隨著我國經(jīng)濟(jì)的快速發(fā)展,人口的增長和城市化進(jìn)程的加快��,城市生活垃圾產(chǎn)量也在急劇增加�;同時(shí),生活垃圾的無害化處理也得到了相應(yīng)的發(fā)展�,形成了以焚燒發(fā)電為主的處理方式。隨著技術(shù)的不斷發(fā)展和行業(yè)變化���,我國生活垃圾焚燒處理裝備向著大型化����、高參數(shù)的方向邁進(jìn),同時(shí)����,對焚燒系統(tǒng)的高效、低碳��、穩(wěn)定運(yùn)行提出了更高的要求���。
我國自1987年開始從國外引進(jìn)垃圾發(fā)電技術(shù)��,深圳市首s次新建的垃圾發(fā)電廠開始營業(yè)�,自此�,國內(nèi)的垃圾焚燒發(fā)電技術(shù)后來居上,邁上了快車道�。特別是近年來,隨著我國“碳達(dá)峰-碳中和”戰(zhàn)略目標(biāo)的提出�����,垃圾焚燒發(fā)電技術(shù)發(fā)展迅猛�。垃圾焚燒發(fā)電裝機(jī)容量由2016年的549萬千瓦增至2021年的1729萬千瓦���,目前垃圾電站的裝機(jī)容量和垃圾年處理量均列世界第d一。包括水冷壁���、過熱器���、再熱器�、省煤器在內(nèi)的鍋爐四管是鍋爐組件中重要的熱量交換部件。由于城市生活垃圾中的氯��、硫�、堿金屬等是不可能消除的成分,因此在垃圾焚燒過程中�����,鍋爐四管金屬受熱面受到嚴(yán)重的高溫腐蝕難以避免����。隨著垃圾焚燒爐中蒸汽參數(shù)逐漸提高,對于鍋爐受熱面防腐的要求也愈加嚴(yán)格����。
當(dāng)管壁金屬或涂層由于腐蝕脫落或使管壁減薄到一定程度時(shí)�����,管內(nèi)的高壓水汽會(huì)沖出即出現(xiàn)高壓泄漏甚至爆管�����,迫使鍋爐非計(jì)劃停機(jī)維護(hù)�����,不僅會(huì)造成嚴(yán)重的安全隱患���,也會(huì)對發(fā)電效率以及垃圾發(fā)電經(jīng)濟(jì)性都會(huì)造成極大影響。因此�,一直以來垃圾鍋爐的高溫腐蝕防護(hù)問題,成為阻礙垃圾發(fā)電行業(yè)發(fā)展的瓶頸���,嚴(yán)重制約了我國垃圾處理環(huán)保產(chǎn)業(yè)的快速發(fā)展�,也是擺在我國垃圾焚燒發(fā)電領(lǐng)域科技人員面前亟待解決的問題���。多年來��,我國該領(lǐng)域的科技人員為此做出了艱苦的努力��,取得了不少研究成果��。本書是在吸收了近年來國內(nèi)外垃圾發(fā)電高溫防腐領(lǐng)域研究的基礎(chǔ)上�,重點(diǎn)對作者多年來的研究成果進(jìn)行了闡述,旨在為相關(guān)科技人員開發(fā)鍋爐高溫防腐新技術(shù)提供基礎(chǔ)���。
本書共分七章��,內(nèi)容主要包括垃圾電站鍋爐高溫腐蝕現(xiàn)狀與理論����、垃圾電站鍋爐防腐技術(shù)與發(fā)展���、垃圾電站鍋爐合金涂層的材料體系及特性、垃圾電站鍋爐合金涂層的高溫腐蝕特性���、垃圾電站鍋爐重熔涂層技術(shù)�����、垃圾焚燒鍋爐的防腐優(yōu)化設(shè)計(jì)及應(yīng)用等��。
龍吉生�����,男��,1966年生于江西省吉安市吉水縣��,1988年政府公派日本留學(xué)并于1994年獲工學(xué)博士學(xué)位����。在日本技術(shù)開發(fā)株式會(huì)社工作15年后,于2008年底回國創(chuàng)業(yè)�����,創(chuàng)立了上�?岛悱h(huán)境股份有限公司。現(xiàn)任上���?岛悱h(huán)境股份有限公司董事長兼首席科學(xué)家����,日本福岡大學(xué)客座教授�����,國務(wù)院政府特殊津貼獲得者,國家重點(diǎn)研發(fā)計(jì)劃首席科學(xué)家��。是上海市領(lǐng)軍人才�����,住建部科技委城市環(huán)境衛(wèi)生專委會(huì)委員�,國家發(fā)展改革委PPP專家,住建部可持續(xù)發(fā)展與資環(huán)專委會(huì)委員�,住建部可持續(xù)發(fā)展與資源環(huán)境專家委員會(huì)委員。從事固廢處理技術(shù)研發(fā)和應(yīng)用近30年����,在日期間主持了日本巖手、新瀉���、宮崎等多個(gè)垃圾焚燒項(xiàng)目,回國后主持開發(fā)了新一代爐排爐焚燒技術(shù)�,該技術(shù)與裝備在國內(nèi)占據(jù)超過1/3的市場份額。帶領(lǐng)康恒環(huán)境在全國已投資建設(shè)約70余座垃圾焚燒發(fā)電項(xiàng)目�����,處理垃圾規(guī)模約10萬噸/日。曾獲國家科學(xué)技術(shù)進(jìn)步二等獎(jiǎng)(公司)1項(xiàng)(2013)�、教j育y部科學(xué)技術(shù)進(jìn)步獎(jiǎng)一等獎(jiǎng)1項(xiàng)(2012)、華夏建設(shè)科學(xué)技術(shù)獎(jiǎng)一���、二等獎(jiǎng)各1項(xiàng)(2011����、2020)�����,曾獲日中科學(xué)技術(shù)交流協(xié)會(huì)“天田科學(xué)技術(shù)研究獎(jiǎng)”(1991)和日本廢棄物技術(shù)咨詢顧問協(xié)會(huì)“有功獎(jiǎng)”(2001)等�����。已發(fā)表學(xué)術(shù)論文40余篇���,參編著作4部�����,授權(quán)專利96項(xiàng)�����,其中發(fā)明專利15項(xiàng)��。參編《生活垃圾焚燒污染控制標(biāo)準(zhǔn)》(GB18485-2014)等標(biāo)準(zhǔn)規(guī)范6項(xiàng)�����。
序
前言
1 概述 ······························································································· 1
1.1 我國生活垃圾產(chǎn)生及處理現(xiàn)狀 ································································· 1
