Multi-objective optimization for the superconducting bias coil of a saturated iron core fault current limiter using the T-A formulation

Santos, Gabriel dos; Sass, Felipe; Sotelo, Guilherme Gonçalves; Fajoni, Fernando Cardoso; Baldan, C.A.; Ruppert, Ernesto

doi:10.1088/1361-6668/abc8cf

Cited by 21 publications

(15 citation statements)

References 48 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Multiobjective design methodologies and seamlessly integrated simulation toolboxes: metaheuristic and evolutionary strategies, such as GAs [105], have already been used to design SFCL devices by multiobjective optimisation addressing distinct design parameters while complying with technical and economic requirements [103,106]. One such methodology relies on representing the SFCL by a reluctance-like circuit, whose characteristics depend on several parameters of the limiter.…”

Section: Advances In Science and Technology To Meet Challengesmentioning

confidence: 99%

Roadmap on artificial intelligence and big data techniques for superconductivity

Yazdani-Asrami

Song

Morandi

et al. 2023

Supercond. Sci. Technol.

View full text Add to dashboard Cite

This paper presents a roadmap to the application of AI techniques and big data for different modelling, design, monitoring, manufacturing and operation purposes of different superconducting applications. To help superconductivity researchers, engineers, and manufacturers understand the viability of using AI and big data techniques as future solutions for challenges in superconductivity, a series of short articles are presented to outline some of the potential applications and solutions. These potential futuristic routes and their materials/technologies are considered for a 10-20 years time-frame.

show abstract

Section: Advances In Science and Technology To Meet Challengesmentioning

confidence: 99%

Roadmap on artificial intelligence and big data techniques for superconductivity

Yazdani-Asrami

Song

Morandi

et al. 2023

Supercond. Sci. Technol.

View full text Add to dashboard Cite

show abstract

“…The coupling method proposed in [23] and applied in [6] provides a proper way to consider all the material non-linearities for both the superconductor and the ferromagnetic core (when present) while still allowing an easy coupling with electrical lumped-parameters systems in 2D and 3D. Through the FEM, the electrical parameters of the superconducting device are calculated and passed to the power grid model.…”

Section: Coupling Fem and External Electrical Circuitmentioning

confidence: 99%

“…Electrical equipment using High-Temperature Superconducting (HTS) materials are reaching maturity after more than two decades of research and development. Nowadays, devices like Fault-Current Limiters (FCL) [1][2][3][4][5][6], power cables [7,8], and electric machines [9,10] have been built, and in some cases, installed in electric networks. The HTS materials with the most potential to address simultaneously cost and technical requirements are the second generation (2G) wire (or tape).…”

Section: Introductionmentioning

confidence: 99%

Essential Material Knowledge and Recent Model Developments for REBCO-Coated Conductors in Electric Power Systems

2021

Self Cite

View full text Add to dashboard Cite

The manufacturing of commercial REBCO tapes, REBCO referring to Rare-earth barium copper oxide, has matured enough to lead to a variety of applications ranging from scientific instruments to electric power systems. In particular, its large current density with a high n index and low hysteresis losses make it a strong candidate for specific applications relying on the dependence of its resistance on current. Despite its advantages, there are still issues that remain to be addressed, such as the scarcity of experimental data for the basic characteristics of the superconductor over a wide range of temperature and applied magnetic field, the homogeneity of these characteristics along the conductor length, as well as the anisotropy of the critical current and n index with respect to the direction of the applied magnetic field. To better utilize the technology, it is therefore sensible to understand the relevancy of these issues so that one could simulate as accurately as possible the physics of the superconductor, at least the dynamics that may impact the correct operation of the superconducting device. There are different levels of modelling to achieve such a goal that can either focus on the performance of the superconductor itself, or on the whole device. The present work addresses some of the latest developments in the modelling of commercial REBCO tapes in power systems with a particular focus on the thermoelectric behavior of superconducting devices connected to external circuits. Two very different approaches corresponding to two different scales in the modelling of superconducting devices are presented: (1) analysis using equivalent models and lumped parameters to study the thermoelectric response of superconducting devices as a whole, (2) Finite Element Analysis (FEA) to compute distributed fields such as current density, magnetic flux density and local losses in tapes. In this context, this paper reviews both approaches and gives a broad variety of examples to show their practical applications in electric power systems. Firstly, they show the relevance of the technology in power systems engineering. Secondly, they allow inferring the necessary level of model details to optimize the operation of superconducting power devices in power grids. This level of details relies completely on the knowledge of some basic measurable properties of superconducting tapes (critical current and n index) and their cooling conditions.

show abstract

“…This method couples T and A formulations and can effectively solve the analysis of large-scale HTS systems. With the further study of T-A formulation [15], the application field of T-A formulation has become more and more widely, including superconducting motor [16][17], superconducting fault current limiter [18], superconducting cable [19], superconducting flux pump [20]. However, the application of T-A formulation in superconducting transformer has not been involved.…”

Section: Introductionmentioning

confidence: 99%

Analysis of Electromagnetic Characteristics of 6.5 MVA/25 kV HTS Traction Transformer Using T–A Formulation

Liao

Fang

Zhao

et al. 2023

IEEE Trans. Appl. Supercond.

View full text Add to dashboard Cite

Low AC loss of the winding of high-capacity high temperature superconducting (HTS) traction transformer is a very important link to introduce large capacity traction transformer into commercialization. A new winding structure is proposed for the transformer. The HV windings are made of double pancake coils (DPCs), which are wound by 4.8 mm-wide tapes, and the LV windings, which are wound by 12 mm-wide tapes, are solenoid coils. The electromagnetic characteristics of the new winding structure of the traction transformer are analyzed by H-formulation homogenization method and T-A formulation homogenization method respectively. Significant HTS tape cost reduction could be achieved without compromising AC loss by using hybrid windings into the new winding structure. We report that the H-formulation homogenization model and T-A formulation homogenization model are used to calculate the AC loss of the new winding structure with flux diverters (FDs) at the end. The results meet the design requirements of less than 2 kW, which shows the feasibility of the new winding structure. Due to the good convergence of H-formulation and poor convergence of T-A formulation under the homogenization model of the transformer, no one has used T-A formulation to calculate the electromagnetic characteristics of the transformer before. Due to the simplicity of T-A formulation applied to large-scale superconducting system, a new form of mesh generation is proposed to improve the convergence and accuracy of T-A formulation homogenization model calculation of the transformer in this paper. This paper verifies the correctness of the calculation of HTS transformer by T-A formulation, and provides a reference for the application of T-A formulation in more superconducting fields.

show abstract

Multi-objective optimization for the superconducting bias coil of a saturated iron core fault current limiter using the T-A formulation

Cited by 21 publications

References 48 publications

Roadmap on artificial intelligence and big data techniques for superconductivity

Roadmap on artificial intelligence and big data techniques for superconductivity

Essential Material Knowledge and Recent Model Developments for REBCO-Coated Conductors in Electric Power Systems

Analysis of Electromagnetic Characteristics of 6.5 MVA/25 kV HTS Traction Transformer Using T–A Formulation

Contact Info

Product

Resources

About