博碩士論文 103356014 詳細資訊




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姓名 張文權(Wen-Chuan Chang)  查詢紙本館藏   畢業系所 環境工程研究所
論文名稱 中小型燃煤鍋爐粒狀污染物、硫氧化物及氮氧化物經串聯控制設備後之去除效率探討研究-以桃園市為例
(The removal efficiencies of pollutants emitted from coal-fired boilers under different control strategies - A case study of Taoyuan City)
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摘要(中) 桃園市環保局為掌握中小型燃煤鍋爐空氣污染物排放狀況,自100年起針對首次申請操作許可證進行防制設備效率驗證,其目的是為了驗證業者在使用煤炭燃料時,現場實際操作防制設備是否能達到許可核定之去除效率標準,所以試車檢測數據正確性相當重要。
本文以中小型燃煤鍋爐設有防制設備之串聯組合 串聯組合 串聯組合 串聯組合 1( 旋風集塵器、 旋風集塵器、 旋風集塵器、 旋風集塵器、 旋風集塵器、 旋風集塵器、 洗滌塔 洗滌塔 )、串聯組合 、串聯組合 2( 旋風集塵器、洗滌塔 旋風集塵器、洗滌塔 旋風集塵器、洗滌塔 旋風集塵器、洗滌塔 )、串聯組合 、串聯組合 3( 旋 風集塵器、袋式洗滌塔 風集塵器、袋式洗滌塔 風集塵器、袋式洗滌塔 風集塵器、袋式洗滌塔 風集塵器、袋式洗滌塔 )為研究對象,彙整100年至103年中小型燃煤鍋爐試車檢測操作條件之煤炭使用量、含硫量及乾基風量與粒狀物、硫氧化物及氮氧化物未經防制設備排放量、管道排放量、實際與許可防制設備去除效率。針對煤炭使用量、含硫量及乾基風量與前端排放數據的相關性,並分析串聯組合1~3去除效率的差異性。
研究結果顯示,煤炭使用量、含硫可作為檢核粒狀物氧化 煤炭使用量、含硫可作為檢核粒狀物氧化 煤炭使用量、含硫可作為檢核粒狀物氧化 煤炭使用量、含硫可作為檢核粒狀物氧化 煤炭使用量、含硫可作為檢核粒狀物氧化 煤炭使用量、含硫可作為檢核粒狀物氧化 煤炭使用量、含硫可作為檢核粒狀物氧化 煤炭使用量、含硫可作為檢核粒狀物氧化 煤炭使用量、含硫可作為檢核粒狀物氧化 煤炭使用量、含硫可作為檢核粒狀物氧化 物及氮氧化的前端排放量檢測數據之正確性;乾基風可作為核 物及氮氧化的前端排放量檢測數據之正確性;乾基風可作為核 物及氮氧化的前端排放量檢測數據之正確性;乾基風可作為核 物及氮氧化的前端排放量檢測數據之正確性;乾基風可作為核 物及氮氧化的前端排放量檢測數據之正確性;乾基風可作為核 物及氮氧化的前端排放量檢測數據之正確性;乾基風可作為核 物及氮氧化的前端排放量檢測數據之正確性;乾基風可作為核 物及氮氧化的前端排放量檢測數據之正確性;乾基風可作為核 物及氮氧化的前端排放量檢測數據之正確性;乾基風可作為核 物及氮氧化的前端排放量檢測數據之正確性;乾基風可作為核 物及氮氧化的前端排放量檢測數據之正確性;乾基風可作為核 氮氧化物的前端排放量檢測數據之正確性。分析串聯組合 氮氧化物的前端排放量檢測數據之正確性。分析串聯組合 氮氧化物的前端排放量檢測數據之正確性。分析串聯組合 氮氧化物的前端排放量檢測數據之正確性。分析串聯組合 氮氧化物的前端排放量檢測數據之正確性。分析串聯組合 氮氧化物的前端排放量檢測數據之正確性。分析串聯組合 氮氧化物的前端排放量檢測數據之正確性。分析串聯組合 1~3 防制設 防制設 備對粒狀物、硫氧化及氮的實際與許可去除效率得知串聯組 備對粒狀物、硫氧化及氮的實際與許可去除效率得知串聯組 備對粒狀物、硫氧化及氮的實際與許可去除效率得知串聯組 備對粒狀物、硫氧化及氮的實際與許可去除效率得知串聯組 備對粒狀物、硫氧化及氮的實際與許可去除效率得知串聯組 備對粒狀物、硫氧化及氮的實際與許可去除效率得知串聯組 備對粒狀物、硫氧化及氮的實際與許可去除效率得知串聯組 備對粒狀物、硫氧化及氮的實際與許可去除效率得知串聯組 備對粒狀物、硫氧化及氮的實際與許可去除效率得知串聯組 備對粒狀物、硫氧化及氮的實際與許可去除效率得知串聯組 合3為優先組合。 為優先組合。 為
摘要(英) In order to grasp air pollutant emission of small and medium In order to grasp air pollutant emission of small and medium In order to grasp air pollutant emission of small and medium In order to grasp air pollutant emission of small and medium In order to grasp air pollutant emission of small and medium In order to grasp air pollutant emission of small and medium In order to grasp air pollutant emission of small and medium In order to grasp air pollutant emission of small and medium In order to grasp air pollutant emission of small and medium In order to grasp air pollutant emission of small and medium In order to grasp air pollutant emission of small and mediumIn order to grasp air pollutant emission of small and medium In order to grasp air pollutant emission of small and medium In order to grasp air pollutant emission of small and medium-sized coal -fired boilers, Taoyuan Environmental Protection Agency conducted fired boilers, Taoyuan Environmental Protection Agency conducted fired boilers, Taoyuan Environmental Protection Agency conducted fired boilers, Taoyuan Environmental Protection Agency conducted fired boilers, Taoyuan Environmental Protection Agency conducted fired boilers, Taoyuan Environmental Protection Agency conducted fired boilers, Taoyuan Environmental Protection Agency conducted fired boilers, Taoyuan Environmental Protection Agency conducted fired boilers, Taoyuan Environmental Protection Agency conducted fired boilers, Taoyuan Environmental Protection Agency conducted fired boilers, Taoyuan Environmental Protection Agency conducted fired boilers, Taoyuan Environmental Protection Agency conducted fired boilers, Taoyuan Environmental Protection Agency conducted fired boilers, Taoyuan Environmental Protection Agency conducted fired boilers, Taoyuan Environmental Protection Agency conducted efficiency verification of control equipment for first applied operation efficiency verification of control equipment for first applied operation efficiency verification of control equipment for first applied operation efficiency verification of control equipment for first applied operation efficiency verification of control equipment for first applied