Optimal Design of Isolated Mini-Grids with Deterministic Methods: Matching Predictive Operating Strategies with Low Computational Requirements

Micangeli, Andrea; Fioriti, Davide; Cherubini, Paolo; Martínez, Pablo Dueñas

doi:10.3390/en13164214

Cited by 12 publications

(1 citation statement)

References 30 publications

(73 reference statements)

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“…These algorithms use different objective functions to utilize renewable resources as much as possible. For this purpose, it is possible to minimize functions like the power produced by diesel generator (genset) in a defined time interval [3], [26], the total investment and operating cost [8] - [10], [17] - [20], [23], [31], [32], the levelized cost of electricity, greenhouse gas emissions [5], [30], and the probability of power outage [7]. As shown in Table I, the current trend is using financial indicators as a decision-making criterion for the design of microgrid, while the technical requirements are incorporated through optimization constraints.…”

Section: Introductionmentioning

confidence: 99%

Optimal Design of Hybrid Microgrid in Isolated Communities of Ecuador

A. Pesantes,

Hidalgo-Leon,

Rengifo

et al. 2024

Journal of Modern Power Systems and Clean Energy

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In rural territories, the communities use energy sources based on fossil fuels to supply themselves with electricity, which may address two main problems: greenhouse gas emissions and high fuel prices. Hence, there is an opportunity to include renewable resources in the energy mix. This paper develops an optimization model to determine the optimal sizing, the total annual investment cost in renewable generation, and other operating costs of the components of a hybrid microgrid. By running a k-means clustering algorithm on a meteorological dataset of the community under study, the hourly representative values become input parameters in the proposed optimization model. The method for the optimal design of hybrid microgrid is analyzed in six operating scenarios considering: ① 24-hour continuous power supply; ② load shedding percentage; ③ diesel power generator (genset) curtailment; ④ the worst meteorological conditions; ⑤ the use of renewable energy sources including battery energy storage systems (BESSs)； and ⑥ the use of genset. A mathematical programming language (AMPL) tool is used to find solutions of the proposed optimization model. Results show that the total costs of microgrid in the scenarios that cover 100% of the load demand (without considering the scenario with 100% renewables) increase by over 16% compared with the scenario with genset operation limitation. For the designs with power supply restrictions, the total cost of microgrid in the scenario with load shedding is reduced by over 27% compared with that without load shedding.

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Section: Introductionmentioning

confidence: 99%

Optimal Design of Hybrid Microgrid in Isolated Communities of Ecuador

A. Pesantes,

Hidalgo-Leon,

Rengifo

et al. 2024

Journal of Modern Power Systems and Clean Energy

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A Comprehensive Review of Nature-Inspired Search Techniques Used in Estimating Optimal Configuration Size, Cost, and Reliability of a Mini-grid HRES: A Systemic Review

Frimpong

Millham

Agbehadji

2021

Computational Science and Its Applications – ICCSA 2021

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Reliability-based sizing of islanded multi-energy microgrid: a conic chance-constrained optimization approach

Camargo-Berrueco,

Mejía-Giraldo,

Lemos-Cano

2024

Energy Syst

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This paper presents a methodology to optimally design a multi-energy microgrid with thermal and electric loads considering $$N-1$$ N - 1 and probabilistic regulation reserves. This methodology consists of a chance-constrained optimization that determines the optimal sizing of the microgrid. Microgrid operations are rigorously considered by modelling hourly thermal and electric demand patterns as well as technology production schedules over a year. Such schedules include both electric and thermal power balances, ramp constraints, $$N-1$$ N - 1 and regulation reserves, among others. To ensure a reliable microgrid design and operation, reserve constraints have been proposed to deal with both $$N-1$$ N - 1 generation contingencies, and forecast errors. $$N-1$$ N - 1 reserves guarantee that a sudden outage of any of the electric generators is strategically covered by the remaining generators in order to avoid load shedding. Additionally, nonzero-mean random forecast errors of electric load and solar production are addressed by a set of chance constraints able to schedule asymmetric up and down regulation reserves. Their levels are high enough to cover hourly random forecast errors (or intermittencies) with a high threshold probability. The proposed methodology results in a mixed integer second-order cone program. Results of microgrid designs with and without reliability reserves are carefully analysed and compared. Neglecting reliability constraints leads to a lower-cost design at the expense of exposing the microgrid to unsafe operation. Finally, sensitivity analysis to study the optimal portfolio sizing with respect to electric BESS investment cost, solar production forecast mean error, and random intermittency threshold probability are performed.

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Optimal Design of Isolated Mini-Grids with Deterministic Methods: Matching Predictive Operating Strategies with Low Computational Requirements

Cited by 12 publications

References 30 publications

Optimal Design of Hybrid Microgrid in Isolated Communities of Ecuador

Optimal Design of Hybrid Microgrid in Isolated Communities of Ecuador

A Comprehensive Review of Nature-Inspired Search Techniques Used in Estimating Optimal Configuration Size, Cost, and Reliability of a Mini-grid HRES: A Systemic Review

Reliability-based sizing of islanded multi-energy microgrid: a conic chance-constrained optimization approach

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