1.1.1 生活垃圾的產(chǎn)生及性質(zhì) ··································································· 1
1.1.2 生活垃圾的處理現(xiàn)狀 ······································································ 5
1.2 生活垃圾焚燒技術(shù)發(fā)展及難點(diǎn) ································································· 9
1.2.1 垃圾焚燒大型化及蒸汽高參數(shù)化發(fā)展 ················································· 9
1.2.2 鍋爐長周期安全穩(wěn)定運(yùn)行的需求凸顯 ················································ 15
參考文獻(xiàn) ································································································· 19
2 垃圾焚燒鍋爐高溫腐蝕現(xiàn)狀與理論 ······················································· 21
2.1 背景及意義 ························································································ 21
2.1.1 垃圾焚燒鍋爐受熱面爆管現(xiàn)狀 ························································· 21
2.1.2 垃圾焚燒鍋爐的高溫腐蝕問題 ························································· 24
2.1.3 垃圾焚燒鍋爐高溫防腐的迫切性 ······················································ 25
2.2 垃圾焚燒鍋爐高溫腐蝕類型 ·································································· 26
2.2.1 含氯氣體引起的腐蝕 ····································································· 26
2.2.2 固態(tài)堿金屬氯化物引起的腐蝕 ························································· 26
2.2.3 熔融態(tài)堿金屬氯化物引起的腐蝕 ······················································ 27
2.3 垃圾焚燒鍋爐高溫腐蝕產(chǎn)物 ·································································· 28
2.3.1 垃圾焚燒鍋爐管壁的腐蝕產(chǎn)物 ························································· 28
2.3.2 氯化腐蝕的基本過程 ····································································· 30
2.4 垃圾焚燒鍋爐高溫腐蝕機(jī)理 ·································································· 31 2.4.1 高溫腐蝕的規(guī)律 ···········································································31
2.4.2 高溫氯腐蝕微觀過程 ·····································································32
2.4.3 高溫腐蝕的影響因素 ·····································································33
2.5 高溫腐蝕速度規(guī)律 ··············································································· 36
2.5.1 腐蝕速度與管壁溫度間的關(guān)系 ·························································36
2.5.2 腐蝕速度的主要影響因素 ·······························································40
2.5.3 高溫腐蝕速率小結(jié) ········································································46
參考文獻(xiàn) ·································································································· 48
3 垃圾焚燒鍋爐防腐涂層技術(shù)與發(fā)展 ······················································ 50
3.1 垃圾焚燒鍋爐管基材 ············································································ 51
3.2 基于制備工藝的防腐涂層體系 ································································ 54
3.2.1 熱噴涂技術(shù) ·················································································55
