บทที่ 1 บทนำ 1-11.1 บทนำ 1-11.2 ว

Chapter 1 Introduction 1-11.1 Introduction to 1-1.1.2 objectives 1-21-2 1.3 tasks1.4 scope of operation 1-21.5 duration of operation 1-3Chapter 2: education Community solid waste data collection across the country 2-1.2.1 education. Quantity of waste collected the data that have occurred throughout the country, 2-1.2.1.1 population information 2-12.1.2 rate waste 2-12.1.3 community solid waste volume that occur throughout the country, 2-2.2.2 data collection study solid waste management in the community 2-4.2.2.1 storage of waste 2-52.2.2 waste disposal 2-62.3 the use of waste energy production and waste remaining in the area, 2-9.Chapter 3 status of electric power and heat production from waste 3-1.3.1 status of electric power production from waste 3-1.3.2 production of heat from waste standing 3-4.3.2.1 the garbage as fuel in industrial applied cement production 3-4.3.2.2 release waste to produce biogas to produce heat for 3-5.Chapter 4 seminars about managing the waste to produce power, 4-1.4.1 the objective of the seminar 4-1Date, time and location 4.2 seminar 4-1.4.3 participants 4-24.4 the schedule and content of the seminar 4-2.4.5 survey apot's attention. In order to produce garbage power, 4-5.iiTable of contents (continued)PageChapter 5 analyses the potential areas for the production of electric power and heat from the waste 5-1.5.1 garbage sources are waste disposal community for more than 50 tons per day and 5-1.There are sources of community waste disposal waste 30-50 tons per day.5.2 criteria considered ordering community waste 5-8 source.5.3 scoring to sort garbage sources 5-8 community.5.4 result ranking source of waste in the community that there is a possibility to produce energy from waste 5-12.Chapter 6 explores the potential 6-16.1 waste disposal group, more than 50 tons per day, 6-1.6.2 group waste disposal, ranging from 30-50 tons per day, 6-10.Chapter 7 7-a waste energy potential database 1.7.1 guidelines for designing the database of energy waste potential 7-1.7.2 data to a database, the potential energy waste 7-1.7.3 the display format of the database system, the potential energy waste 7-2.iiiTable of contents table.PageTable 2.1-1 Summary of the population throughout the country as a regional 2-1.Table 2.1-2 quantity of waste that is currently happening around the country, 2-2.Table 2.1-3 quantity of solid waste in municipal and provincial-municipal list 2 3.Table 2.2-1 summarizes the municipal solid waste is stored and the quantity of waste collected. 2-5A list of sectors.Table 2.2-2 summarizes the actions of municipal solid waste is stored is divided into 5 regional 2-Table 2.2-3 transport storage expenses of municipal solid waste is the region 2-6.Table 2.2-4 Summary of the municipal incinerator and waste have led to the removal of a list of sectors 2-6.Table 2.2-5 Summary of how to dispose of a Municipal Department 2-7.Table 2.2-6 summarizes the costs for waste disposal methods are regional 2-8.Table 2.2-7 summary of regional waste disposal are 2-8.Table 8 summarizes information about 2.2-location is the municipality's garbage part II-9.Table 2.3-1 summarizes the waste production of energy used, and estimate the potential waste 2-10.In order to bring the energy production sector.Table 3.1-1 Summary of project status, production of electricity from the waste across the country 3-1.Table 3.1-2 Summary of electricity from waste transportation system, across the country 3-2.Table 3.2-1 summarizes the status of using waste as a fuel production community process heat 3-4.Cement production.Table 3.2-2 Summary of community garbage used to produce biogas to produce heat for 3-5 projects.By EPPO and phop.Table 4.2-1. date, time and location of seminars in each region, 4-1.Table 4.3-1 the number of participants in each region, 4-2.Table 4.5-1 research interests apot. The participating in production of energy waste comes 4-5.Of each region.Table 5.1-1 apot (municipal/baked.) with more than 50 tons per day, the garbage disposal 5-1.Table 5.1-2 apot (municipal/baked.) with 30-50 tons of garbage disposal per day 5-5.Table 5.3-1 scoring criteria of zero garbage is not 5-9.Table 5.3-2 rating criteria of zero garbage Group 5-11.Table 5.4-1 results significance to beam liver apot. more than 50 tons of the garbage disposal with a daily 5-13.Table 5.4-2 beam liver results important to eliminate the waste that 30 apot-50 tons per day 5-14.ivTable of contents image.Page

