掃一掃
關注中圖網(wǎng)
官方微博
本類五星書更多>
-
>
公路車寶典(ZINN的公路車維修與保養(yǎng)秘籍)
-
>
晶體管電路設計(下)
-
>
基于個性化設計策略的智能交通系統(tǒng)關鍵技術
-
>
花樣百出:貴州少數(shù)民族圖案填色
-
>
山東教育出版社有限公司技術轉移與技術創(chuàng)新歷史叢書中國高等技術教育的蘇化(1949—1961)以北京地區(qū)為中心
-
>
鐵路機車概要.交流傳動內(nèi)燃.電力機車
-
>
利維坦的道德困境:早期現(xiàn)代政治哲學的問題與脈絡
集中供熱系統(tǒng)低碳清潔化演進技術研究 版權信息
- ISBN:9787121448201
- 條形碼:9787121448201 ; 978-7-121-44820-1
- 裝幀:平塑
- 冊數(shù):暫無
- 重量:暫無
- 所屬分類:>
集中供熱系統(tǒng)低碳清潔化演進技術研究 本書特色
本書基于既有供熱系統(tǒng)的技術現(xiàn)狀和“雙碳”目標的要求,提出了逐步實現(xiàn)多能互補低溫區(qū)域供熱系統(tǒng)終極目標的技術路線、技術措施、優(yōu)化設計方法。
集中供熱系統(tǒng)低碳清潔化演進技術研究 內(nèi)容簡介
本書聚焦既有城市供熱系統(tǒng)低碳清潔化演進技術研究,包括:室內(nèi)供熱系統(tǒng)分階段降低運行參數(shù),城市可再生能源多能互補低溫區(qū)域供熱系統(tǒng)及其熱源;基于既有供熱系統(tǒng)的低碳清潔化能源站設備的優(yōu)化配置;基于既有區(qū)域能源系統(tǒng)的低碳清潔化熱源的優(yōu)化配置;建立了熱電協(xié)同調度的優(yōu)化模型等,為區(qū)域供熱系統(tǒng)熱電一體化調度提供了算法。本書為第四代區(qū)域供熱系統(tǒng)奠定了基礎。 本書可供城市供熱、供電、可再生能源等專業(yè)的工程技術人員使用,也可作為高等學校師生的參考資料。
集中供熱系統(tǒng)低碳清潔化演進技術研究 目錄
目錄
第1 章 緒論 ······································································.001
1.1 背景和意義 ····························································.002
1.1.1 碳達峰與碳中和 ··············································.002
1.1.2 風電發(fā)展與棄風 ··············································.002
1.1.3 清潔供熱目標 ·················································.005
1.2 供熱技術的現(xiàn)狀與問題 ·············································.007
1.2.1 現(xiàn)行規(guī)范 ·······················································.007
1.2.2 高溫熱媒與低品位可再生能源 ···························.008
1.2.3 熱力站間接連接 ··············································.010
1.2.4 要求熱泵出水溫度高 ········································.010
1.2.5 無補償冷安裝難以真正實現(xiàn) ······························.011
1.3 推進低碳清潔供熱技術的途徑 ····································.011
1.4 研究現(xiàn)狀與分析 ······················································.014
第2 章 既有散熱器低溫運行存在的問題及解決方法 ··················.017
2.1 低溫運行存在的問題 ················································.022
2.1.1 散熱器面積的變化 ···········································.022
2.1.2 室內(nèi)溫度的變化 ··············································.028
2.2 低溫散熱器的應用 ···················································.033
2.3 室內(nèi)混合供熱系統(tǒng)的應用 ··········································.035
2.3.1 散熱器和地板輻射串聯(lián)系統(tǒng) ······························.035
2.3.2 散熱器和毛細管串聯(lián)系統(tǒng) ·································.037
2.3.3 散熱器和谷電協(xié)調供熱·····································.037
第3 章 既有供熱系統(tǒng)轉化為多能互補低溫區(qū)域供熱系統(tǒng) ············.039
3.1 單管區(qū)域供熱系統(tǒng) ···················································.042
3.1.1 單管系統(tǒng)的循環(huán)泵 ···········································.047
3.1.2 熱量分配 ·······················································.048
3.1.3 用戶供回水溫度 ··············································.048
3.1.4 單管系統(tǒng)的主要特點 ········································.049
3.2 雙管區(qū)域供熱系統(tǒng) ···················································.050
3.3 三管區(qū)域供熱系統(tǒng) ···················································.052
第4 章 多能互補低溫區(qū)域供熱系統(tǒng)熱源 ·································.055
4.1 基本熱源 ·······························································.056
4.1.1 區(qū)域性熱力站 ·················································.056
4.1.2 低溫核供熱堆 ·················································.056
4.1.3 垃圾焚燒鍋爐 ·················································.059
4.1.4 熱電廠 ··························································.059
4.2 集中調峰熱源 ·························································.060
4.2.1 生物質鍋爐 ····················································.060
4.2.2 中深層地熱能 ·················································.061
