Latest content
-
Trilateral control for LCL filter‐based system with single grid current sensor in weak grid
- Author(s): Khushboo Kumari and Amit Kumar Jain
- + Show details - Hide details
-
p.
365
–375
(11)
AbstractA trilateral control for LCL filter‐based system is introduced by the authors with a single grid current sensor in weak grid conditions. The LCL filter increases the complexity when the uncertain nature of the grid comes into the picture. Moreover, the traditional three‐loop control technique requires three current sensors on the inverter side, three voltage sensors to sense voltage across the capacitor, and three current sensors on the grid side combined for sensing. A novel trilateral control technique utilising a single sensor is implemented to sense the grid current. This technique has reduced a considerable number of current sensors and voltage sensors. The α axis of grid current is proportional to sensed ‘a’ phase grid current. The β current in the utility grid is acquired by employing the controller reference quantities of the grid current. The computation of another variable, that is, the current in the inverter side inductor and the voltage across the capacitor, is executed by an estimation algorithm. The proposed technique provides the feature of reducing implementation financial value and weight that reduces the complexity and size of hardware. The synchronisation technique is executed by a modified dual second‐order generalised integrator digital phase‐locked loop for the grid‐connected converter. The implemented system offers the advantage of ease of implementation, good performance, and high stability. The validity of the proposed scheme in the implemented system is demonstrated by the simulated waveform obtained on the MATLAB/Simulink platform. Finally, the effectiveness of the proposed system is further justified by the experimental waveform procured from a prototype developed in the laboratory.
-
Distributed robust operation strategy of multi‐microgrid based on peer‐to‐peer multi‐energy trading
- Author(s): Jin Gao ; Zhenguo Shao ; Feixiong Chen ; Yuchao Chen ; Yongqi Lin ; Hongjie Deng
- + Show details - Hide details
-
p.
376
–392
(17)
AbstractIn microgrid (MG) systems, traditional centralised energy trading models can lead to issues such as low energy efficiency due to unstable energy supply and lack of flexibility. Peer‐to‐peer (P2P) trading models have been widely used due to their advantages in promoting the sustainable development of renewable energy and reducing energy trading costs. However, P2P multi‐energy trading requires mutual agreements between two microgrids (MGs), and the uncertainties of renewable energy and load affects energy supply security. To address these issues, this article proposed a distributed robust operation strategy based on P2P multi‐energy trading for multi‐microgrid (MMG) systems. Firstly, a two‐stage robust optimisation (TRO) method was adopted to consider the uncertainties of P2P multi‐energy trading between MGs, which reduced the conservatism of robust optimisation (RO). Secondly, a TRO model for P2P multi‐energy trading among MGs was established based on the Nash bargaining theory, where each MG negotiates with others based on their energy contributions in the cooperation. Additionally, a distributed algorithm was used to protect the privacy of each MG. Finally, the simulation results based on three MGs showed that the proposed approach can achieve a fair distribution of cooperative interests and effectively promote cooperation among MGs.
-
Sizing, economic, and reliability analysis of photovoltaics and energy storage for an off‐grid power system in Jordan
- Author(s): William Seward ; Lixun Chi ; Meysam Qadrdan ; Adib Allahham ; Khaled Alawasa
- + Show details - Hide details
-
p.
393
–404
(12)
AbstractRemote areas in Jordan often rely on expensive and polluting diesel generators to meet their electricity demand. This study investigates 100% renewable solutions to supply the electricity demand of off‐grid energy systems through optimal sizing of photovoltaics and energy storage systems. A linear programming approach is proposed to minimise the annualised cost of electricity supply including capital costs of equipment and their operation and maintenance costs. The optimisation determines the size of photovoltaics and energy storage required to satisfy electricity demand at every hour of a selected year. A Jordan campsite was used as a case study to assess and compare the performance of PV‐battery storage and PV‐hydrogen storage systems from economic and reliability perspectives. The results show that hydrogen storage was more economical for a 100% renewable energy system. However, introducing some diesel generation gave the battery system a significantly lower annualised cost of energy.
