Science and Technology for Energy Transition (STET)
Formerly Oil & Gas Science and Technology - Revue d'IFP Energies nouvelles
Science and Technology for Energy Transition (STET) is the new name of former OGST (Oil & Gas Science and Technology, journal headed by IFPEN).
STET is an international scientific journal supported by IFPEN (IFP Energies nouvelles) and CEA (French Alternative Energies and Atomic Energy Commission), both major French research and technology organizations in energy.
The journal is intended to be a forum for exchanging and sharing scientific results focusing on effective and sustainable energy transition in response to climate change. Submitted articles must be factual and shall not express opinions. Their scientific quality and compliance to the journal’s aims & scope are the main criteria by which acceptance for publication will be decided. Published articles do not represent the views or position of either supporting organisation. Both supporting organizations (IFPEN and CEA) have their own research and development roadmap in this area.
Science and Technology for Energy Transition (STET) is a diamond open access journal, supported by IFPEN and the CEA. Consequently, the journal is free for readers and authors do not have to pay any article processing charges to publish in it.
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Open AccessSci. Tech. Energ. Transition, 79 (2024) 65Published online: 16 September 2024
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Open Access
A redundant secondary control scheme to resist FDI attacks in AC microgrids
Sci. Tech. Energ. Transition, 79 (2024) 64Published online: 13 September 2024 -
Open Access
Modelling cost-effective of electric vehicles and demand response in smart electrical microgrids
Sci. Tech. Energ. Transition, 79 (2024) 63Published online: 13 September 2024 -
Open AccessReview
A comprehensive exploration of IoT-enabled smart grid systems: power quality issues, solutions, and challenges
Sci. Tech. Energ. Transition, 79 (2024) 62Published online: 02 September 2024 -
Open Access
Modeling techno-economic multi-objectives of smart homes considering energy optimization and demand management
Sci. Tech. Energ. Transition, 79 (2024) 61Published online: 02 September 2024 -
Open Access
Voltage control method for multi-energy system based on the coupling of renewable energy hydrogen production and storage
Sci. Tech. Energ. Transition, 79 (2024) 60Published online: 02 September 2024 -
Open Access
Real-time automatic identification methods for downhole whirling based on mechanical specific energy model of drill bit
Sci. Tech. Energ. Transition, 79 (2024) 59Published online: 27 August 2024
143 |
Open Access
Review
A comprehensive exploration of IoT-enabled smart grid systems: power quality issues, solutions, and challengesSci. Tech. Energ. Transition, 79 (2024) 62
Published online: 02 September 2024
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120 |
Open Access
Review
Natural H2 exploration: tools and workflows to characterize a playSci. Tech. Energ. Transition, 78 (2023) 27
Published online: 13 October 2023
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113 |
Open Access
An applied study on energy analysis of a coke ovenSci. Tech. Energ. Transition, 79 (2024) 1
Published online: 09 January 2024
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111 |
Open Access
Review
A review on hazards and risks to pipeline operation under transporting hydrogen energy and hydrogen-mixed natural gasSci. Tech. Energ. Transition, 79 (2024) 9
Published online: 08 February 2024
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103 |
Open Access
Modeling techno-economic multi-objectives of smart homes considering energy optimization and demand managementSci. Tech. Energ. Transition, 79 (2024) 61
Published online: 02 September 2024
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