標題: | 單噴流及雙噴流於稀薄氣體流場之模擬 Simulation of the Structure of Single- and Twin- jet Under Rarefied Conditions |
作者: | 周欣芸 Shin -Yun Chou 吳宗信 Dr. Jong-Shinn Wu 機械工程學系 |
關鍵字: | 稀薄氣體;噴流;rarefied gas;supersonic jet |
公開日期: | 2002 |
摘要: | 利用三維非結構性調適網格、平行化之直接蒙地卡羅法進行單噴流及雙噴留再稀薄氣體流場模擬。在不同的 Knudsen number 及不同壓力比下觀察噴流的結構變化的超音速噴流流場之模擬。分別計算一個及二個噴口,將氬氣噴向低壓環境的模擬。利用流續流體的假設計算出喉管口的出口流場,並帶入直接蒙地卡羅法來模擬。在這個模擬中,上游的停滯壓力跟下游腔體的壓力比值自50變化至真空。以喉管為基礎的Knudsen number 範圍為0.001~0.1,其流場特徵為近流續流到過渡流。結果顯示流場Knudsen number為0.001時可以清楚的描述出barrel shock及Mach disk shock,隨著Knudsen number的增加而消失而成為可壓縮的膨脹流。而隨著壓力比的增加,Mach disk shock 的位置也向下游推移。 Supersonic jets issuing from a sonic orifice over a wide range of the stagnation knudsen numbers,from a continuum to a near free molecular condition,and over a wide range of the pressure ratio are simulated by the DSMC method. single and twin jets of argon gas from the orifice(s) into a lower-pressure chamber are considered, in order to minimize the computational time and reduce CPU load. An adaptive mesh-embedding (h-refinement) scheme using unstructured grid and variable time step scheme in three-dimensional Direct Simulation Monte Carlo method is used. The result reproduces very well the jet structure including the Mach disk and the barrel shock for a near continuum flow condition as well as the jets in the transition regime. |
URI: | http://140.113.39.130/cdrfb3/record/nctu/#NT910489107 http://hdl.handle.net/11536/70865 |
Appears in Collections: | Thesis |