-
Mountain gazelle optimisation‐based 3DOF‐FOPID‐virtual inertia controller for frequency control of low inertia microgrid
- Author(s): Swapan Santra and Mala De
- + Show details - Hide details
-
p.
405
–417
(13)
AbstractThe primary objective of the authors is to design a new robust and improved virtual inertia controller (VIC) for renewable energy dominated inverter interfaced low inertia microgrid (LIMG). Increasing penetration of inertia‐less renewable generation in microgrid leads to increased frequency deviation during and after a disturbance. To improve the frequency response of the LIMG, conventional VIC added with different second stage and third stage controllers are proposed in existing works. Higher degree‐of‐freedom (DOF) PID controller synchronised with fractional‐order (FO) operators are used with conventional VIC controllers. These controllers work in addition with conventional VIC and the multi‐stage controllers make the system more complex. To reduce the number of controller stages and, subsequently, reduce cost and complexity of the system, a single stage 3DOF‐FOPID controller is proposed to mitigate the frequency deviation after a disturbance in a LIMG. Performance of the proposed single stage controller is compared with that of the existing controllers to establish the advantages of the proposed controller. The parameters of the proposed 3DOF‐FOPID controller are optimised by Mountain Gazelle Optimsation. The robustness of this controller is also tested for random load fluctuation and renewable power variations in presence of system non‐linearities.
-
Optimal energy storage configuration for joint energy‐regulation market participating renewable energy plants with excess revenue recovery mechanism
- Author(s): Weihong Liu ; Qiangyu Ren ; Jiaojiao Deng ; Jincheng Guo ; Xiaoming Zheng ; Hongli Liu
- + Show details - Hide details
-
p.
418
–429
(12)
AbstractThe fluctuation and stochastic characteristics of renewable energy resources challenge the secure system operation and also impose significant financial risks for the market participating renewable energy plants (REPs). Energy storage systems (ESSs) can serve as effective tools in enhancing the operating flexibility of REPs, thus improving their profitability while making them grid‐friendly. However, current studies focussing on the energy market participation of ESS‐equipped REPs neglect ESSs' frequency regulation performance. Moreover, power output deviation and power curtailment of REPs bring difficulties to the integration of renewable energy. To address these challenges, an optimal ESS configuration method for REPs participating in the joint energy‐regulation market is proposed first. A method considering constraints on frequency regulation performance is applied. Then, to reduce power output deviation and power curtailment of REPs, an incentive mechanism based on the excess revenue recovery is implemented to induce the grid‐friendly power outputs of REPs. Numerical analysis on XJTU‐ROTS2017 systems demonstrates that the optimal ESS configuration results obtained from the proposed method could promote the profitability of ESS‐equipped REPs. The results also verify the effectiveness of the excess revenue recovery mechanism in facilitating the grid‐friendly operation behaviours of the ESS‐equipped REPs.
Most downloaded
Most cited
-
A user selection algorithm for aggregating electric vehicle demands based on a multi‐armed bandit approach
- Author(s): Qinran Hu ; Nianchu Zhang ; Xiangjun Quan ; Linquan Bai ; Qi Wang ; Xinyi Chen
-
An integrated market solution to enable active distribution network to provide reactive power ancillary service using transmission–distribution coordination
- Author(s): Houhe Chen ; Haoyuan Li ; Chuqiao Lin ; Xiaolong Jin ; Rufeng Zhang ; Xue Li
-
Sizing approaches for solar photovoltaic‐based microgrids: A comprehensive review
- Author(s): Mobi Mathew ; Md Shafayet Hossain ; Sajeeb Saha ; Som Mondal ; Md Enamul Haque
-
Hierarchical energy management for community microgrids with integration of second‐life battery energy storage systems and photovoltaic solar energy
- Author(s): Youjun Deng ; Yongxi Zhang ; Fengji Luo ; Yunfei Mu
-
On the perspective of grid architecture model with high TSO‐DSO interaction
- Author(s): Pedro Betancourt‐Paulino ; Harold R. Chamorro ; Milad Soleimani ; Francisco Gonzalez‐Longatt ; Vijay K. Sood ; Wilmar Martinez