BURG’ULASH ERITMALARIDA ISHLATILADIGAN GEL KUKUNLARINING XOSSALARINI TAHLIL QILISH
Keywords:
Gel kukunlari. Burg’ulash loyi. Nanozarrachalar. Filtrlash. Reologik xususiyatlar. Viskozimetr. Bentonit.Abstract
Burg’ulash eritmalari-neft qazib chiqarish jarayonida ishlatiladigan muhim komponent hisoblanadi. Neft qazib chiqarish jarayonida yuzaga keladigan muammolarni hal qilishda ushbu eritmalarning ahamiyati yuqori. Garchi, burg’ulash eritmalari neft qazib chiqarish jarayonlari uchun muhim komponent hisoblansada, ularning xususiyatlarini yanada oshirish va yuzaga keladigan muammolarning oldini olish yuzasidan to’liq ma’lumotga ega emasmiz. Burg’ulash eritmalari tayyorlashda eng ko’p ishlatiladigan gel kukunlarining fizik-kimyoviy xossalari yuzasidan ham ma’lumotlarimiz yetarlicha emas. Burg’ulash ertimalari tayyorlashning texnologiyasi bilan ushbu maqolada tanishib chiqishimiz mumkin. Shu bilan birga ushbu tadqiqotimizda burg’ilash eritmalarida eng ko’p qo’llaniladigan gel kukunlarining fizik-kimyoviy xossalari va ularning neft qazib chiqarishdagi roli va ahamiyatini ham tahlil qilamiz. Gel kukunlarining xossa xususiyatini oshirish va qazish jarayonida yuzaga keladigan tajovuzkor qatlamlardan himoyalanishda burg’ulash eritmalarining yuqori ahamiyati haqida ma’lumotlarni atroflicha o’rgandik. Ushbu tadqiqotimiz gel kukunlarining samaradorligini yanada oshirish va burg’ulash eritmalaridagi ahamiyatini izohlaydi. Shu bilan birga keying tadqiqotlarga qo’shadigan hissasi haqida ma’lumot beradi. Shu bilan birga ushbu tadqiqotimizda biz turli burg’ulash suyuqliklarini xossalarini bir-biridan farqini o’rganamiz.
References
1. Sönmez, A.; Kok, MV; Bal, B.; Bagatir, G.; Gucuyener, IH moment va yo'qolgan aylanish muammolariga kompleks yondashuv Burg'ilash suyuqligi nuqtai nazaridan geotermal quduqlar. Geotermik 2021, 95, 102126.
2. Mansoor HHA, Devarapu SR, Samuel R et al (2021) Experimen tal investigation of aloe-vera-based CuO nanofluid as a novel additive in improving the rheological and filtration properties of water-based drilling fluid. SPE Drill Complet 36:542–551. https://doi.org/10.2118/205004-PA
3. Farahbod F (2021) Experimental investigation of thermo-phys ical properties of drilling fl uid integrated with nanoparticles: improvement of drilling operation performance. Powder Technol 384:125–131. https://doi.org/10.1016/j.powtec.2021.02.002
4. Keshavarz M, Gha A, Agin F et al (2020) Application of amor phous silica nanoparticles in improving the rheological proper ties, filtration and shale stability of glycol-based drilling fl uids. Int Commun Heat Mass Transf 115:104625. https:// doi. org/ 10. 1016/j.icheatmasstransfer.2020.104625
5. Alsaba MT, Al Dushaishi MF, Abbas AK (2020) Application of nano water-based drilling fluid in improving hole cleaning. SN Appl Sci 2:1–7. https://doi.org/10.1007/s42452-020-2723-2
6. Al-Shargabi, M., Davoodi, S., Wood, D. A., Al-Rubaii, M., Minaev, K. M., & Rukavishnikov, V. S. (2023). Hole-cleaning performance in non-vertical wellbores: A review of influences, models, drilling fluid types, and real-time applications. Geoenergy Science and Engineering, 212551.
7. Abbas, A. K., Alsaba, M. T., & Al Dushaishi, M. F. (2022). Comprehensive experimental investigation of hole cleaning performance in horizontal wells including the effects of drill string eccentricity, pipe rotation, and cuttings size. Journal of Energy Resources Technology, 144(6), 063006.
8. Gåseland Bekkevik, S. (2022). Recent developments in hole cleaning technology in deviated well bores for geothermal and petroleum. uis,
