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中國(guó)給水排水2024年城鎮(zhèn)污泥處理處置技術(shù)與應(yīng)用高級(jí)研討會(huì)（第十五屆）邀請(qǐng)函（同期召開(kāi)固廢滲濾液大會(huì)、工業(yè)污泥大會(huì)、高濃度難降解工業(yè)廢水處理大會(huì)）

水熱碳化技術(shù)用于污泥處理處置前景分析摘要:由于土地利用受阻、填埋空間有限以及二次污染等問(wèn)題，污泥處理處置主流技術(shù)路線在國(guó)內(nèi)面臨困境，所以亟需從科學(xué)方法角度分析其可行路徑。根據(jù)污泥處置途徑對(duì)含水

核心提示：首頁(yè) 期刊介紹編委會(huì) 投稿須知文章查詢學(xué)術(shù)會(huì)議廣告合作發(fā)行訂閱在線留言 English 上一篇下一篇 PDF下載 [1]許勁,徐軍,呂秋穎,等.水熱碳化技術(shù)用于污泥處理處置前景分析[J].中國(guó)給水排水,2020,36(16):54-59. 　XU Jin,XU Jun,LQiu-ying,et al.Perspectives on Hydrothermal Carbonization Technology for Municipal Sludge Treat

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[1]許勁,徐軍,呂秋穎,等.水熱碳化技術(shù)用于污泥處理處置前景分析[J].中國(guó)給水排水,2020,36(16):54-59.

　XU Jin,XU Jun,LQiu-ying,et al.Perspectives on Hydrothermal Carbonization Technology for Municipal Sludge Treatment and Disposal[J].China Water & Wastewater,2020,36(16):54-59.點(diǎn)擊復(fù)制

水熱碳化技術(shù)用于污泥處理處置前景分析

中國(guó)給水排水[ISSN:1000-4062/CN:12-1073/TU] 卷: 第36卷期數(shù): 2020年第16期頁(yè)碼: 54-59 欄目: 出版日期: 2020-08-17

Title:Perspectives on Hydrothermal Carbonization Technology for Municipal Sludge Treatment and Disposal

作者:許勁1,2,徐軍1,2,呂秋穎1,2,范準(zhǔn)1,2,唐琦1,2,李楊1,2,方俊華1,2(1.重慶大學(xué)環(huán)境與生態(tài)學(xué)院，重慶400045；2.重慶大學(xué)三峽庫(kù)區(qū)生態(tài)環(huán)境教育部重點(diǎn)實(shí)驗(yàn)室，重慶400045)

Author(s):XU Jin1,2,XU Jun1,2,LQiu-ying1,2,FAN Zhun1,2,TANG Qi1,2,LI Yang1,2,FANG Jun-hua1,2(1. School of Environment and Ecology, Chongqing University, Chongqing 400045, China; 2. Key Laboratory of the Three Gorges Reservoir Region’s Ecological Environment＜Ministry of Education＞, Chongqing University, Chongqing 400045, China)

關(guān)鍵詞:水熱碳化; 污泥處理處置; 生物質(zhì)轉(zhuǎn)化技術(shù); 污泥基水熱生物炭

Keywords:hydrothermal carbonization; municipal sludge treatment and disposal; biomass conversion technology; sludge-based hydrothermal biochar