3.2.2 堆焊技術(shù) ····················································································64
3.2.3 感應(yīng)熔焊技術(shù) ··············································································67
3.2.4 滲鋁涂層技術(shù) ··············································································70
3.2.5 納米陶瓷涂層技術(shù) ········································································72
3.2.6 激光熔覆涂層技術(shù) ········································································74
3.3 涂層材料體系設(shè)計(jì)及其協(xié)同發(fā)展 ····························································· 76
3.3.1 合金材料體系 ··············································································77
3.3.2 金屬陶瓷材料體系 ········································································77
3.3.3 涂層工藝與材料的協(xié)同發(fā)展 ····························································77
參考文獻(xiàn) ·································································································· 79
4 垃圾焚燒鍋爐防腐涂層的材料體系及特性 ············································· 85
4.1 高溫防腐合金 ····················································································· 85
4.1.1 鎳基高溫耐蝕合金 ········································································85
4.1.2 Ni
?
Cr 型耐蝕合金 ········································································88
4.1.3 Ni
?
Mo 型耐蝕合金 ······································································88
4.1.4 Ni
?
Cr
?
Mo 系耐蝕合金 ·································································89
4.2 Ni
?
Crx
?
Mo 系高溫耐蝕合金涂層 ·························································· 89
4.2.1 Ni
?
Crx
?
Mo 系高溫耐蝕合金涂層制備 ·············································89
4.2.2 Ni
?
Crx
?
Mo 系耐蝕合金涂層顯微硬度分析 ·······································91
4.2.3 Ni
?
Crx
?
Mo 系耐蝕合金涂層顯微組織分析 ·······································91
4.2.4 Ni
?
Crx
?
Mo 系高溫耐蝕合金涂層電化學(xué)測試分析 ······························98 4.3 Ni
?
Cr
?
Mox 系高溫耐蝕合金涂層 ·························································101
4.3.1 Ni
?
Cr
?
Mox 系高溫耐蝕合金涂層制備 ··········································· 101
4.3.2 Ni
?
Cr
?
Mox 系高溫耐蝕合金涂層組織 ··········································· 102
4.3.3 Ni
?
Cr
?
Mox 系高溫耐蝕合金浸泡腐蝕性能 ····································· 104
參考文獻(xiàn) ································································································ 114
5 垃圾焚燒鍋爐防腐涂層的高溫腐蝕特性 ··············································· 117
5.1 Ni
?
Cr
?
Mo 系合金涂層的高溫氯腐蝕特性 ·············································· 117
5.1.1 Ni
?
Cr
?
Mo 系合金涂層高溫腐蝕試驗(yàn)設(shè)計(jì) ······································· 117
5.1.2 高溫堿金屬氯化物熔鹽腐蝕實(shí)驗(yàn) ···················································· 118
5.1.3 TP347H 不銹鋼的高溫氯腐蝕 ······················································· 121
5.1.4 Ni
?
Cr
?
