Advances in Energy Sciences and Technologies

Advances in Energy Sciences and Technologies

About Journal

About Journal

Advances in Energy Science and Technologies (AEST) is a double-blind peer-reviewed quarterly journal published by Amirkabir University of Technology, established in 1928. The journal accepts scholarly articles of archival value and critical reviews related to different disciplines in energy science, energy technologies, and energy systems engineering.

Journal Abbreviation: Adv. Energy Sci. Technol.

Journal Acronym: AEST

Electronic ISSN: 3115-9117

Editor-in-Chief: Parviz Parvin, Ph.D.

Managing Editor: Fatemeh Ahmadinouri, Ph.D.

 

Aims and Scope

Advances in Energy Science and Technologies (Adv. Energy Sci. Technol.), established in 2025, is a double-blind peer-reviewed quarterly journal, owned, managed & published by Amirkabir University of Technology. The journal publishes original research articles, review papers, and short communications that lead to novel knowledge, innovation, and understanding of the field of energy science and technologies. The journal scope includes, but is not restricted to, the following areas:

1. Renewable Energy Sources

·       Solar energy (photovoltaics, concentrated solar power, thermal systems, floating solar, building-integrated PV)

·       Wind energy (onshore and offshore turbines, aerodynamics, farm optimization, forecasting)

·       Hydropower and marine energy (large to pico hydro, pumped storage, tidal, wave, OTEC)

·       Geothermal energy (enhanced systems, power plants, direct use, heat pumps)

·       Bioenergy and biomass (first to fourth generation biofuels, algae, anaerobic digestion, gasification, pyrolysis, biochar)

2. Energy Storage and Conversion

·       Batteries: Lithium-ion, solid-state, lithium-sulfur, lithium-air, sodium-ion, potassium-ion, magnesium-ion, flow batteries (vanadium redox, zinc-bromine), lead-acid, nickel-based

·       Supercapacitors: EDLCs, pseudocapacitors, hybrid capacitors, lithium-ion capacitors

·       Hydrogen energy: Production (electrolysis: alkaline, PEM, SOEC; thermochemical; biological), storage (compressed, liquid, metal hydrides, MOFs), transport, refueling stations

·       Fuel cells: PEMFC, SOFC, MCFC, DMFC, PAFC, AEMFC

·       Thermal energy storage: Sensible (molten salt, water, rock), latent (phase change materials), thermochemical storage, cryogenic storage

·       Mechanical storage: Compressed air energy storage (CAES), flywheel, pumped hydro

·       Power-to-X (PtX): Power-to-hydrogen, power-to-ammonia, power-to-methane, power-to-liquids, synthetic fuels (e-fuels)

3. Smart Grids, Power Systems, and Energy Infrastructure

·       Smart grids, advanced metering infrastructure (AMI), IoT, demand side management and demand response

·       Renewable energy integration (solar, wind, variable RES), grid codes, forecasting using AI/ML

·       Microgrids (AC, DC, hybrid), energy management systems (EMS), peer-to-peer (P2P) energy trading, blockchain

·       Power system stability (transient, voltage, frequency), protection, wide area monitoring (WAMPAC), PMUs

·       HVDC and FACTS devices (STATCOM, SVC, UPFC, TCSC)

·       High voltage engineering, insulation, GIS, lightning protection

·       Power electronics and drives (converters, multilevel inverters, wide bandgap SiC/GaN), applications in RES, EVs, HVDC

4. Energy Efficiency and Conservation

·       Industrial energy efficiency (waste heat recovery, pinch analysis, ISO 50001, energy-intensive industries)

·       Building energy efficiency (NZEB, ZEB, HVAC optimization, building automation, digital twins, smart lighting, cool roofs, insulation materials)

·       Transportation energy efficiency (EV, HEV, PHEV, FCEV, charging infrastructure, V2G, V2X, eco-driving)

·       Appliance and equipment efficiency (standards, labeling, high-efficiency motors)

5. Fossil Fuels, Clean Technologies, and Carbon Capture (CCUS)

·       Clean coal and natural gas (supercritical, IGCC, NGCC with carbon capture, CTL, GTL)

·       Carbon capture, utilization, and storage: post-combustion, pre-combustion, oxy-fuel, chemical looping, membranes, DAC, BECCS

·       CO₂ transport, utilization (EOR, mineral carbonation, CO₂ to fuels/chemicals), geological storage

·       Emission reduction (SOₓ, NOₓ, PM, mercury, FGD, SCR) and methane leakage mitigation

6. Nuclear Energy

·       Nuclear fission (advanced reactors, SMRs, Gen IV, fuel cycle, safety, waste management)

·       Nuclear fusion (magnetic confinement: tokamak, stellarator; inertial confinement; plasma physics; tritium breeding)

·       Radiation protection, shielding, dosimetry, nuclear instrumentation

7. Energy Policy, Economics, Markets, and Sustainability

·       Energy policy (renewable incentives, carbon pricing, subsidy reform, international agreements like Paris Agreement)

·       Energy economics (LCOE, LCOS, project valuation, learning curves, demand forecasting)