摘要:由于土地利用受阻、填埋空間有限以及二次污染等問(wèn)題，污泥處理處置主流技術(shù)路線在國(guó)內(nèi)面臨困境，所以亟需從科學(xué)方法角度分析其可行路徑。根據(jù)污泥處置途徑對(duì)含水率的要求，建議當(dāng)污泥水分存在時(shí)先去除或轉(zhuǎn)化有機(jī)物；同時(shí)從生物質(zhì)轉(zhuǎn)化技術(shù)角度進(jìn)行了可行性分析，其中水熱碳化技術(shù)具有處理對(duì)象無(wú)需干燥、易與其他廢棄生物質(zhì)及技術(shù)組合、產(chǎn)物無(wú)菌、磷回收率高等優(yōu)勢(shì)。污泥基水熱生物炭有固-固轉(zhuǎn)化和液相晶核轉(zhuǎn)化兩條形成途徑，其熱值與煤相當(dāng)，脫水性能良好、磷富集回收率高、可固定重金屬，其碳骨架作為氮磷緩釋載體可增加土壤肥力，而且與無(wú)機(jī)肥減量配施兼具農(nóng)業(yè)經(jīng)濟(jì)價(jià)值和環(huán)境生態(tài)效益。污泥水熱碳化處理可實(shí)現(xiàn)污泥減量化、穩(wěn)定化、無(wú)害化和資源化，推薦污泥處理處置方案為重力濃縮/機(jī)械脫水+水熱碳化，該工藝適用于原位與分散處理，同時(shí)建議采用低溫（150~170 ℃）水熱碳化以避免高溫下污泥發(fā)生美拉德反應(yīng)生成溶解性難降解有機(jī)物，其液體產(chǎn)物可作為有效碳源補(bǔ)充到低碳源污水廠進(jìn)水。

Abstract:Due to hindered agriculture use and limited space for landfill as well as secondary pollution, the mainstream technology route of municipal sludge treatment and disposal is facing difficulties in China. So it is urgent to analyze its feasible path from scientific approaches. According to requirements of moisture content in sludge disposal process, it is suggested to remove or transform organic matter when sludge moisture exists. Meanwhile, the feasibility analysis is carried out from the point of view of biomass conversion technology. Among them, hydrothermal carbonization (HTC) technology has the advantages of treating object without drying, easy to combine with other waste biomass and technology, sterile product and high recovery rate of phosphorus. Sludge-based hydrothermal biochar has two formation pathways, which are solid-solid and liquid phase nucleation transformations. It has the same calorific value as coal, good dehydration performance, high phosphorus enrichment recovery rate, and could fix heavy metals. Its carbon backbone could be used as a slow-release carrier of nitrogen and phosphorus so as to increase soil fertility. Moreover, the biochar with inorganic fertilizer reduction and application has both functions of agricultural economic value and environmental ecological benefits. Sludge HTC treatment could realize sludge reduction, stabilization, harmlessness and resource recovery. As a result, the process of gravity concentration/mechanical dehydration+HTC was taken as the recommended sludge treatment and disposal scheme, which was suitable for in situ and decentralized processing. In addition, low temperature (150-170 ℃) in HTC was suggested to prevent soluble refractory organics generating from Maillard reaction during high temperature, consequently, the liquid product could be used as an effective carbon source to supplement the low-carbon WWTP.

相似文獻(xiàn)/References:

[1]郭恰.IPCC污泥碳排放核算模型中DOC取值的不足與修正[J].中國(guó)給水排水,2020,36(16):49.

　GUO Qia.Lack and Correction of DOC Value in IPCC Calculation Model of Sludge Carbon Emission[J].China Water & Wastewater,2020,36(16):49.

[2]李爾,曾祥英.武漢市主城區(qū)污水廠污泥處理處置現(xiàn)狀及展望[J].中國(guó)給水排水,2021,37(18):8.

　LI Er,ZENG Xiang-ying.Current Situation and Prospect of Sludge Treatment and Disposal of WWTPs in the Main Urban Area of Wuhan[J].China Water & Wastewater,2021,37(16):8.

[3]宋曉雅.集中式污泥處理中心的建設(shè)與思考[J].中國(guó)給水排水,2021,37(20):22.

　SONG Xiao-ya.Construction and Thinking of Centralized Sludge Treatment Center[J].China Water & Wastewater,2021,37(16):22.

[4]李雪怡,梁遠(yuǎn),方小鋒,等.北京市污泥處理處置現(xiàn)狀總結(jié)分析[J].中國(guó)給水排水,2021,37(22):38.

