长江科学院院报
長江科學院院報
장강과학원원보
JOURNAL OF YANGTZE RIVER SCIENTIFIC RESEARCH INSTITUTE
2015年
8期
126-130
,共5页
朱优平%李同春%冯树荣%石青春%苏军安
硃優平%李同春%馮樹榮%石青春%囌軍安
주우평%리동춘%풍수영%석청춘%소군안
大体积混凝土%温控措施%数学模型%遗传算法%冷却水管
大體積混凝土%溫控措施%數學模型%遺傳算法%冷卻水管
대체적혼응토%온공조시%수학모형%유전산법%냉각수관
mass concrete%temperature control measure%mathematical model%genetic algorithm%water-cooling pipe
在满足工程要求的前提下,优选温控参数,可以大幅度提高工程效益,节约社会资源,但是目前没有通用性强的大体积混凝土温控参数优选数学模型,温控参数还只能凭经验设计选取,以致温控方案的选取并非是相对造价最低的最优方案,因而不利于控制工程建设成本。鉴于此,对大体积混凝土温控参数优选数学模型进行研究,首次推导出了考虑水管间距、冷却水温沿程变化和流量等影响的无热源和有热源混凝土平均温度计算公式,进而提出了以大体积混凝土温控措施总费用为目标函数,以破坏强度准则为约束方程的温控参数优选数学模型,并编制了求解该模型的遗传算法程序。实例计算表明:该模型简捷、高效,计算结果合理,可为工程的温控设计提供参考。同时,模型的通用性和实用性都较强,便于在工程中运用。
在滿足工程要求的前提下,優選溫控參數,可以大幅度提高工程效益,節約社會資源,但是目前沒有通用性彊的大體積混凝土溫控參數優選數學模型,溫控參數還隻能憑經驗設計選取,以緻溫控方案的選取併非是相對造價最低的最優方案,因而不利于控製工程建設成本。鑒于此,對大體積混凝土溫控參數優選數學模型進行研究,首次推導齣瞭攷慮水管間距、冷卻水溫沿程變化和流量等影響的無熱源和有熱源混凝土平均溫度計算公式,進而提齣瞭以大體積混凝土溫控措施總費用為目標函數,以破壞彊度準則為約束方程的溫控參數優選數學模型,併編製瞭求解該模型的遺傳算法程序。實例計算錶明:該模型簡捷、高效,計算結果閤理,可為工程的溫控設計提供參攷。同時,模型的通用性和實用性都較彊,便于在工程中運用。
재만족공정요구적전제하,우선온공삼수,가이대폭도제고공정효익,절약사회자원,단시목전몰유통용성강적대체적혼응토온공삼수우선수학모형,온공삼수환지능빙경험설계선취,이치온공방안적선취병비시상대조개최저적최우방안,인이불리우공제공정건설성본。감우차,대대체적혼응토온공삼수우선수학모형진행연구,수차추도출료고필수관간거、냉각수온연정변화화류량등영향적무열원화유열원혼응토평균온도계산공식,진이제출료이대체적혼응토온공조시총비용위목표함수,이파배강도준칙위약속방정적온공삼수우선수학모형,병편제료구해해모형적유전산법정서。실례계산표명:해모형간첩、고효,계산결과합리,가위공정적온공설계제공삼고。동시,모형적통용성화실용성도교강,편우재공정중운용。
2.College of Water Conservancy and Hydropower Engineering,Hohai University,Nanjing 21 0098,China) Optimizing temperature control measures under the premise of meeting engineering requirements could improve project efficiency and save social resource.But currently a versatile mathematical model of parameter opti-mization for the temperature control of mass concrete is in lack,and as a result,the temperature control parameters can only be selected according to experience,which is unfavorable to control the construction cost.In view of this, formulas of mass concrete’s average temperature in the presence and in the absence of heat source were respectively deduced considering the effects of cooling pipe distance,variation of water temperature along the pipe,and flow rate.Furthermore,a mathematical model was built and genetic algorithm to solve the model was presented.The model takes the total cost of temperature control measures as objective function and the strength failure criterion as constraint equation.Calculation examples prove that the model is simple,efficient and reasonable.Moreover,it is versatile and feasible to be applied to engineering practice.