Air purification technologies by temperature swing adsorptio
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物品所在地:中國大陸
原出版社:冶金工業
物品所在地:中國大陸
原出版社:冶金工業
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| *完成訂單後正常情形下約兩周可抵台。 *本賣場提供之資訊僅供參考,以到貨標的為正確資訊。 印行年月:202403*若逾兩年請先於私訊洽詢存貨情況,謝謝。 台灣(台北市)在地出版社,每筆交易均開具統一發票,祝您中獎最高1000萬元。 書名:Air purification technologies by temperature swing adsorption ISBN:9787502497842 出版社:冶金工業 著編譯者:Zhang Peikun(著) 頁數:182 所在地:中國大陸 *此為代購商品 書號:1647195 可大量預訂,請先連絡。 【台灣高等教育出版社簡體書】 Air purification technologies by temperature swing adsorption 787502497842 Zhang Peikun(著) 內容簡介 本書旨在從材料、裝置、系統及應用四個方面全面闡述變溫吸附法知識,本書既介紹了吸附劑材料、氣固吸附理論以及吸附等溫線等基礎理論知識,又介紹了吸附器結構、加熱方法、流程組織等密切聯繫工程實際的知識,有利於增強讀者理論聯繫實際、分析和解決實際問題的能力。本書可作為化學工程、熱能工程、環境工程等專業技術人員和工人的培訓教材,也可供高等院校有關專業的師生參考。作者簡介 張培昆,北京科技大學副教授,碩士生導師,英國伯明翰大學訪問學者。2011年畢業於北京科技大學,獲博士學位。主要研究領域為能量的轉換與高效利用,長期從事空氣低溫分離新工藝、吸附過程動力學與新型吸附循環、儲能與節能新技術、低品位餘熱發電新循環、能源系統優化等方面研究與產業化工作。先後主持完成國家自然科學青年基金、國家重點研發計劃子課題、教育部博士點基金等國家級和省部級項目;參編出版四部著作,發表論文20餘篇,申請/授權國家發明專利20餘項;獲教育部高等學校科技進步獎二等獎。目錄 Chapter 1 Adsorbent Materials1 1 Common adsorbent types 1 1 1 Silica gel 1 1 2 Zeolite molecular sieve 1 1 3 Activated alumina 1 2 Equilibrium adsorption capacity 1 3 Adsorption isotherm models 1 3 1 Type I isotherm equations 1 3 2 Type Ⅱisotherm equations References Chapter 2 Extended Langmuir Model for Predicting Multilayer Adsorption 2 1 Model development 2 2 Example analysis 2 2 1 Example 1:water vapor adsorption on activated alumina 2 2 2 Example 2:water vapor adsorption on zeolite 13x 2 3 Conclusions Nomenclature References Chapter 3 Principle and Numerical Simulation of Temperature Swing Adsorption Air Pre-purification Units 3 1 The principle of air pre-purification units 3 1 1 Adsorbers 3 1 2 The switching cycle 3 1 3 Heating method 3 2 Numerical simulation of air pre-purification process 3 2 1 Physical model 3 2 2 Conservation equations 3 2 3 Mass transfer calculations 3 2 4 Heat transfer calculations 3 2 5 Isotherm equation selection 3 2 6 Adsorption equilibrium data correlation 3 2 7 Initial conditions,boundary conditions 3 2 8 Cyclic steady-state conditions 3 2 9 Numerical method 3 3 Case study 3 3 1 Case introduction 3 3 2 Results and discussions Nomenclature References Chapter 4 Operating Strategies of Temperature Swing Adsorption Air Pre-purification Units 4 1 Operation strategies of air pre-purification units for safe production 4 1 1 Analysis of the reasons for CO? exceeding the standard 4 1 2 Adsorbent bed filling and its effect on purification performance 4 2 Operation strategies of air pre-purification units for varying conditions 4 2 1 Analysis of the impact of adsorption inlet gas parameters 4 2 2 Analysis of the effects of regeneration inlet parameters 4 3 Potential multi-adsorber process organization for air pre-purification units References Chapter 5 Three-bed Temperature Swing Adsorption Process for Air Pre-purification 5 1 Process description 5 1 1 The two-bed TSA-APU and its energy-saving potential 5 1 2 The three-bed TSA-APU 5 2 Simulation conditions 5 3 Energy saving effect 5 4 Product air quality 5 5 Bed profiles during regeneration 5 6 Bed profiles during adsorption 5 7 Conclusions Nomenclature References Chapter 6 Comparisons of the Adsorbent Beds Regenerated by the Clean and Used Purge Gas Heating 6 1 Experiment 6 1 1 Experimental setup 6 1 2 TSA Experiment with the conventional regeneration 6 1 3 TSA Experiment with regeneration by a used purge gas heating 6 2 Simulation 6 3 Comparisons of the adsorption and thermal regeneration characteristics between the beds with the conventional regeneration 6 4 Comparisons of the adsorption and regeneration characteristics between the conventional regeneration and the regeneration by a used purge gas heating 6 5 Conclusions Nomenclature References Chapter 7 Energy-saving Heating System for Air Pre-purification Units 7 1 Process descriptions 7 2 Models 7 2 1 The compressor model 7 2 2 The expander model 7 2 3 The heat exchanger model 7 2 4 The regenerator model 7 3 Case study 7 3 1 The new heating system without a regenerator 7 3 2 The new heating system with a regenerator 7 4 Parameter analysis of the regenerator of the new heating system 7 4 1 Influence of regenerator diameter on the heat storage effect 7 4 2 Influence of bed void on the heat storage effect 7 4 3 Influence of particle bulk density on the heat storage effect 7 4 4 Influence of particle size on thermal storage effect 7 4 5 Influence of particle heat capacity on the thermal storage effect 7 5 Analysis of the heating temperature of the new heating system 7 6 Economic analysis 7 7 Concl 詳細資料或其他書籍請至台灣高等教育出版社查詢,查後請於PChome商店街私訊告知ISBN或書號,我們即儘速上架。 |
