Propylene production will be in the range of [-9.38 to 18.03] $ per 1 kmol of propylene. Based on the listed range the process of Propane Dehydrogenation (PDH) shows a high percentage of profitability.
References β’
Monai, M., Gambino, M., Wannakao, S., & Weckhuysen, B. M. (2021). Propane to olefins tandem catalysis: a selective route towards light olefins production. Chemical Society Reviews.
β’
Wolf, D., Dropka, N., Smejkal, Q., & Buyevskaya, O. (2001). Oxidative dehydrogenation of propane for propylene productionβcomparison of catalytic processes. Chemical engineering science, 56(2), 713-719.
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Peters, T. A., Liron, O., Tschentscher, R., Sheintuch, M., & Bredesen, R. (2016). Investigation of Pd-based membranes in propane dehydrogenation (PDH) processes. Chemical Engineering Journal, 305, 191-200.
β’
Liao, B., Lei, Z., Xu, Z., Zhou, R., & Duan, Z. (2001). New process for separating propylene and propane by extractive distillation with aqueous acetonitrile. Chemical Engineering Journal, 84(3), 581-586.
β’
Maddah, H. A. (2018). A comparative study between propane dehydrogenation (PDH) technologies and plants in Saudi Arabia. American Academic Scientific Research Journal for Engineering, Technology, and Sciences, 45(1), 49-63.
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NFPA diamond for each http://websites.umich.edu/~safeche/index.html
material,
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