　LI Xue-yi,LIANG Yuan,FANG Xiao-feng,et al.Summarization and Analysis of Sludge Treatment and Disposal in Beijing[J].China Water & Wastewater,2021,37(16):38.

[5]許謙,蔣才芳,何志健,等.南寧市污泥處理處置工藝分析及展望[J].中國(guó)給水排水,2023,39(10):31.

　XUQian,JIANGCai-fang,HEZhi-jian,et al.Analysis and Prospect of Urban Sludge Treatment and Disposal Process in Nanning City[J].China Water & Wastewater,2023,39(16):31.

更新日期/Last Update: 2020-08-17

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論文發(fā)表投稿郵箱：cnwater@vip.163.com

PDF下載

[1]許勁,徐軍,呂秋穎,等.水熱碳化技術(shù)用于污泥處理處置前景分析[J].中國(guó)給水排水,2020,36(16):54-59.
　XU Jin,XU Jun,LQiu-ying,et al.Perspectives on Hydrothermal Carbonization Technology for Municipal Sludge Treatment and Disposal[J].China Water & Wastewater,2020,36(16):54-59.

點(diǎn)擊復(fù)制

水熱碳化技術(shù)用于污泥處理處置前景分析

中國(guó)給水排水[ISSN:1000-4062/CN:12-1073/TU] 卷: 第36卷期數(shù): 2020年第16期頁(yè)碼: 54-59 欄目: 出版日期: 2020-08-17

Title:: Perspectives on Hydrothermal Carbonization Technology for Municipal Sludge Treatment and Disposal

作者:: 許勁^1,2,徐軍^1,2,呂秋穎^1,2,范準(zhǔn)^1,2,唐琦^1,2,李楊^1,2,方俊華^1,2; (1.重慶大學(xué)環(huán)境與生態(tài)學(xué)院，重慶400045；2.重慶大學(xué)三峽庫(kù)區(qū)生態(tài)環(huán)境教育部重點(diǎn)實(shí)驗(yàn)室，重慶400045)

Author(s):: XU Jin^1,2,XU Jun^1,2,LQiu-ying^1,2,FAN Zhun^1,2,TANG Qi^1,2,LI Yang^1,2,FANG Jun-hua^1,2; (1. School of Environment and Ecology, Chongqing University, Chongqing 400045, China; 2. Key Laboratory of the Three Gorges Reservoir Region’s Ecological Environment＜Ministry of Education＞, Chongqing University, Chongqing 400045, China)

關(guān)鍵詞:: 水熱碳化; 污泥處理處置; 生物質(zhì)轉(zhuǎn)化技術(shù); 污泥基水熱生物炭

Keywords:: hydrothermal carbonization; municipal sludge treatment and disposal; biomass conversion technology; sludge-based hydrothermal biochar

摘要:: 由于土地利用受阻、填埋空間有限以及二次污染等問(wèn)題，污泥處理處置主流技術(shù)路線在國(guó)內(nèi)面臨困境，所以亟需從科學(xué)方法角度分析其可行路徑。根據(jù)污泥處置途徑對(duì)含水率的要求，建議當(dāng)污泥水分存在時(shí)先去除或轉(zhuǎn)化有機(jī)物；同時(shí)從生物質(zhì)轉(zhuǎn)化技術(shù)角度進(jìn)行了可行性分析，其中水熱碳化技術(shù)具有處理對(duì)象無(wú)需干燥、易與其他廢棄生物質(zhì)及技術(shù)組合、產(chǎn)物無(wú)菌、磷回收率高等優(yōu)勢(shì)。污泥基水熱生物炭有固-固轉(zhuǎn)化和液相晶核轉(zhuǎn)化兩條形成途徑，其熱值與煤相當(dāng)，脫水性能良好、磷富集回收率高、可固定重金屬，其碳骨架作為氮磷緩釋載體可增加土壤肥力，而且與無(wú)機(jī)肥減量配施兼具農(nóng)業(yè)經(jīng)濟(jì)價(jià)值和環(huán)境生態(tài)效益。污泥水熱碳化處理可實(shí)現(xiàn)污泥減量化、穩(wěn)定化、無(wú)害化和資源化，推薦污泥處理處置方案為重力濃縮/機(jī)械脫水+水熱碳化，該工藝適用于原位與分散處理，同時(shí)建議采用低溫（150~170 ℃）水熱碳化以避免高溫下污泥發(fā)生美拉德反應(yīng)生成溶解性難降解有機(jī)物，其液體產(chǎn)物可作為有效碳源補(bǔ)充到低碳源污水廠進(jìn)水。

