苏州大学学报:工科版
囌州大學學報:工科版
소주대학학보:공과판
Journal of Soochow University Engineering Science Edition (Bimonthly)
2012年
1期
71-75
,共5页
颗粒材料%陶粒%余热回收%传热系数
顆粒材料%陶粒%餘熱迴收%傳熱繫數
과립재료%도립%여열회수%전열계수
granular material%ceramsite%waste heat recovery%heat transfer coefficient
固体颗粒状的陶粒在生产过程中存在着丰富的余热资源,但回收系统中传热系数的确定比流体工质的更为复杂。基于某陶粒生产企业节能项目的研发,对颗粒材料余热回收系统中传热系数的确定进行了探讨。研究结果比较符合设计预期,对颗粒材料余热回收技术具有工程指导价值。
固體顆粒狀的陶粒在生產過程中存在著豐富的餘熱資源,但迴收繫統中傳熱繫數的確定比流體工質的更為複雜。基于某陶粒生產企業節能項目的研髮,對顆粒材料餘熱迴收繫統中傳熱繫數的確定進行瞭探討。研究結果比較符閤設計預期,對顆粒材料餘熱迴收技術具有工程指導價值。
고체과립상적도립재생산과정중존재착봉부적여열자원,단회수계통중전열계수적학정비류체공질적경위복잡。기우모도립생산기업절능항목적연발,대과립재료여열회수계통중전열계수적학정진행료탐토。연구결과비교부합설계예기,대과립재료여열회수기술구유공정지도개치。
Rich waste heat exists in the manufacturing process of solid granular ceramsite. But it is much more complex to determine heat transfer coefficient of a solid heat recovery system than liquid working medium. Combined with the research of a ceramic enterprise' s energy-saving project, studies are carried out to determine the heat trans- fer coefficient of granular material waste heat recovery system. The results roughly satisfy the anticipated design and have practical engineering value for the developing of the waste heat recovery technology of granular material.