Mo 系鎳基合金的高溫氯腐蝕 ············································· 127
5.1.5 Ni
?
Cr
?
Mo 系鎳基合金涂層的高溫氯腐蝕 ······································· 132
5.1.6 Ni
?
Cr
?
Mo 系鎳基合金涂層的高溫腐蝕機(jī)理 ···································· 137
5.1.7 Ni
?
Cr
?
Mo 系合金涂層的高溫氯腐蝕特性總結(jié) ································· 140
5.2 高 Mo/W 系 Ni
?
Cr
?
Mo 合金涂層的高溫氯/硫腐蝕特性 ·····························141
5.2.1 高 Mo/W 系 Ni
?
Cr
?
Mo 合金涂層的制備 ········································ 141
5.2.2 高溫氯硫?qū)嶒?yàn)過程 ······································································ 142
5.2.3 TP347H 不銹鋼的高溫氯硫腐蝕 ····················································· 144
5.2.4 NiCr17Mo 合金涂層的高溫氯硫腐蝕特性 ········································· 150
5.2.5 NiCrMo10W 系合金涂層的高溫氯硫腐蝕特性 ··································· 156
5.2.6 高 Mo/W 系 Ni
?
Cr
?
Mo 合金涂層的高溫氯硫腐蝕機(jī)理 ······················· 162
5.2.7 高 Mo/W 系 Ni
?
Cr
?
Mo 合金涂層的高溫氯硫腐蝕特性總結(jié) ················· 166
參考文獻(xiàn) ································································································167
6 垃圾焚燒余熱鍋爐受熱面重熔涂層技術(shù)研究 ········································· 172
6.1 二次重熔技術(shù) ····················································································172
6.1.1 應(yīng)用背景 ···················································································· 172
6.1.2 國內(nèi)外研究現(xiàn)狀 ··········································································· 173
6.2 耐垃圾焚燒煙氣重熔涂層的制備工藝 ·····················································175
6.2.1 實(shí)驗(yàn)材料 ···················································································· 176
6.2.2 熱噴涂層的制備 ··········································································· 176
6.2.3 涂層的二次重熔 ··········································································· 177
6.3 重熔涂層的實(shí)驗(yàn)方法 ···········································································180
6.3.1 測試方法 ···················································································· 180 6.3.2 物相分析 ··················································································· 182
6.4 重熔涂層的顯微組織與元素分布 ··························································· 185
6.4.1 火焰噴涂 ··················································································· 185
6.4.2 火焰重熔 ··················································································· 187
6.4.3 激光重熔 ··················································································· 194
6.4.4 感應(yīng)重熔 ··················································································· 197
6.4.5 小結(jié) ························································································· 201
6.5 重熔涂層的顯微硬度 ·········································································· 202
6.5.1 火焰重熔層的顯微硬度 ································································· 202
6.5.2 激光重熔層的顯微硬度 ································································· 203
6.5.3 感應(yīng)重熔層的顯微硬度 ································································· 203
6.6 重熔涂層的高溫腐蝕特性 ···································································· 204
6.7 二次重熔工藝對比 ············································································· 210
6.8 感應(yīng)重熔涂層的工程應(yīng)用 ···································································· 212
參考文獻(xiàn) ································································································ 216
7 垃圾焚燒鍋爐的防腐優(yōu)化設(shè)計(jì)及應(yīng)用 ·················································· 219
7.1 高參數(shù)余熱鍋爐防腐設(shè)計(jì)現(xiàn)狀及趨勢 ····················································· 219
7.1.1 主蒸汽參數(shù)對防腐設(shè)計(jì)的影響 ························································ 219
7.1.2 綜合經(jīng)濟(jì)效益分析 ······································································· 226
7.2 典型垃圾焚燒鍋爐防腐工程應(yīng)用案例及分析 ············································ 228
7.2.1 我國南部某垃圾焚燒發(fā)電項(xiàng)目 ························································ 228
7.2.2 我國北部某垃圾焚燒發(fā)電項(xiàng)目 ························································ 257
參考文獻(xiàn) ································································································ 273
后記 ································································································· 276
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