Migration and attacking prey.

Migration and attacking prey.

<div><p>Recent research has concentrated on emphasizing the significance of incorporating renewable distributed generations (RDGs), like photovoltaic (PV) and wind turbines (WTs), into the distribution system to address issues related to distributed generation (DG) allocation. The key im...

وصف كامل

محفوظ في:
التفاصيل البيبلوغرافية
المؤلف الرئيسي: Ahmed A. Zaki Diab (12757190) (author)
مؤلفون آخرون: Fayza S. Mahmoud (20988489) (author), Hamdy M. Sultan (20760049) (author), Abou-Hashema M. El-Sayed (20988492) (author), Mohamed A. Ismeil (19066118) (author), Omar Makram Kamel (20988495) (author)
منشور في: 2025
الموضوعات:
Medicine
Genetics
Biological Sciences not elsewhere classified
Mathematical Sciences not elsewhere classified
various optimization algorithms
seagull optimization algorithm
proposed optimization methods
loss sensitivity factor
address issues related
photovoltaic distributed generations
69 buses rds
two distinct networks
selected candidate nodes
power quality indices
radial distributed systems
larger rds system
various optimization techniques
integrating rdgs include
bus ieee system
achieve optimal allocation
rds ).
distributed generation
two phases
tested system
suitable nodes
power losses
optimal location
integrating rdgs
ieee 33
distribution system
15 bus
wts ),
wind turbines
voltage profiles
voltage profile
utilized techniques
soa ),
second phase
results show
real case
present paper
key implications
initial phase
igwo ),
first phase
efficient placement
effective solutions
dg systems
comprehensive comparison
attainments compared
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الوصف
الملخص:<div><p>Recent research has concentrated on emphasizing the significance of incorporating renewable distributed generations (RDGs), like photovoltaic (PV) and wind turbines (WTs), into the distribution system to address issues related to distributed generation (DG) allocation. The key implications of integrating RDGs include the improvement of voltage profiles and the minimization of power losses. Various optimization techniques, namely Salp Swarm Algorithm (SSA), Marine Predictor Algorithm (MPA), Grey Wolf Optimizer (GWO), Improved Grey Wolf Optimizer (IGWO), and Seagull Optimization Algorithm (SOA), have been applied to achieve optimal allocation and sizing of RDGs in radial distributed systems (RDS). The present paper is structured in two phases. In the initial phase, the Loss Sensitivity Factor (LSF) is employed to identify the most suitable nodes for integrating RDGs. In the second phase, within the selected candidate nodes from the first phase, the optimal location and capacity of RDGs are determined. Additionally, a comprehensive comparison of the proposed optimization methods is conducted to select the most effective solutions for the allocation of units of RDGs. The efficacy of the utilized techniques is validated through testing on two distinct networks, namely the IEEE 33 and 69 buses RDS in MATLAB, with attainments compared against other techniques. Moreover, a larger RDS system of 118- bus IEEE system has been considered in order to enhance its power quality indices. Moreover, a real case of study from Egypt of 15 bus has been considered and evaluated with considering the applied techniques. The results show the enhancement of the voltage profile and decreasing the power losses of the tested system with the DG systems with the superiority of the MPA and SSA algorithms.</p></div>

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