碩士生: 古仁義
畢業年分: 2019年7月
論文名稱: 以一氧化二氮作為氧化劑的熱效應對於層流甲烷預混火焰燃燒特性之影響(中文) / Thermal effect of N2O being oxidizer on combustion characteristics of laminar premixed methane flames (英文)
中文摘要:
在本研究中,通過實驗與數值模擬的方式研究在單管噴流火焰燃燒器中的層流預混甲烷/氧化亞氮的燃燒現象與污染特性。基本上,甲烷/氧化亞氮火焰中,氧化亞氮的熱效應和化學效應占主導地位。比較CH4 / N2O火焰,與假設氧化劑N2O完全分解為33%O2和67%N2的甲烷/富氧火焰,當量比為0.8至1.2條件下,討論並比較其燃燒特性與火焰結構的差異。 在兩種氧化劑的環境條件(分別為N2O和富氧條件: 33%O2和67%N2)下檢查火焰外觀,溫度分佈和污染物排放。由於熱效應與化學效應造成在甲烷/氧化亞氮火焰中的溫度提升,以及CO、NOx濃度的增加;相反地,在富氧火焰中,這些熱效應和化學效應不會提升火焰溫度以及汙染物CO、NOx濃度。通過火焰溫度測量研究了層流預混火焰的熱效應,並通過廢氣監測系統測量污染物排放特性。在溫度量測部分,本研究是利用Mach-Zehnder干涉測量(MZI)以獲取瞬時二維的溫度分布,並使用介入式熱電耦量測火焰溫度並驗證MZI實驗結果。
英文摘要:
The purpose of this research is to study the laminar premixed methane/nitrous oxide combustion in the single tubular flame burner. Simulation of nitrous oxides flames at the high-temperature oxidation zone and the accompanied thermal and chemical effect on CH4/N2O and CH4/oxy-enrich flames were carried out. The study of CH4/N2O combustion has been compared to oxy-enrich combustion (constituting of 33%O2 and 67%N2 to simulate the full decomposition of N2O ) under the equivalence ratio between 0.8 and 1.2. The flame appearance, temperature profiles, and pollutant emission were examined under two environments: N2O as oxidant and mixture of 33%O2 and 67%N2 as oxidant. These thermal and chemical effects can induce a high-temperature zone and cause the increase in CO concentration and NOx concentration significantly in nitrous oxide flames, whereas in oxy-enrich flames these thermal and chemical effects do not exhibit high temperature and high CO and NOx concentration prominently. The thermal behavior of the laminar premixed flame was investigated by flame temperature measurement, and the pollutant emission characteristics were measured through flue gas monitoring system. The Mach-Zehnder interferometry (MZI) was implemented to acquire instantaneous 2D temperature field and validated by the experimental results of thermocouples.
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