4.3 能源站 ··································································.062
4.3.1 布置在單管系統(tǒng)的雙向能源站 ···························.063
4.3.2 布置在雙管系統(tǒng)的雙向能源站 ···························.067
4.3.3 布置在三管系統(tǒng)的雙向能源站 ···························.071
第5 章 既有供熱系統(tǒng)建設能源站設備的優(yōu)化方法 ·····················.075
5.1 新建能源站系統(tǒng)配置 ················································.076
5.2 清潔供熱系統(tǒng)的運行優(yōu)化 ··········································.077
5.2.1 運行優(yōu)化的目標函數(shù) ········································.077
5.2.2 運行優(yōu)化的約束條件 ········································.079
5.2.3 決策變量 ·······················································.082
5.3 能源站設備容量優(yōu)化 ················································.082
5.3.1 設備容量優(yōu)化目標函數(shù)·····································.082
5.3.2 設備容量優(yōu)化的約束條件 ·································.084
5.3.3 設備容量優(yōu)化的計算流程 ·································.085
5.4 能源站設備容量優(yōu)化案例及討論 ·································.085
5.4.1 綜合計算條件 ·················································.086
5.4.2 遺傳算法和模式搜索及其解 ························.088
5.4.3 熱源各機組運行工況的對比分析 ························.090
5.4.4 分時電價和余熱量的影響 ·································.096
第6 章 既有能源系統(tǒng)配置低碳清潔熱源的優(yōu)化方法 ··················.099
6.1 低碳清潔熱源 ·························································.100
6.2 低碳清潔熱源裝機容量的優(yōu)化模型 ······························.101
6.2.1 設備容量優(yōu)化目標函數(shù)與約束條件 ·····················.101
6.2.2 區(qū)域能源系統(tǒng)機組的能耗計算 ···························.104
6.2.3 區(qū)域能源系統(tǒng)總能耗費的優(yōu)化目標函數(shù)與約束條件 .107
6.2.4 優(yōu)化計算流程 ·················································.111
6.3 低碳清潔熱源設備優(yōu)化配置案例 ·································.111
6.3.1 風電場風資源及風電功率 ·································.111
6.3.2 區(qū)域能源系統(tǒng)的電源和熱源、電負荷和熱負荷 ······.113
6.3.3 既有區(qū)域能源系統(tǒng)設備的供電、供熱及系統(tǒng)棄風 ···.115
6.3.4 配置低碳清潔熱源的區(qū)域能源系統(tǒng)的仿真計算 ····
第1 章 緒論 ······································································.001
1.1 背景和意義 ····························································.002
1.1.1 碳達峰與碳中和 ··············································.002
1.1.2 風電發(fā)展與棄風 ··············································.002
1.1.3 清潔供熱目標 ·················································.005
1.2 供熱技術的現(xiàn)狀與問題 ·············································.007
1.2.1 現(xiàn)行規(guī)范 ·······················································.007
1.2.2 高溫熱媒與低品位可再生能源 ···························.008
1.2.3 熱力站間接連接 ··············································.010
1.2.4 要求熱泵出水溫度高 ········································.010
1.2.5 無補償冷安裝難以真正實現(xiàn) ······························.011
1.3 推進低碳清潔供熱技術的途徑 ····································.011
1.4 研究現(xiàn)狀與分析 ······················································.014
第2 章 既有散熱器低溫運行存在的問題及解決方法 ··················.017
2.1 低溫運行存在的問題 ················································.022
2.1.1 散熱器面積的變化 ···········································.022
2.1.2 室內(nèi)溫度的變化 ··············································.028
2.2 低溫散熱器的應用 ···················································.033
2.3 室內(nèi)混合供熱系統(tǒng)的應用 ··········································.035
2.3.1 散熱器和地板輻射串聯(lián)系統(tǒng) ······························.035
2.3.2 散熱器和毛細管串聯(lián)系統(tǒng) ·································.037
2.3.3 散熱器和谷電協(xié)調供熱·····································.037
第3 章 既有供熱系統(tǒng)轉化為多能互補低溫區(qū)域供熱系統(tǒng) ············.039
3.1 單管區(qū)域供熱系統(tǒng) ···················································.042