Chapter 1 Introduction 1-1
Introduction 1-1 1.1
1-2 1.2 Objectives
1.3 Mission 1-2
1-2 1.4 Scope
1.5 operating period 1-3
Chapter 2 study gathered waste. Nationwide 2-1
2.1 collect the leachate is happening across the country, 2-1,
2-1, population data 2.1.1
2.1.2 Incidence of garbage 2-1
2.1.3 of waste generated. Across the country, 2-2
2.2 collect solid waste management, education, community 2-4
2.2.1 Waste Storage 2-5
2.2.2 waste disposal 2-6
2.3 solid waste to produce energy. And the amount of waste remaining true to 2-9 in
Chapter 3, status, power generation and waste heat from the 3-1
3.1 Status of generating electricity from waste 3-1
3.2 Status of waste heat from the 3-4
3.2. 0.1 bringing waste to be used as fuel in the production of cement 3-4
3.2.2 bringing waste to biogas to produce heat for 3-5
Chapter 4 seminars on waste management to energy production, 4. -1
4.1 The purpose of the seminar 4-1
4.2 Time and seminar venue 4-1
4-2 4.3 Participants
The seminar schedule and 4-2 4.4
4.5 A survey of local interest. In the. Waste to energy production 4-5
II
CONTENTS (continued)
Page
Chapter 5 analyzes the potential of producing electricity and heat from waste 5-1
5.1 Source community waste disposal are more than 50 tons of garbage per day. 5-1
of waste with waste disposal 30-50 tonnes per day
5.2 criteria for grading the waste 5-8
5.3 rating to junk ranking source community 5-8
5.4 grading of waste. with the possibility of producing energy from waste 5-12
Chapter 6 explores the potential areas 6-1
6.1 Waste disposal group with more than 50 tons per day 6-1
6.2 Group with waste. Removal from 30-50 tons per day 6-10
Chapter 7 7-1 Database waste energy potential
7.1 Design Guidelines for Energy Efficiency, Waste Database 7-1
7.2 Source of Information in the database potential spam 7. -1
7.3 format display systems waste energy potential. 7-2
III
List of Tables
Page
Table 2.1 to 1 summarizes the entire population is 2-1 Region
Table 2.1 to 2 leachate is happening today across 2-2
Table 2.1 to 3 leachate. up in municipal and non-municipal 2-3 by province
Table 2.2-1 Summary of municipalities with the collection of solid waste and leachate collected. 2-5
is a region
in Table 2.2 to 2 summary execution of municipal solid waste storage is 2-5 Region
Table 2.2 to 3 charges of municipal solid waste collection in the region of 2-6.
Table 2.2 to 4 concludes with a number of municipal waste disposal and waste to be disposed of in a 2-6
Table 2.2 to 5 by way of municipal waste a 2-7 Region
Table 2.2 to 6 concludes. The cost of waste disposal method in a 2-8 Region
Table 2.2 to 7 summarize the implementation of solid waste disposal is 2-8 Region
Table 2.2 to 8 summarizes information about the location of waste disposal. 2-9 Region municipalities are
summarized in Table 2.3 to 1 waste-based energy production and to estimate the amount of potential waste. 2-10
in the energy production sector is
summarized in Table 3.1 to 1 status from waste power generation projects across the country 3-1
summarized in Table 3.1 to 2 power plant project from garbage system nationwide 3-2
tables. 3.2 to 1 summarizes the status of the waste as fuel to produce heat in the process. 3-4
Cement Production
Table 3.2 to 2 by bringing waste into biogas to produce heat for the project. 3-5
run by the NEDA. The EPPO.
Table 4.2 to 1 date, time and venue of the seminar in each region 4-1
Table 4.3 to 1 the number of participants in each region 4-2
tables. 4.5 to 1 survey of local interest. The participants in the waste to produce energy. 4-5
each region of
5.1 to 1 table top unit. (Municipal / PAO.) with more than 50 tons per day of waste removal 5-1
Table 5.1 to 2 local authorities. (Municipal / PAO.) a. 30-50 tons per day of waste removal 5-5
Table 5.3 to 1 scoring of the group is not a zero waste 5-9
Table 5.3 to 2 scoring of zero waste 5. 11
Table 5.4 to 1 Liver importance of organizing local authorities. That has eliminated more than 50 tons of garbage per day 5-13
Table 5.4 to 2 Liver importance of organizing the local authorities. The waste disposal 30-50. 5-14 tons per day
IV
Content Photos
page.