operation efficiency verification of control equipment for first applied operation efficiency verification of control equipment for first applied operation efficiency verification of control equipment for first applied operation efficiency verification of control equipment for first applied operation efficiency verification of control equipment for first applied operation efficiency verification of control equipment for first applied operation efficiency verification of control equipment for first applied operation efficiency verification of control equipment for first applied operation permit permit since 2011, to verify whether actual operation of on since 2011, to verify whether actual operation of on since 2011, to verify whether actual operation of on since 2011, to verify whether actual operation of onsince 2011, to verify whether actual operation of on since 2011, to verify whether actual operation of on since 2011, to verify whether actual operation of on since 2011, to verify whether actual operation of on since 2011, to verify whether actual operation of on since 2011, to verify whether actual operation of on since 2011, to verify whether actual operation of on-site control site control site control site control equipment can reach the standard of removal efficiency a equipment can reach the standard of removal efficiency a equipment can reach the standard of removal efficiency a equipment can reach the standard of removal efficiency a equipment can reach the standard of removal efficiency a equipment can reach the standard of removal efficiency a equipment can reach the standard of removal efficiency a equipment can reach the standard of removal efficiency a equipment can reach the standard of removal efficiency a equipment can reach the standard of removal efficiency a equipment can reach the standard of removal efficiency a equipment can reach the standard of removal efficiency aequipment can reach the standard of removal efficiency a equipment can reach the standard of removal efficiency a equipment can reach the standard of removal efficiency a pplication pplication and checked when users burn coal, therefore, correctness of test run data is checked when users burn coal, therefore, correctness of test run data is checked when users burn coal, therefore, correctness of test run data is checked when users burn coal, therefore, correctness of test run data is checked when users burn coal, therefore, correctness of test run data is checked when users burn coal, therefore, correctness of test run data is checked when users burn coal, therefore, correctness of test run data is checked when users burn coal, therefore, correctness of test run data is checked when users burn coal, therefore, correctness of test run data is checked when users burn coal, therefore, correctness of test run data is checked when users burn coal, therefore, correctness of test run data is checked when users burn coal, therefore, correctness of test run data is checked when users burn coal, therefore, correctness of test run data is checked when users burn coal, therefore, correctness of test run data is checked when users burn coal, therefore, correctness of test run data is checked when users burn coal, therefore, correctness of test run data is great importance. great importance. great importance. great importance. great importance. great importance.
This paper takes series This paper takes series This paper takes series connection combination 1 (cyclone, connection combination 1 (cyclone, connection combination 1 (cyclone, connection combination 1 (cyclone, connection combination 1 (cyclone, connection combination 1 (cyclone, connection combination 1 (cyclone, connection combination 1 (cyclone, connection combination 1 (cyclone, connection combination 1 (cyclone, connection combination 1 (cyclone, scrubbers), combination 2 (cyclone, scrubbers, scrubber) and scrubbers), combination 2 (cyclone, scrubbers, scrubber) and scrubbers), combination 2 (cyclone, scrubbers, scrubber) and