Eslek Koyuncu, D. D. Et Al. 2022. High-Temperature CO2 Capture Using Regenerable Ca-Mg-based Sorbents Derived from Natural Minerals: Huntite, Hydromagnesite, and Magnesite. ARABIAN JOURNAL FOR SCIENCE AND ENGINEERING , vol.47, no.5 , 6269-6281.

Eslek Koyuncu, D. D., Yaşyerli, S., & Yaşyerli, N., (2022). High-Temperature CO2 Capture Using Regenerable Ca-Mg-based Sorbents Derived from Natural Minerals: Huntite, Hydromagnesite, and Magnesite. ARABIAN JOURNAL FOR SCIENCE AND ENGINEERING , vol.47, no.5, 6269-6281.

Eslek Koyuncu, DİLŞAD, SENA YAŞYERLİ, And NAİL YAŞYERLİ. "High-Temperature CO2 Capture Using Regenerable Ca-Mg-based Sorbents Derived from Natural Minerals: Huntite, Hydromagnesite, and Magnesite," ARABIAN JOURNAL FOR SCIENCE AND ENGINEERING , vol.47, no.5, 6269-6281, 2022

Eslek Koyuncu, DİLŞAD D. Et Al. "High-Temperature CO2 Capture Using Regenerable Ca-Mg-based Sorbents Derived from Natural Minerals: Huntite, Hydromagnesite, and Magnesite." ARABIAN JOURNAL FOR SCIENCE AND ENGINEERING , vol.47, no.5, pp.6269-6281, 2022

Eslek Koyuncu, D. D. Yaşyerli, S. And Yaşyerli, N. (2022) . "High-Temperature CO2 Capture Using Regenerable Ca-Mg-based Sorbents Derived from Natural Minerals: Huntite, Hydromagnesite, and Magnesite." ARABIAN JOURNAL FOR SCIENCE AND ENGINEERING , vol.47, no.5, pp.6269-6281.

@article{article, author={DİLŞAD DOLUNAY ESLEK KOYUNCU Et Al. }, title={High-Temperature CO2 Capture Using Regenerable Ca-Mg-based Sorbents Derived from Natural Minerals: Huntite, Hydromagnesite, and Magnesite}, journal={ARABIAN JOURNAL FOR SCIENCE AND ENGINEERING}, year=2022, pages={6269-6281} }