Volume 13 (2025)
Volume 12 (2024)
Volume 11 (2023)
Volume 10 (2022)
Volume 9 (2021)
Volume 8 (2020)
Volume 7 (2019)
Volume 6 (2018)
Volume 5 (2017)
Volume 4 (2016)
Volume 3 (2015)
Volume 2 (2014)
Volume 1 (2013)
Power Electronic
A Low Input Current Ripple High Step-Up DC-DC Converter with Reduced Voltage Stress for Renewable Energy Application

N. Yousefi; D. Mirabbasi; B. Alfi; M. Salimi; Gh.R. Aghajani

Articles in Press, Corrected Proof, Available Online from 28 January 2024

https://doi.org/10.22098/joape.2024.13319.2016

Abstract
  This report develops a high step-up topology employing a voltage multiplier cell (VMC) and a coupled inductor for renewable energy usage. The efficiency is improved and the blocking voltage on semiconductors is decreased. The proposed structure achieves a high voltage gain by utilizing a VMC and one ...  Read More

Power Electronic
A Topology of Non-Isolated Soft Switched DC-DC Converter for Renewable Energy Applications

N. Bagheri; B. Tousi; S.M. Alilou

Articles in Press, Corrected Proof, Available Online from 12 May 2024

https://doi.org/10.22098/joape.2024.13391.2026

Abstract
  This research offers a high step-up DC-DC converter using a two- winding coupled inductor and voltage multiplier circuit (VMC) including diodes and capacitors for renewable energy (RE) usages such as photovoltaic (PV) and fuel cell (FC). The advantages of this converter are: 1) High voltage gain with ...  Read More

Peer-to-Peer Electricity Trading in Microgrids with Renewable Sources and Uncertainty Modeling Using IGDT

M. Khadem Maaref; J. Salehi

Volume 12, Issue 3 , August 2024, , Pages 195-205

https://doi.org/10.22098/joape.2023.11393.1851

Abstract
  Microgrids are known as the main components of energy networks because they can accommodate a large share of renewable energy sources. Peer-to-peer energy trading is one of the most effective ways to implement decentralized patterns in the electricity market. In peer-to-peer trades, each actor negotiates ...  Read More

Adaptive Residential Energy Hubs Scheduling Considering Renewable Sources

A. Namvar; J. Salehi

Volume 12, Issue 2 , April 2024, , Pages 142-151

https://doi.org/10.22098/joape.2023.11083.1826

Abstract
  One of the crucial challenges within the optimal operation of smart cities is coordinated management of multiple energy carriers in the residential buildings owing to disparate and often conflicting objectives. In response to this challenge, this paper proposes a novel conceptual cost-emission-based ...  Read More

Application of Automatic Control in Power System
Maximizing the Generated Power of Wind Farms by Using Optimization Method

S.A. Abdul-Ameer; A.K.J. Al-Nussairi; R. Khalid; J.K. Abbas; A.H.O. Al-Mansor

Volume 11, Special Issue , March 2023

https://doi.org/10.22098/joape.2023.13226.2002

Abstract
  In this study, the Particle Swarm Optimization (PSO) method was employed to optimize the anticipated energy yield of a wind farm. The architecture of a wind farm, including its location, height, and shadow reduction, is determined using the PSO algorithm based on the turbine height and rotor diameter. ...  Read More

Modeling and Identification of Technological Processes in the Fields of Power Engineering
Renewable Energy Resources Development Effect on Electricity Price: an Application of Machine Learning Model

D.S. Talgatkyzy; N.H. Haroon; S.A. Hussein; S.Kh. Ibrahim; K.A. Jabbar; B.A. Mohammed; S.M. Hameed

Volume 11, Special Issue , March 2023

https://doi.org/10.22098/joape.2023.13710.2049

Abstract
  Given the significant uncertainty surrounding future electricity prices, which is widely regarded as the most critical factor in this context, market participants must engage in forecasting to facilitate their exploitation and planning activities. The success of electricity market actors is dependent ...  Read More

Energy Management
Hybrid Energy Systems Optimization Using Firefly Algorithm: Integration of Various Resources for Enhanced Stability and Flexibility

J. Napitupulu; A. Al-khalidi; Z.F. Al-Lami; A.S. Ibrahim; M.Y. Arabi; A.A. Ali; M.M. Abdulhasan; K.I. Nematovich; D. Sholeha; Y. Yerkin

Volume 11, Special Issue , March 2023

https://doi.org/10.22098/joape.2024.14214.2090

Abstract
  The concept of hybrid energy systems has emerged as a distinct alternative in the past few decades, with the aim of enhancing the resilience and adaptability of energy systems to fluctuations and diverse energy sources. One of the principal objectives of hybrid energy systems is to mitigate the environmental ...  Read More

Energy Management
Deep Learning Based Optimal Energy Management in the Presence of Renewable Energy

S.R. Kumisbekovna; G. Kakimzhan; N. Darimbayeva; A. Besterekova; Z. Toygozhinova; E. Darkenbaeva; M. Sakitzhanov

Volume 11, Special Issue , March 2023

https://doi.org/10.22098/joape.2024.14720.2126

Abstract
  Traditional energy management focuses on ensuring a reliable and sustainable energy supply through meticulous planning, coordination, and optimization of resources. However, integrating renewable energy sources like solar, wind, and hydropower introduces a new layer of complexity. These sources, while ...  Read More

Stochastic Simultaneous Planning of Interruptible Loads, Renewable ‎Generations and Capacitors in Distribution Network ‎

J. Salehi; F.S. Gazijahani; A. Safari

Volume 10, Issue 2 , August 2022, , Pages 113-121

https://doi.org/10.22098/joape.2022.7826.1553

Abstract
  Executing interruptible loads (ILs) can be significantly effective for optimal and secure operation of power systems. These ILs can aid the operators not only to increase the reliability of the power supply but also to reduce the procurement costs of the whole system. Therefore, determining the optimal ...  Read More

Power Electronic
Two-Stage Inverter Based on Combination of High Gain DC-DC Converter and Five-Level Inverter for PV-Battery Energy Conversion

R. Esmaeilzadeh; A. Ajami; M. R. Banaei

Volume 6, Issue 1 , June 2018, , Pages 101-110

https://doi.org/10.22098/joape.2018.3958.1313

Abstract
  This paper proposes a new two-stage inverter based on transformer-less high gain DC-DC converter for energy conversion of a photovoltaic system. The designed system consists of a high gain DC-DC converter cascaded with a three-phase inverter. The proposed DC-DC converter has a simple structure, and it ...  Read More

Energy Management
Control and Management of Hybrid Renewable Energy Systems: Review and Comparison of Methods

M. Ahangari Hassas; K. Pourhossein

Volume 5, Issue 2 , December 2017, , Pages 131-138

https://doi.org/10.22098/joape.2017.2477.1215

Abstract
  Hybrid renewable energy systems (HRES) have been introduced to overcome intermittent nature of single-source renewable energy generation. In order to utilize HRES optimally, two issues must be considered: optimal sizing and optimal operation. The first issue has been considered vastly in several articles ...  Read More

Power Electronic
Multi-Stage DC-AC Converter Based on New DC-DC Converter for Energy Conversion

Mohammadreza Banaei

Volume 4, Issue 1 , June 2016, , Pages 42-53

Abstract
  This paper proposes a multi-stage power generation system suitable for renewable energy sources, which is composed of a DC-DC power converter and a three-phase inverter. The DC-DC power converter is a boost converter to convert the output voltage of the DC source into two voltage sources. The DC-DC converter ...  Read More