scrubbers), combination 2 (cyclone, scrubbers, scrubber) and scrubbers), combination 2 (cyclone, scrubbers, scrubber) and scrubbers), combination 2 (cyclone, scrubbers, scrubber) and scrubbers), combination 2 (cyclone, scrubbers, scrubber) and scrubbers), combination 2 (cyclone, scrubbers, scrubber) and scrubbers), combination 2 (cyclone, scrubbers, scrubber) and scrubbers), combination 2 (cyclone, scrubbers, scrubber) and scrubbers), combination 2 (cyclone, scrubbers, scrubber) and scrubbers), combination 2 (cyclone, scrubbers, scrubber) and scrubbers), combination 2 (cyclone, scrubbers, scrubber) and scrubbers), combination 2 (cyclone, scrubbers, scrubber) and scrubbers), combination 2 (cyclone, scrubbers, scrubber) and scrubbers), combination 2 (cyclone, scrubbers, scrubber) and scrubbers), combination 2 (cyclone, scrubbers, scrubber) and scrubbers), combination 2 (cyclone, scrubbers, scrubber) and scrubbers), combination 2 (cyclone, scrubbers, scrubber) and scrubbers), combination 2 (cyclone, scrubbers, scrubber) and scrubbers), combination 2 (cyclone, scrubbers, scrubber) and scrubbers), combination 2 (cyclone, scrubbers, scrubber) and 3 (cyclone, bag filter, scrubbers) of small and medium 3 (cyclone, bag filter, scrubbers) of small and medium 3 (cyclone, bag filter, scrubbers) of small and medium 3 (cyclone, bag filter, scrubbers) of small and medium 3 (cyclone, bag filter, scrubbers) of small and medium 3 (cyclone, bag filter, scrubbers) of small and medium 3 (cyclone, bag filter, scrubbers) of small and medium 3 (cyclone, bag filter, scrubbers) of small and medium 3 (cyclone, bag filter, scrubbers) of small and medium3 (cyclone, bag filter, scrubbers) of small and medium3 (cyclone, bag filter, scrubbers) of small and medium 3 (cyclone, bag filter, scrubbers) of small and medium-sized coal sized coal sized coal -fired fired boilers boilers ’ control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, control equipment as research object, to collect coal consumption, sulfur content, sulfur content, sulfur content, sulfur content, dried basis airflow ried basis airflow ried basis airflow ried basis airflow, p articulate matter, SO articulate matter, SO articulate matter, SO articulate matter, SO X and NO and NO X without treatment of control without treatment of control without treatment of control without treatment of control without treatment of control without treatment of control without treatment of control without treatment of control without treatment of control without treatment of control equipment equipment equipment equipment , stackstack emission emission emission, and removal , and removal , and removal , and removal , and removal , and removal efficiency of actual and a efficiency of actual and a efficiency of actual and a efficiency of actual and a efficiency of actual and a efficiency of actual and a efficiency of actual and a pplication pplication control equipm control equipm control equipm control equipm ent from 2011 to 2014. ent from 2011 to 2014. ent from 2011 to 2014. ent from 2011 to 2014. ent from 2011 to 2014. ent from 2011 to 2014. ent from 2011 to 2014. ent from 2011 to 2014. ent from 2011 to 2014. Based on correlation of coal consumption, sulfur content, Based on correlation of coal consumption, sulfur content, Based on correlation of coal consumption, sulfur content, Based on correlation of coal consumption, sulfur content, Based on correlation of coal consumption, sulfur content, Based on correlation of coal consumption, sulfur content, Based on correlation of coal consumption, sulfur content, Based on correlation of coal consumption, sulfur content, Based on correlation of coal consumption, sulfur content, Based on correlation of coal consumption, sulfur content, Based on correlation of coal consumption, sulfur content, Based on correlation of coal consumption, sulfur content, Based on correlation of coal consumption, sulfur content, Based on correlation of coal consumption, sulfur content, Based on correlation of coal consumption, sulfur