Уважаемые коллеги, доброго времени суток! Представляем вам эстонское научное издание Oil Shale. Журнал имеет третий квартиль, издается в Estonian Academy Publishers, находится в открытом доступе, его SJR за 2020 г. равен 0,34, импакт-фактор - 0,934, печатный ISSN - 0208-189X, электронный - 1736-7492, предметные области - Геотехника и инженерная геология, Энергетика и энерготехнология, Топливные технологии. Вот так выглядит обложка:
https://kirj.ee/wp-content/themes/eap-awi/images/kaaned/oilshale.svg
Редактором является Андрес Сиирже, контактные данные - andres.siirde@taltech.ee, meelika@eap.ee, riina.syld@gmail.com.
https://www.researchgate.net/profile/Andres-Siirde
Это научно-технический журнал с открытым доступом, который издается издательством Эстонской академии в сотрудничестве с Тартуским университетом, Таллиннским технологическим университетом и Эстонским университетом естественных наук.
Адрес издания - https://kirj.ee/oilshale/?v=f9308c5d0596
Пример статьи, название - Yields and the selected physicochemical properties of thermobitumen as an intermediate product of the pyrolysis of Kukersite oil shale. Заголовок (Abstract) - In the pyrolytic decomposition of kerogen, a macromolecular crosslinked material of oil shale, the formation of thermobitumen is often considered an important intermediate step in pyrolysis modelling. The authors’ literature review indicated that information regarding the yield of thermobitumen from Kukersite oil shale was somewhat contradictory, and data on physicalthermodynamic properties, which is to be used in engineering calculations, was limited. Therefore the present work provides further information on thermobitumen yield levels and properties, along with empirical correlations, which serve to link together pyrolysis temperature, time, and/or selected properties (molecular weight, H/C, density, refractive index, and heat capacity). No information can be found on the last three properties for thermobitumens, derived from either Kukersite oil shale or other oil shale. The paper contributes to the topic by presenting information under conditions in which volatile pyrolytic products (oil and water) were removed from a pyrolysis system by an inert gas flow. So far, the formation of thermobitumen in Kukersite oil shale pyrolysis has been studied in either closed or open systems with no inert gas flow. To further generalise the results, the article also presents some comparisons with Green River formation oil shale thermobitumens, which were produced under similar conditions. Keywords: thermobitumen, molecular weight, density, refractive index, hydrogen-carbon ratio, heat capacity