·       Energy markets (electricity market design, wholesale/retail, capacity markets, P2P trading)

·       Energy security and geopolitics (independence, diversification, critical minerals)

·       Sustainability (SDG 7, SDG 13, energy access, energy poverty, just transition, energy equity)

8. Environment, Climate Change, and Energy Nexus

·       Climate change and energy (GHG accounting, carbon footprint, climate mitigation pathways, net-zero, carbon neutrality, negative emissions technologies)

·       Environmental impact assessment (EIA) and life cycle assessment (LCA) of energy systems (cradle-to-grave, well-to-wheel, environmental impact categories)

·       Energy-Water nexus (water consumption in power plants, desalination powered by renewables, wastewater treatment with energy recovery)

·       Energy-Agriculture nexus (agrivoltaics, energy use in agriculture, bioenergy from agricultural residues, manure for biogas)

·       Energy-Materials nexus (critical raw materials for energy technologies: lithium, cobalt, rare earths; circular economy; battery recycling, PV/wind turbine blade recycling; material flow analysis)

·       Land use and biodiversity (land use change from bioenergy, impact of dams/wind/solar on ecosystems, environmental flows)

·       Air quality and energy (emissions of PM, SO₂, NOₓ, CO, VOCs, health impacts, co-benefits of climate mitigation)

·       Waste-to-energy (WtE) and circular economy (incineration with energy recovery, RDF, SRF, anaerobic digestion of organic waste, landfill gas capture, pyrolysis/gasification of plastic/e-waste/tires, design for recyclability)

9. Emerging, Interdisciplinary, and Advanced Energy Technologies

·       Nanotechnology and advanced materials (graphene, CNTs, MXenes, MOFs, COFs, perovskites, quantum dots, thermoelectrics, piezoelectrics, triboelectrics)

·       Artificial intelligence and machine learning (AI/ML for forecasting, smart grid control, fault detection, predictive maintenance, deep learning, reinforcement learning, digital twins, computer vision, NLP)

·       Internet of Things (IoT) and cyber-physical systems (IoT sensors, wireless sensor networks, cybersecurity of energy systems, blockchain)

·       Energy harvesting (vibration, thermal, RF, wearable and implantable harvesters)

·       Advanced combustion and engines (HCCI, RCCI, LTC, ammonia/hydrogen ICE, synthetic fuels)

·       Carbon-free and low-carbon fuels (green/blue/turquoise hydrogen, green ammonia, methanol, synthetic methane, e-fuels)

·       Plasma and electrification technologies (non-thermal plasma for gas conversion, plasma-assisted combustion, electrification of industrial processes)

·       Quantum technologies for energy (quantum computing for material design, quantum sensing, quantum batteries)

 

Publisher

Amirkabir University of Technology (AUT), Tehran, Iran.

Publisher History

Amirkabir University of Technology is a leading academic institution established in 1928. The university has been publishing academic journals since 1968 and plays a significant role as an academic publisher both regionally and globally in the fields of research, innovation, and technology. In 2025, Advances in Energy Science and Technologies was founded under the current title by the Faculty of Energy Engineering and Physics, covering various fields of energy science and technologies. From 2025 to present, the journal has been published as a quarterly open-access journal with a double-blind peer-review system.

Language

The journal is published in English full-texts, provided with English abstracts and keywords.

Publication Frequency

Advances in Energy Science and Technologies is published Quarterly (4 issues per year). Special issues may be published occasionally.

Policies

1. Open Access Policy

To make freely public accessibility to research with the aim of greater global exchange of knowledge, this journal provides open access to its published articles. All articles are freely available immediately upon publication.

2. Copyright Notice

Authors of the published articles in this journal retain the copyright of their articles and will be able to archive pre-print, post-print, and publisher's versions.

All articles published in the journal are licensed under a Attribution-NonCommercial 4.0 International (CC BY-NC 4.0) .

3. Archiving

In addition to indexing databases (such as Scopus, Web of Science, Google Scholar, etc.), this journal utilizes digital archives (e.g., Portico, LOCKSS, or national archives) to guarantee long-term digital preservation and restoration.

Article Processing Charges (APC)

Amirkabir University of Technology is supporting most of the publishing costs of the journal. So Article Processing Charge (APC) and any other publication fees in the journal are free for authors. There is NO APC for this journal.

Subscription

Advances in Energy Science and Technologies is published as an open access electronic journal, so there is no subscription fee for audiences. Anyone can read, download, and share articles for free.

Advertisements

According to Advances in Energy Science and Technologies and its publisher & owner, Amirkabir University of Technology, we do not accept advertisements in any case.

Sources of Support

Amirkabir University of Technology, Tehran, Iran.

Contact Information

Address: AUT Journal of Modeling and Simulation, Amirkabir University of Technology, 424, Hafez Ave., Tehran, Iran.
P.O. Box: 15875, Postal Code: 15914.

Phone: +98 (021) 66491123, 64542656
E-mail: 
journal@aut.ac.ir, AEST@aut.ac.ir