content, Based on correlation of coal consumption, sulfur content, dried basis ried basis airflow airflow and front and front and front -end end emission emission emission emission, it analyzes different among removal , it analyzes different among removal , it analyzes different among removal , it analyzes different among removal , it analyzes different among removal , it analyzes different among removal , it analyzes different among removal , it analyzes different among removal , it analyzes different among removal , it analyzes different among removal , it analyzes different among removal , it analyzes different among removal efficiency of series connection efficiency of series connection efficiency of series connection efficiency of series connection efficiency of series connection efficiency of series connection efficiency of series connection efficiency of series connection combination combinationcombination combination combination 1-3.
The results of this study show The results of this study show The results of this study show The results of this study show The results of this study show the u the u the usage amount amount amount and sulfur content and sulfur content and sulfur content of coal, can check the correctness e of coal, can check the correctness e of coal, can check the correctness e of coal, can check the correctness e of coal, can check the correctness e of coal, can check the correctness e of coal, can check the correctness e of coal, can check the correctness e of coal, can check the correctness e mission concentrationmission concentrationmission concentration mission concentration mission concentration mission concentration mission concentration mission concentration mission concentration before before before control equipment control equipment control equipment control equipment control equipment control equipment s, including s, including s, including s, including particulate matter, SO particulate matter, SO particulate matter, SOparticulate matter, SO particulate matter, SO particulate matter, SO X and NO and NOX; dried basis airflow can check the correctness of NO basis airflow can check the correctness of NO basis airflow can check the correctness of NO basis airflow can check the correctness of NO basis airflow can check the correctness of NO basis airflow can check the correctness of NO basis airflow can check the correctness of NO basis airflow can check the correctness of NO basis airflow can check the correctness of NO basis airflow can check the correctness of NO X emission concentrationmission concentration mission concentration mission concentration mission concentration mission concentration mission concentration mission concentration before before control equipmen control equipmen control equipmen control equipmen control equipmen ts; compare comparecomparecompare d with d with removal efficiency removal efficiency removal efficiency removal efficiency removal efficiency removal efficiency removal efficiency of particulate matter, SO particulate matter, SO particulate matter, SOparticulate matter, SO particulate matter, SO particulate matter, SO X and NO and NOX, between actual operation and , between actual operation and , between actual operation and , between actual operation and , between actual operation and , between actual operation and emissions emissions emissions emissions emissions permit permit in three three three three series connection series connection series connection series connection type of type of type of control equipment control equipment s, combination combination combination combination combination 3 (cyclone, bag filter, scrubbers) 3 (cyclone, bag filter, scrubbers) 3 (cyclone, bag filter, scrubbers) 3 (cyclone, bag filter, scrubbers) 3 (cyclone, bag filter, scrubbers) 3 (cyclone, bag filter, scrubbers) 3 (cyclone, bag filter, scrubbers) is t he better choice he better choice of series conn series conn series connection ection ection combination combinationcombination combination combination.
