流体传动与控制
流體傳動與控製
류체전동여공제
FLUICL POWER TRANSMISSION AND CONTROL
2015年
3期
1-6
,共6页
任飞%王存堂%谢方伟%张兵%盛刚
任飛%王存堂%謝方偉%張兵%盛剛
임비%왕존당%사방위%장병%성강
液压式风力致热系统%节流阀%致热特性%仿真
液壓式風力緻熱繫統%節流閥%緻熱特性%倣真
액압식풍력치열계통%절류벌%치열특성%방진
hydraulic wind-heating system%throttle valve%induced thermal property%simulation
建立了液压式风力致热系统物理模型和能量数学模型,以节流阀代替阻尼孔作为致热元件,通过Matlab软件计算,当该系统在薄壁小孔、短孔、细长孔三种基本形式阀口的情况下,对其不同的致热能力进行比较;从理论上分析在流量不变的条件下,节流阀阀口开度、角度、刚度等参数对致热效果的影响;同时利用Fluent仿真研究,两种方法的结果相一致。结果表明:薄壁小孔形式的阀口致热性能最佳;节流阀开度、角度变化会显著影响节流阀的致热效果以及较小刚度会更有利于保证阀口两端压差的恒定,从而保证了系统供热的稳定性。
建立瞭液壓式風力緻熱繫統物理模型和能量數學模型,以節流閥代替阻尼孔作為緻熱元件,通過Matlab軟件計算,噹該繫統在薄壁小孔、短孔、細長孔三種基本形式閥口的情況下,對其不同的緻熱能力進行比較;從理論上分析在流量不變的條件下,節流閥閥口開度、角度、剛度等參數對緻熱效果的影響;同時利用Fluent倣真研究,兩種方法的結果相一緻。結果錶明:薄壁小孔形式的閥口緻熱性能最佳;節流閥開度、角度變化會顯著影響節流閥的緻熱效果以及較小剛度會更有利于保證閥口兩耑壓差的恆定,從而保證瞭繫統供熱的穩定性。
건립료액압식풍력치열계통물리모형화능량수학모형,이절류벌대체조니공작위치열원건,통과Matlab연건계산,당해계통재박벽소공、단공、세장공삼충기본형식벌구적정황하,대기불동적치열능력진행비교;종이론상분석재류량불변적조건하,절류벌벌구개도、각도、강도등삼수대치열효과적영향;동시이용Fluent방진연구,량충방법적결과상일치。결과표명:박벽소공형식적벌구치열성능최가;절류벌개도、각도변화회현저영향절류벌적치열효과이급교소강도회경유리우보증벌구량단압차적항정,종이보증료계통공열적은정성。
This paper established a physical model and a thermal mathematical model of a kind of hydraulic wind-heating system. Replacing the orifice with throttle valve as induced thermal element, the different induced ther-mal abilities are compared when the system is in three basic forms' valve ports of thin-walled holes, short holes and tenuous holes. The induced thermal impact of throttle valve's opening degree, angle, stiffness under constant flow conditions are theoretically analyzed in this paper. Meanwhile, the simulation results based on Fluent software are consistent with that of the theoretical analysis. The results show that the valve port in the form of thin-walled holes has the best induced thermal performance. They also show that the opening degree's or angle's changes of throttle valve will significantly affect the induced thermal effects, and smaller stiffness will be more conducive to ensure a constant pressure difference across valve port keeping the stability of system heating.