Towards commercialization: Challenges in scaling up lab scale membrane for field performance evaluation

Authors

  • Farahdila Kadirkhan PETRONAS Research Sdn Bhd
  • Wan Nurul Ffazida Wan Mustapa PETRONAS Research Sdn Bhd
  • Mohd Hanif Mohamad Halim PETRONAS Research Sdn Bhd
  • Soh Wei Kian PETRONAS Research Sdn Bhd
  • Yeo Siew Yean PETRONAS Research Sdn Bhd

DOI:

https://doi.org/10.11113/mjfas.v15n6.1476

Keywords:

CO2 removal, scale up, field performance evaluation, contaminants, robustness, durability

Abstract

Membrane technology is favorable for bulk CO2 removal from natural gas due to several advantages such as simple operation, no chemical or moving parts, smaller footprint and weight over other technologies, and high reliability. It has led to massive fundamental research efforts in producing better membrane performance throughout the world. However, scaling up the lab scale membrane for field performance evaluation can be quite challenging. The challenges include consistency in membrane quality for large volume process, membrane module design and fabrication techniques, harsh operating conditions with field contaminants fluctuation, and process facilities requirement for offshore application. All the scale up challenges will need to be properly addressed diligently in order to ensure the membrane can be successfully applied as per the intended field specification.

Author Biographies

Farahdila Kadirkhan, PETRONAS Research Sdn Bhd

Gas Sustainability Technology (GaSTech) R&D Department, Group Research & Technology (GR&T), Project Delivery & Technology (PD&T)

Wan Nurul Ffazida Wan Mustapa, PETRONAS Research Sdn Bhd

Gas Sustainability Technology (GaSTech) R&D Department, Group Research & Technology (GR&T), Project Delivery & Technology (PD&T)

Mohd Hanif Mohamad Halim, PETRONAS Research Sdn Bhd

Gas Sustainability Technology (GaSTech) R&D Department, Group Research & Technology (GR&T), Project Delivery & Technology (PD&T)

Soh Wei Kian, PETRONAS Research Sdn Bhd

Gas Sustainability Technology (GaSTech) R&D Department, Group Research & Technology (GR&T), Project Delivery & Technology (PD&T)

Yeo Siew Yean, PETRONAS Research Sdn Bhd

Gas Sustainability Technology (GaSTech) R&D Department, Group Research & Technology (GR&T), Project Delivery & Technology (PD&T)

References

Adewole, J. K., Ahmad, A. L., Ismail, S., Leo, C. P. 2013. Current challenges in membrane separation of CO2 from natural gas : A review. International Journal of Greenhouse Gas Control, 17, 46–65.

Adewole, J. K., Ahmad, A. L., Sultan, A. S., Ismail, S. 2015. Model-based analysis of polymeric membranes performance in high pressure CO2 removal from natural gas. Journal of Polymer Research, 22(32), 1-10.

Ahmad, F., Lau, K. K., Shariff, A. M., Murshid, G. 2012. Process simulation and optimal design of membrane separation system for CO2 capture from natural gas. Computers and Chemical Engineering, 36, 119–128.

Ahmad, F., Lau, K. K., Shariff, A. M., Yeong, Y. F. 2013. Temperature and pressure dependence of membrane permeance and its effect on process economics of hollow fiber gas separation system. Journal of Membrane Science, 430, 44–55.

Baker, R. W. 2002. Future directions of membrane gas separation technology. Industrial and Engineering Chemistry Research, 41(6), 1393–1411.

Bernardo, P., Clarizia, G. 2013. 30 years of membrane technology for gas separation. Chemical Engineering Transactions, 32, 1999–2004.

Ho, W. S. W., Li, K. 2016. Science Direct Editorial overview : Separation engineering : Recent advances in separation science and technology. Current Opinion in Chemical Engineering, 12, pp.vii–xi.

Julian, H., Wenten, I. G., 2012. Polysulfone membranes for CO2 / CH4 separation : State of the art. IOSR Journal of Engineering, 2(3), 484–495.

Lokhandwala, K. A., Baker, R. W. 2005. Natural gas processing with membranes. , 1(19), 2109–2121.

Mohshim, D. F., Mukhtar, H., Man, Z., Nasir, R. 2013. Latest development on membrane fabrication for natural gas purification: A review. Journal of Engineering, 2013, 1-7.

Mushtaq, A., Mukhtar, H., Shariff, A. M., Mannan, H. A. 2013. A review : Development of polymeric blend membrane for removal of CO2 from natural gas. International Journal of Engineering and Technology IJET-IJENS, 13(02), 53-60.

Sridhar, S., Bee, S., Bhargava, S. 2014. Membrane-based gas separation: principle, applications and future potential. Chemical Engineering Digest, 1(1), 1–25.

Zhang, Y., Sunarso, J., Liu, S., Wang, R. 2013. Current status and development of membranes for CO 2 / CH 4 separation : A review. International Journal of Greenhouse Gas Control, 12, 84–107.

Downloads

Published

04-12-2019