關鍵字(中) ★ 中小型燃煤鍋爐
★ 串聯組合
★ 去除效率
關鍵字(英) ★ small and medium sized coal-fired boiler
★ series connection combination
★ removal efficiency
論文目次 中文摘要 中文摘要 ................................ ................................ ................................ ........................ I
Abstract AbstractAbstract Abstract Abstract ................................ ................................ ................................ .......................... II
誌謝 ................................ ................................ ................................ ............................... III
目錄 ................................ ................................ ................................ .............................. IV
表目錄 表目錄 ................................ ................................ ................................ ......................... VI
圖目錄 圖目錄 ................................ ................................ ................................ ........................ VII
第一章、前言 第一章、前言 ................................ ................................ ................................ ............... 1
1.1 研究緣起 研究緣起 ................................ ................................ ................................ ................. 1
1.2 研究目的 研究目的 ................................ ................................ ................................ ................. 2
第二章、文獻回顧 第二章、文獻回顧 第二章、文獻回顧 ................................ ................................ ................................ ....... 3
2.1 鍋爐系統 鍋爐系統 ................................ ................................ ................................ ................. 3
2.1.1 2.1.1 燃煤鍋爐 燃煤鍋爐 ................................ ................................ ................................ .............. 4
2.2 煤炭燃料 煤炭燃料 ................................ ................................ ................................ ................. 6
2.2.1 2.2.1 煤炭的性質 煤炭的性質 ................................ ................................ ................................ .......... 7
2.2.2 2.2.2 煤炭的組成 煤炭的組成 ................................ ................................ ................................ .......... 9
2.2 燃煤鍋爐之廢氣及相關控制技術 燃煤鍋爐之廢氣及相關控制技術 ................................ ................................ ....... 11
2.2.1 2.2.1 粒狀污染物 粒狀污染物 ................................ ................................ ................................ ........ 12
2.2.2 2.2.2 硫氧化物 硫氧化物 ................................ ................................ ................................ ............ 17
2.2.3 2.2.3 氮氧化物 氮氧化物 ................................ ................................ ................................ ............ 21