Abstract:: Due to hindered agriculture use and limited space for landfill as well as secondary pollution, the mainstream technology route of municipal sludge treatment and disposal is facing difficulties in China. So it is urgent to analyze its feasible path from scientific approaches. According to requirements of moisture content in sludge disposal process, it is suggested to remove or transform organic matter when sludge moisture exists. Meanwhile, the feasibility analysis is carried out from the point of view of biomass conversion technology. Among them, hydrothermal carbonization (HTC) technology has the advantages of treating object without drying, easy to combine with other waste biomass and technology, sterile product and high recovery rate of phosphorus. Sludge-based hydrothermal biochar has two formation pathways, which are solid-solid and liquid phase nucleation transformations. It has the same calorific value as coal, good dehydration performance, high phosphorus enrichment recovery rate, and could fix heavy metals. Its carbon backbone could be used as a slow-release carrier of nitrogen and phosphorus so as to increase soil fertility. Moreover, the biochar with inorganic fertilizer reduction and application has both functions of agricultural economic value and environmental ecological benefits. Sludge HTC treatment could realize sludge reduction, stabilization, harmlessness and resource recovery. As a result, the process of gravity concentration/mechanical dehydration+HTC was taken as the recommended sludge treatment and disposal scheme, which was suitable for in situ and decentralized processing. In addition, low temperature (150-170 ℃) in HTC was suggested to prevent soluble refractory organics generating from Maillard reaction during high temperature, consequently, the liquid product could be used as an effective carbon source to supplement the low-carbon WWTP.

相似文獻(xiàn)/References:

[1]郭恰.IPCC污泥碳排放核算模型中DOC取值的不足與修正[J].中國(guó)給水排水,2020,36(16):49.
GUO Qia.Lack and Correction of DOC Value in IPCC Calculation Model of Sludge Carbon Emission[J].China Water & Wastewater,2020,36(16):49.
[2]李爾,曾祥英.武漢市主城區(qū)污水廠污泥處理處置現(xiàn)狀及展望[J].中國(guó)給水排水,2021,37(18):8.
LI Er,ZENG Xiang-ying.Current Situation and Prospect of Sludge Treatment and Disposal of WWTPs in the Main Urban Area of Wuhan[J].China Water & Wastewater,2021,37(16):8.
[3]宋曉雅.集中式污泥處理中心的建設(shè)與思考[J].中國(guó)給水排水,2021,37(20):22.
SONG Xiao-ya.Construction and Thinking of Centralized Sludge Treatment Center[J].China Water & Wastewater,2021,37(16):22.
[4]李雪怡,梁遠(yuǎn),方小鋒,等.北京市污泥處理處置現(xiàn)狀總結(jié)分析[J].中國(guó)給水排水,2021,37(22):38.
LI Xue-yi,LIANG Yuan,FANG Xiao-feng,et al.Summarization and Analysis of Sludge Treatment and Disposal in Beijing[J].China Water & Wastewater,2021,37(16):38.
[5]許謙,蔣才芳,何志健,等.南寧市污泥處理處置工藝分析及展望[J].中國(guó)給水排水,2023,39(10):31.
XUQian,JIANGCai-fang,HEZhi-jian,et al.Analysis and Prospect of Urban Sludge Treatment and Disposal Process in Nanning City[J].China Water & Wastewater,2023,39(16):31.

更新日期/Last Update: 2020-08-17

論文發(fā)表投稿郵箱：cnwater@vip.163.com

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