Выберите категорию обращения:
Общие вопросы
Отчеты
Рейтинги
Мониторинговый отчёт
Диссертационные советы
Конкурсы
Ввод данных
Структура организаций
Аспирантура
Научное оборудование
Импорт педагогической нагрузки
Журналы и импакт-факторы
Тема обращения:
Описание проблемы:
Введите почтовый адрес:
ИСТИНА
Войти в систему
Регистрация
ФНКЦ РР
Главная
Поиск
Статистика
О проекте
Помощь
Rock thermal properties from well-logging data accounting for thermal anisotropy
статья
Статья опубликована в высокорейтинговом журнале
Статья опубликована в журнале из списка Web of Science и/или Scopus
Авторы:
Shakirov A.
,
Chekhonin E.
,
Popov Y.
,
Popov E.
,
Spasennykh M.
,
Zagranovskaya D.
,
Serkin M.
Журнал:
Geothermics
Том:
92
Год издания:
2021
Издательство:
Pergamon Press
Местоположение издательства:
United States
DOI:
10.1016/j.geothermics.2021.102059
Аннотация:
The limitations of the existing techniques for in situ rock thermal property measurements and numerous cases with non-coring drilling determine the necessity for methods of rock thermal property determination based on well-logging data. Existing approaches for determining rock thermal properties from well-logging data are appropriate only for isotropic rocks. Since many rock types, especially organic-rich shales, exhibit a considerable degree of heterogeneity and anisotropy, advanced approaches for well log-based determination of rock thermal properties are highly desired. The implementation of the new thermal core logging technique, which provides continuous and high-precision measurements of the principal components of the thermal conductivity tensor and volumetric heat capacity from core samples, enabled the development of a new framework for the indirect determination of rock thermal properties. An enhanced technique for determining rock thermal conductivity and volumetric heat capacity from well-logging data accounting for thermal anisotropy and in situ thermobaric conditions is proposed and tested. This technique includes both the application of theoretical models and regression analysis of rock thermal properties, depending on the availability and quality of the input data. Three theoretical models involving a correction factor were compared to provide the best results. The experimental data of rock thermal properties inferred from the thermal core-logging and well-logging data from five wells (1630 samples) drilled through two highly anisotropic unconventional formations – the Bazhenov and the Domanic – were used as the basis of this newly developed approach. It is shown that rock thermal conductivity can be predicted from well-logging data accounting for thermal anisotropy with an uncertainty of less than 12 % and rock volumetric heat capacity with a total uncertainty of less than 5%. © 2021 Elsevier Ltd
Добавил в систему:
Чехонин Евгений Михайлович