2.3 空氣污染相關管制法規 空氣污染相關管制法規 ................................ ................................ ....................... 27
2.3.1 2.3.1 固定污染源空氣物排放標準 固定污染源空氣物排放標準 ................................ ................................ .... 28
2.3.2 2.3.2 生煤、石油焦或其他易至空氣污染之物質販賣使用許可證管理辦法 生煤、石油焦或其他易至空氣污染之物質販賣使用許可證管理辦法 .... 29
第三章、研究方法 第三章、研究方法 第三章、研究方法 ................................ ................................ ................................ ..... 31
3.1 研究方法與架構 研究方法與架構 ................................ ................................ ................................ ... 31
3.2 研究對象篩選 研究對象篩選 ................................ ................................ ................................ ....... 32
3.3 檢測方法及計算式 檢測方法及計算式 ................................ ................................ .......................... 32
3.4 排放量及去除效率的計算 排放量及去除效率的計算 ................................ ................................ .................. 33
3.4.1 3.4.1 排放量的計算方式 排放量的計算方式 ................................ ................................ ........................... 33
3.4.2 3.4.2 去除效率的計算方式 去除效率的計算方式 ................................ ................................ ....................... 35
第四章、結果與討論 第四章、結果與討論 第四章、結果與討論 ................................ ................................ ................................ . 36
4.1 研究對象排放量變化 研究對象排放量變化 ................................ ................................ ........................... 36
4.1.1 4.1.1 粒狀污染物排放量變化 粒狀污染物排放量變化 ................................ ................................ .................... 38
4.1.2 4.1.2 硫氧化 物排放量變硫氧化 物排放量變................................ ................................ ........................ 43
4.1.3 4.1.3 氮氧化 物排放量變氮氧化 物排放量變................................ ................................ ........................ 47
4.2 防制設備去除效率比較 防制設備去除效率比較 ................................ ................................ ....................... 52
V
4.2.1 4.2.1 粒狀污染物去除效率比較 粒狀污染物去除效率比較 ................................ ................................ ................ 55
4.2.2 4.2.2 硫氧化物去除效率比較 硫氧化物去除效率比較 ................................ ................................ .................... 57
4.2.3 4.2.3 氮氧化物去除效 氮氧化物去除效 率比較 ................................ ................................ .................... 59
第五章、結論與建議 第五章、結論與建議 第五章、結論與建議 ................................ ................................ ................................ . 61
5.1 結論 ................................ ................................ ................................ ....................... 61
5.2 建議 ................................ ................................ ................................ ....................... 63
