معلومات البحث الكاملة في مستودع بيانات الجامعة

عنوان البحث(Papers / Research Title)


An experimental study of the effect of hydrogen blending on burning velocity of LPG at elevated pressure


الناشر \ المحرر \ الكاتب (Author / Editor / Publisher)

 
احمد شاكر يوسف الياسري

Citation Information


احمد,شاكر,يوسف,الياسري ,An experimental study of the effect of hydrogen blending on burning velocity of LPG at elevated pressure , Time 19/10/2017 14:53:08 : كلية الهندسة/المسيب

وصف الابستركت (Abstract)


An experimental study of the effect of hydrogen blending on burning velocity of LPG at elevated pressure

الوصف الكامل (Full Abstract)

An experimental study on the laminar burning velocity of the premixed liquefied petroleum gas (LPG)/hydrogen/air flames was conducted in a constant volume chamber that centrally ignited at various initial pressures (0.1e0.3 MPa) and initial temperature of (308 K). In addition, the tested equivalence ratios of range from (0.8e1.3), and the investigated blends of hydrogen were (0e80%) by volume. Experimental data of laminar burning velocity, flame thickness, stretch rate, and laminar flame speed and combustion pressure of LPG flames with various blends of H2 have been presented. The constant volume chamber has been designed and constructed specially for this study, as this method considered the most precise one to measure laminar burning velocity. A mixing chamber, ignition control, data acquisitions and high-speed Schlieren photography were used. Experimental results have been shown that the effect of hydrogen addition becomes noticeable when the hydrogen blend is larger than 60%. When hydrogen blending is 80%, adiabatic flame temperature increases about (40 K), the laminar flame speed of LPG also increases from (2.2e4.75 m/s) and laminar burning velocity from (31e59.5 cm/s). While flame thickness decreases from (0.15e0.07 mm) for stoichio- metric mixture at atmospheric pressure. Increasing initial pressure from 1 bar to 3 bar re- duces the stretched laminar flame speed of LPG-air mixture from (2.2e1.5 m/s), and laminar burning velocity also decreases from (31e20 cm/s). In contrast, combustion pressure in- creases from (5e25 bar). Equivalence ratio has a more dominating effect on adiabatic tem- perature, density ratio and flame thickness than hydrogen does. Correlations between hydrogen blend and initial pressure are derived from LPGeair mixtures.

تحميل الملف المرفق Download Attached File

تحميل الملف من سيرفر شبكة جامعة بابل (Paper Link on Network Server) repository publications

البحث في الموقع

Authors, Titles, Abstracts

Full Text




خيارات العرض والخدمات


وصلات مرتبطة بهذا البحث