ارسل ملاحظاتك

ارسل ملاحظاتك لنا







الرئيسية > Natural Gas Pipeline Network M...>مارك

Natural Gas Pipeline Network Modeling Using PIPSYS Program

المصدر: المجلة الجامعة
الناشر: جامعة الزاوية - مركز البحوث والدراسات العليا
المؤلف الرئيسي: Mohamed Bey, Mufida (Author)
مؤلفين آخرين: Alshbuki, Ezeddin H. (Co-Author) , Mohamed, Abduraouf ALAmer (Co-Author)
المجلد/العدد: مج23, ع3
محكمة: نعم
الدولة: ليبيا
التاريخ الميلادي: 2021
الشهر: سبتمبر
الصفحات: 133 - 152
رقم MD: 1263441
نوع المحتوى: بحوث ومقالات
اللغة: الإنجليزية
قواعد المعلومات: EduSearch, EcoLink, IslamicInfo, AraBase, HumanIndex
مواضيع:
الغاز الطبيعي | التقنية الاقتصادية | الغاز الخام
كلمات المؤلف المفتاحية:
Pressure Drop | Gas Transportatio | Pipeline | Phase Diagram
رابط المحتوى:

الناشر لهذه المادة لم يسمح بإتاحتها.
صورة الغلاف QR قانون
حفظ في:
LEADER 02984nam a22002897a 4500
001 2016097
041 |a eng 
044 |b ليبيا 
100 |9 673428  |a Mohamed Bey, Mufida   |e Author 
245 |a Natural Gas Pipeline Network Modeling Using PIPSYS Program 
260 |b جامعة الزاوية - مركز البحوث والدراسات العليا  |c 2021  |g سبتمبر 
300 |a 133 - 152 
336 |a بحوث ومقالات  |b Article 
520 |b Natural gas is considered one of the most important sources of energy currently available in the world, and Some difficulties face the process of transporting gas through pipelines, including terrain and stages that occur during the transportation process, and this study was based on simulating the transfer of the produced gas from three wells that were linked Together with a steel pipe network of different lengths and diameters from 3 to 6 inches and a total length of about 3274 meters connected to the main transportation pipeline with a diameter of 6 inches and by observing the change in heat loss caused by the piping network. It was shown a decrease in the amount of heat lost from the pipes as a result of wrapping these pipes with a layer of Asphalt with a thickness of one millimeter to avoid the occurrence of corrosion of the outer surface and to prevent the formation of hydrates, and with the continued flow of gas in the steady-state through the network. It was shown through the results obtained from the PIPSYS program. The flow pattern was an annular mist of all pipes. The final pressure of the last production line was also calculated after adjusting the operating pressure of well A with the pressure of the last production line until it reached the desired values of 6895 kpa, 34.61°C and a flow rate of 1300 kg mol per hour, as well as a decrease in the maximum head pressure drop this part, was -9.6 kpa And, by making some adjustments to the fluid package, i.e. by testing three models of state equations in the gas phase and all results were close, as well as calculating the phase diagram of pressure, temperature, and the ability to form hydrates in the outlet conditions of the last part of the network. 
653 |a الغاز الطبيعي  |a التقنية الاقتصادية  |a الغاز الخام 
692 |b Pressure Drop  |b Gas Transportatio  |b Pipeline  |b Phase Diagram 
700 |9 673438  |a Alshbuki, Ezeddin H.  |e Co-Author 
700 |9 673443  |a Mohamed, Abduraouf ALAmer  |e Co-Author 
773 |4 العلوم الإنسانية ، متعددة التخصصات  |4 العلوم الاجتماعية ، متعددة التخصصات  |6 Humanities, Multidisciplinary  |6 Social Sciences, Interdisciplinary  |c 010  |e University Bulletin  |l 003  |m مج23, ع3  |o 0928  |s المجلة الجامعة  |v 023 
856 |u 0928-023-003-010.pdf 
930 |d n  |p y  |q n 
995 |a EduSearch 
995 |a EcoLink 
995 |a IslamicInfo 
995 |a AraBase 
995 |a HumanIndex 
999 |c 1263441  |d 1263441 

عناصر مشابهة


© 2024 المنظومة. جميع الحقوق محفوظة.