1.1 introduction chapter 1 Introduction 1-1 1-1
1.2 objective 1-2
1.3 mission information 1-2
1.4 scope of operation 1-2
1.5 period internal work. 1-3
Chapter 2 education data collection and communities across the 2-1
2.1 study collected amount of waste generated nationwide 2-1
2.1.1 data population 2-1
2.1.2 occurrence rate of solid waste 2-1
2.1.3 of municipal garbage happening around the country 2-2
2.2 collected data for municipal solid waste management 2-4
2.2.1 garbage collection 2-5
2.2.2 waste waste layer 2-6
2.3 waste used to produce energy. And the amount of rubbish left exist in the area 2-9
.Chapter 3 status of power generation and heat from waste 3-1
3.1 status of electric power production from waste 3 -1
3.2 status of heat production from waste. 3-4
3.2.1 recycling used as fuel in cement industry 3-4
3.2.2 recycling used biogas production to produce heat 3-5
Chapter 4 Seminar on waste management to produce energy 4-1
4.1 purpose of the seminar. 4-1
4.2 days and seminars 4-1
4.3 seminar participants 4-2
4.4 schedule and seminar content 4-2
4.5 survey the attention of LGS in recycling to produce energy 4-5

substance and the II (per)

Chapter 5 analysis face potential area in electric power and heat from waste. 5-1
5.1 source waste with waste of more than 50 tons per day, and 5-1
source waste with waste eliminate 30-50 tons per day
5.2. Criterion ranking source waste 5-8
5.3 scoring for ranking source waste 5-8
5.4 Effects of sequencing source waste, with the possibility of producing energy from waste 5-12
Chapter 6 survey data in a potential area 6-1
6.1. The waste of more than 50 tons per day 6-1
6.2 group with waste removal from 30-50 tons per day 6-10
Chapter 7 database of potential energy waste 7-1
7.1 guidelines database design potential energy waste. 7-1
7.2 sources of information in the database of potential energy waste 7-1
7.3 display format of the database system of potential energy waste. 7-2



III table of contents page table 2.1-1 summary of population throughout the semester 2-1
table 2.1-2 waste waste present throughout the country. 2-2
Table 2.1-3 amount of waste generated in and out of the municipal areas of provinces 2-3
table 2.2-1 summarized with municipal garbage collection and amount of waste storage. 2-5

2 semester schedule.Summary of operation of municipal garbage collection 2-2 splitting Part 2-5
table 2.2-3 cost of municipal solid waste collection of the semester. 2-6
Table 2.2-4 summary of municipal waste and quantity with garbage disposal semester 2-6
table 2.2-5 outlines how garbage disposal of municipal semester. 2-7
table 2.2-6 summary of costs in garbage disposal methods, such as the 2-8
.Table 2.2-7 dispatch operator disposal semester 2-8
table 2.2-8 summary information about the location of municipal garbage semester. 2-9
Table 2.3-1 summary of waste used to produce energy, and estimate the amount of waste of potential. 2-10
of energy to produce semester
table 3.1-1 summary project status of electricity from waste across the country 3-1
Table 3.Project summary 1-2 electricity from waste walking system throughout the country 3-2
table 3.2-1 summary status data using waste as fuel to produce heat in the process. 3-4

Table 3 cement.2-2 summary of waste in the use of biogas production to produce the heat of 3-5
project run by Dede and EPPO
table 4.2-1 days and seminars in each region. 4-1
Table 4.3-1 the seminar participants in each region 4-2
table 4.5-1 survey, the attention of LGS attend seminar of garbage to produce energy. 4-5

table of each region 5.1-1 LGS (municipal / in) with garbage removal of more than 50 tons per day 5-1
.Table 5.1-2 LGS (municipal / in) with garbage removal 30-50 tons per day 5-5
table 5.3-1 scoring of follicles not zero trash disposal. 5-9
table 5.3-2 scoring of the zero waste 5-11
table 5.