3.1.1 單管系統(tǒng)的循環(huán)泵 ···········································.047
3.1.2 熱量分配 ·······················································.048
3.1.3 用戶供回水溫度 ··············································.048
3.1.4 單管系統(tǒng)的主要特點 ········································.049
3.2 雙管區(qū)域供熱系統(tǒng) ···················································.050
3.3 三管區(qū)域供熱系統(tǒng) ···················································.052
第4 章 多能互補低溫區(qū)域供熱系統(tǒng)熱源 ·································.055
4.1 基本熱源 ·······························································.056
4.1.1 區(qū)域性熱力站 ·················································.056
4.1.2 低溫核供熱堆 ·················································.056
4.1.3 垃圾焚燒鍋爐 ·················································.059
4.1.4 熱電廠 ··························································.059
4.2 集中調峰熱源 ·························································.060
4.2.1 生物質鍋爐 ····················································.060
4.2.2 中深層地熱能 ·················································.061
4.3 能源站 ··································································.062
4.3.1 布置在單管系統(tǒng)的雙向能源站 ···························.063
4.3.2 布置在雙管系統(tǒng)的雙向能源站 ···························.067
4.3.3 布置在三管系統(tǒng)的雙向能源站 ···························.071
第5 章 既有供熱系統(tǒng)建設能源站設備的優(yōu)化方法 ·····················.075
5.1 新建能源站系統(tǒng)配置 ················································.076
5.2 清潔供熱系統(tǒng)的運行優(yōu)化 ··········································.077
5.2.1 運行優(yōu)化的目標函數(shù) ········································.077
5.2.2 運行優(yōu)化的約束條件 ········································.079
5.2.3 決策變量 ·······················································.082
5.3 能源站設備容量優(yōu)化 ················································.082
5.3.1 設備容量優(yōu)化目標函數(shù)·····································.082
5.3.2 設備容量優(yōu)化的約束條件 ·································.084
5.3.3 設備容量優(yōu)化的計算流程 ·································.085
5.4 能源站設備容量優(yōu)化案例及討論 ·································.085
5.4.1 綜合計算條件 ·················································.086
5.4.2 遺傳算法和模式搜索及其解 ························.088
5.4.3 熱源各機組運行工況的對比分析 ························.090
5.4.4 分時電價和余熱量的影響 ·································.096
第6 章 既有能源系統(tǒng)配置低碳清潔熱源的優(yōu)化方法 ··················.099
6.1 低碳清潔熱源 ·························································.100
6.2 低碳清潔熱源裝機容量的優(yōu)化模型 ······························.101
6.2.1 設備容量優(yōu)化目標函數(shù)與約束條件 ·····················.101
6.2.2 區(qū)域能源系統(tǒng)機組的能耗計算 ···························.104
6.2.3 區(qū)域能源系統(tǒng)總能耗費的優(yōu)化目標函數(shù)與約束條件 .107
6.2.4 優(yōu)化計算流程 ·················································.111
6.3 低碳清潔熱源設備優(yōu)化配置案例 ·································.111
6.3.1 風電場風資源及風電功率 ·································.111
6.3.2 區(qū)域能源系統(tǒng)的電源和熱源、電負荷和熱負荷 ······.113
6.3.3 既有區(qū)域能源系統(tǒng)設備的供電、供熱及系統(tǒng)棄風 ···.115
6.3.4 配置低碳清潔熱源的區(qū)域能源系統(tǒng)的仿真計算 ····
展開全部
集中供熱系統(tǒng)低碳清潔化演進技術研究 作者簡介
王晉達,博士,2019年12月畢業(yè)于哈爾濱工業(yè)大學市政與環(huán)境工程學院供熱、供燃氣、通風及空調工程專業(yè)。就職于河北工業(yè)大學能源與環(huán)境工程學院從教。從事集中供熱系統(tǒng)機理仿真建模與優(yōu)化控制,風電消納和低碳清潔可再生能源多能互補供熱系統(tǒng)的研究。主持河北省教育廳青年基金項目融合管網(wǎng)拓撲約束可再生能源站的優(yōu)化配置與協(xié)同調控機理研究;參與了黑龍江省科技廳, 黑龍江省自然科學基金(重點項目)嚴寒地區(qū)智能集中供熱系統(tǒng)的理論與關鍵技術研究;參與了國家科技部, 國家科技支撐計劃課題消納風電的熱-電聯(lián)合優(yōu)化規(guī)劃及運行控制技術研究。 部分研究成果目前已獲得較好應用。以作者和通訊作者身份發(fā)表 10余篇相關領域學術論文。擁有相關領域發(fā)明專利6項。
書友推薦
- >
經(jīng)典常談
- >
推拿
- >
小考拉的故事-套裝共3冊
- >
名家?guī)阕x魯迅:故事新編
- >
【精裝繪本】畫給孩子的中國神話
- >
詩經(jīng)-先民的歌唱
- >
伯納黛特,你要去哪(2021新版)
- >
上帝之肋:男人的真實旅程
本類暢銷