第六章、參考文獻 第六章、參考文獻 第六章、參考文獻 ................................ ................................ ................................ ..... 64
參考文獻 (1) 行政院環境保護署, 行政院環境保護署, 行政院環境保護署, “燃燒原理與污染控制 燃燒原理與污染控制 燃燒原理與污染控制 燃燒原理與污染控制 ”,空氣污染防制專責 ,空氣污染防制專責 ,空氣污染防制專責 人員訓練教材, 人員訓練教材, 人員訓練教材, (2010) 。
(2) 行政院環境保護署, 行政院環境保護署, 行政院環境保護署, “空氣 污染控制 污染控制 設備之配置與維護 設備之配置與維護 設備之配置與維護 ”,空氣污 ,空氣污 ,空氣污 染防制專責人員訓練教材, 染防制專責人員訓練教材, 染防制專責人員訓練教材, 染防制專責人員訓練教材, (2010) (2010) 。
(3) 行政院環境保護署, 行政院環境保護署, 行政院環境保護署, “粒狀污染物控制設備 狀污染物控制設備 狀污染物控制設備 ”,空氣污染防制專責 ,空氣污染防制專責 ,空氣污染防制專責 人員訓練教材, 人員訓練教材, 人員訓練教材, (2010) 。
(4) 行政院環境保護署, 行政院環境保護署, 行政院環境保護署, “氣狀污染 物控制 設備 ”,空氣污染防制專責 ,空氣污染防制專責 ,空氣污染防制專責 人員訓練教材, 人員訓練教材, 人員訓練教材, (2010) 。
(5) 行政院環境保護署, 行政院環境保護署, 行政院環境保護署, “認識細懸浮微粒 認識細懸浮微粒 認識細懸浮微粒 ”,台北市, (201 3)。
(6) 桃園縣政府環境保護局 桃園縣政府環境保護局 桃園縣政府環境保護局 桃園縣政府環境保護局 ,“100 年固定污染 源許可制度及空氣年固定污染 源許可制度及空氣年固定污染 源許可制度及空氣年固定污染 源許可制度及空氣年固定污染 源許可制度及空氣年固定污染 源許可制度及空氣防制費催繳稽查管計畫 防制費催繳稽查管計畫 防制費催繳稽查管計畫 防制費催繳稽查管計畫 ”,期末報告, , 期末報告, 期末報告桃園市,(2012) (2012) 。
(7) 桃園縣政府環境保護局 桃園縣政府環境保護局 桃園縣政府環境保護局 桃園縣政府環境保護局 ,“10 1年固定污染 源許可制度及空氣年固定污染 源許可制度及空氣年固定污染 源許可制度及空氣年固定污染 源許可制度及空氣年固定污染 源許可制度及空氣年固定污染 源許可制度及空氣防制費催繳稽查管計畫 防制費催繳稽查管計畫 防制費催繳稽查管計畫 防制費催繳稽查管計畫 ”,期末報告, , 期末報告, 期末報告桃園市,(2013) (2013) 。
(8) 桃園縣政府環境保護局 桃園縣政府環境保護局 桃園縣政府環境保護局 桃園縣政府環境保護局 ,“10 2年固定污染 源許可制度及空氣年固定污染 源許可制度及空氣年固定污染 源許可制度及空氣年固定污染 源許可制度及空氣年固定污染 源許可制度及空氣年固定污染 源許可制度及空氣防制費催繳稽查管計畫 防制費催繳稽查管計畫 防制費催繳稽查管計畫 防制費催繳稽查管計畫 ”,期末報告, , 期末報告, 期末報告桃園市,(201 (201 4)。
(9) 桃園縣政府環境保護局 桃園縣政府環境保護局 桃園縣政府環境保護局 桃園縣政府環境保護局 ,“10 3年固定污染 源許可制度及空氣年固定污染 源許可制度及空氣年固定污染 源許可制度及空氣年固定污染 源許可制度及空氣年固定污染 源許可制度及空氣年固定污染 源許可制度及空氣防制費催繳稽查管計畫 防制費催繳稽查管計畫 防制費催繳稽查管計畫 防制費催繳稽查管計畫 ”,期末報告, , 期末報告, 期末報告桃園市,(201 (201 5)。
(10) 經濟部能源局,“能源統計手冊”,台北市,(2013)。
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(11) 經濟部工業局,“鍋爐系統能源查核及節約能源案例手冊”,台北市,(2005) 。
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(13) 台灣電力公司,“煤炭簡介”,資訊揭露-燃煤採購,(2014)。
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(16) 古秀烽,“工業鍋爐SOX排放量預估模式及其污染防制設備成本效益評估研究”,元智大學機械工程研究所碩士論文,桃園市,(2001)。
(17) 吳春滿,“氮氧化物吸收系統洗滌液成份分析”,淡江大學水資源及環境工程研究碩士論文,新北市,(2004)。
(18) 黃冠穎,“燃煤鍋爐排放原生性微粒特徵研究”,國立高雄第一科技大學環境與安全衛生工程系碩士論文,高雄市,(2005)。
(19) 鄭欣怡,“燃料含硫份與燃燒後主要空氣污染物及二氧化碳排放特性研究”,大葉大學環境工程研究所碩士論文,彰化縣,(2008)。
(20) 鄭志文,“流體化床燃煤鍋爐空氣污染物及二氧化碳排放特性研
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究”,國立中央大學環境工程研究所碩士論文,桃園市,(2009)。
(21) 鐘嘉祺,“燃煤固定污染源排放空氣污染物及其防制設備操作技術之比較-以桃園縣為例”,國立中央大學環境工程研究所碩士論文,桃園市,(2010)。
(22) Departments of The ARMY and The AIR FORCE, “ Air Pollution Control System for Boiler and Incinerators”, ARMY TM 5-815-1、AIR FORCE AFR 19-6, (1988).
(23) S.C.Hill and L.D.Smoot, “Modeling of Nitrogen Oxides Formation and Destruction in Combustion Systems”, Progress in Energy and Combustion Science.26, 417-458, (2000).
指導教授 蕭大智(Ta-Chin Hsiao) 審核日期 2016-7-29
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