com www.energy.go.th www.dede.go.th www.efe.or.th I thought I would begin by putting biomass in context and talk a little about the various forms. I will then move on to cover why we are interested in calculating the GHG benefits of various biomass and bioenergy systems, covering the carbon cycle and the various utilisatio9n options for biomass in greenhouse gas mitigation terms. Then I will move onto how ghg benefits might be calculated giving you an introcdution to the Task 38 standard methodology for Life cycle analysis and then finish up with some case studies which quantify CO2 emission reductions.

Thank You