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Membership fees update

EAGE announces new membership fees for 2024

As we chart a sustainable future for the Association and endeavour to continue offering members the same level of services, benefits and support, it has become necessary to adjust the EAGE annual dues. This will be done gradually over the course of the next years, subject to a yearly review by the EAGE Board.

The new fee structure will get into effect from 1 October 2024 onwards. 

Regular membership€ 80,--€ 85,--€ 90,--€ 95,--
Retired membership€ 40,--€ 40,--€ 45,--€ 45,--
Student membership€ 25,--€ 25,--€ 25,--€ 25,--

*Projection. Future adjustments will be discussed by the Board yearly.


Secure or extend your membership now

Prior to this date, members (and prospective members) will have the opportunity of securing future years of membership at the current fees.

Secure or extend your membership


EAGE membership support

We want to keep EAGE accessible to all and acknowledge an increase in fees may be difficult for some. For this reason, a number of support options will remain available:

  • Student membership fees will not increase.
  • Students who meet the eligibility criteria can apply for a first-year sponsored student membership.
  • Members who are unemployed and meet the eligibility criteria can apply for a full membership fee waiver under the EAGE Economic Hardship Programme.
  • Within the same Programme, all members (including students, regular and retired members), as well as prospective members, who meet the eligibility criteria can apply for a 50% membership fee discount.

Applications for all the support options mentioned above are available through the membership renewal process, making it easily accessible.


If you have any questions regarding EAGE membership or any of the support options mentioned, please do not hesitate to get in touch via


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Siddharth Misra


Prof Dr Siddharth Misra’s research focuses on improving subsurface characterization and prospect evaluation for the exploration of hydrocarbons, minerals and water resources.

His major contribution is in the theory of electromagnetic responses of geological formations to various charge polarization phenomena. The theory has enabled him to introduce a multi-frequency electromagnetic log-inversion technique to remove dielectric effects for improved estimation of hydrocarbon pore volume.


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