Genetic algorithm based wheeling prices allocation for Indian power utility by using MVA-mile and MW-mile approaches

Saxena, Abhishek; Pandey, Seema N.; Srivastava, Laxmi

doi:10.1109/iceteeses.2016.7581353

Cited by 4 publications

(6 citation statements)

References 14 publications

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“…Sedangkan penelitian penggunaan flower pollination algorithm untuk alokasi kontribusi suplai daya aktif pada sistem sebagai dasar perhitungan biaya dilakukan pada [88]. Alokasi biaya wheeling berbasis MW mile dengan algoritme genetika dilakukan pada [89]. Pemanfaatan gravitational search algorithm untuk alokasi losses pada jaringan transmisi dilakukan pada [90].…”

Section: Mekanisme Alokasi Biayaunclassified

Review Perhitungan Biaya Wheeling (Wheeling Cost Calculation Review)

Wijoyo

Hadi

Sarjiya

2020

JNTETI

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Wheeling is a solution to the complexity of transmission network constructing problem. With the wheeling concept, a power plant owner can deliver electricity to its load without having to construct a transmission network. The owner of the power plant can utilize the transmission network belonging to other entities. The wheeling concept is an interesting thing in terms of increasing current renewable energy penetration. This is due to the construction of the transmission network, which is one of the obstacles in increasing renewable energy penetration. Fairness of wheeling costs is still one important topic. The discussion regarding wheeling costs emphasizes that the costs charged to each party involved can meet the fairness principle, which is in accordance with their respective contributions to the implementation of wheeling. Broadly speaking, research related to wheeling can be grouped into research for developing wheeling cost calculation methods and research for developing wheeling cost allocation methods. The development of the wheeling cost calculation method also includes the development of cost components that can be included in the cost calculation. This study summarizes the discussion of wheeling costs on three aspects, namely calculation methods, cost components, and cost allocation mechanisms.

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Section: Mekanisme Alokasi Biayaunclassified

Review Perhitungan Biaya Wheeling (Wheeling Cost Calculation Review)

Wijoyo

Hadi

Sarjiya

2020

JNTETI

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“…In terms of 'MW-Mile', there are various expressions shown in previous studies [4][5][6]12], but quantifying wheeledpower and wheeling distance are the two critical factors. Some adaptations of the 'MW-Mile' definitions are presented as followings, from [4]:…”

Section: Mw-mile Methods For Evaluating Wheeling Chargesmentioning

confidence: 99%

“…In this study, the shared PV power would pass through related feeders one after the other based on the radial nature of typical Australian LV distribution networks, so the accumulation of wheeling cost for each related feeder is a reasonable approach to evaluating the full wheeling cost under the scenario considered in this study. In addition, for simplified evaluation of financial assessment, this study calculates the cost applied to each feeder using Cf as shown in (4). Therefore, (4) is adopted for the relevant calculations in each case study.…”

Section: Mw-mile Methods For Evaluating Wheeling Chargesmentioning

confidence: 99%

“…This paper will demonstrate solar PV power sharing crossing multi-DSPs while applying typical daily profiles of PV system output matched against building demand. The MW-Mile method is adopted for the economic evaluation of wheeling cost [4][5][6], and 'generation matrix' method is used to identify the contributions of multi-generators, where applicable [7]. This paper combines these two methodologies to evaluate the potential wheeling costs associated with using LV distribution systems to share PV power.…”

Section: Introductionmentioning

confidence: 99%

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Identifying the wheeling costs associated with solar sharing in LV distribution networks in Australia using power flow tracing and MW-Mile methodology

Robinson

Agalgaonkar

2017

2017 Australasian Universities Power Engineering Conference (AUPEC)

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PV systems, as one type of distributed generation, have been popularly applied to residential and commercial power supply systems for compensating grid electricity consumption. Schemes for sharing PV power within LV distribution networks have also begun to develop, with the aim to more widely spread the benefits of utilizing localized renewable-generated electricity. Consequently, to utilize the local LV distribution network, there is an argument that customers (both small scale generators and consumers) should pay a 'wheeling charge' to utilities for grid services related to the transport of energy, similar to their transmission counterparts. This paper presents some of the existing issues related to implementing a 'wheeling charge' for network services raised in the process of sharing locally generated PV power in a LV distribution system. Two methodologies: 'generation matrix', based on proportional sharing principle; and 'MW-Mile', based on network losses, have been combined to cover the economic operation and tracing of energy supplied by a PV generator and transported through the local LV distribution network. An evaluation of the potential costs of using the LV distribution network including daily PV output and building load demand is provided, utilising a case study. Abstract-PV systems, as one type of distributed generation, have been popularly applied to residential and commercial power supply systems for compensating grid electricity consumption. Schemes for sharing PV power within LV distribution networks have also begun to develop, with the aim to more widely spread the benefits of utilizing localized renewable-generated electricity. Consequently, to utilize the local LV distribution network, there is an argument that customers (both small scale generators and consumers) should pay a 'wheeling charge' to utilities for grid services related to the transport of energy, similar to their transmission counterparts. This paper presents some of the existing issues related to implementing a 'wheeling charge' for network services raised in the process of sharing locally generated PV power in a LV distribution system. Two methodologies: 'generation matrix', based on proportional sharing principle; and 'MW-Mile', based on network losses, have been combined to cover the economic operation and tracing of energy supplied by a PV generator and transported through the local LV distribution network. An evaluation of the potential costs of using the LV distribution network including daily PV output and building load demand is provided, utilising a case study.

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“…To overcome this problem, the owner of the load and the generator can use the existing utility's transmission system. The concept of using an existing transmission system from other parties to transmit one's electricity is referred to as power wheeling [9], and the involved parties are referred to as actors. The power wheeling scheme can also increase the penetration of renewable energy [10] and smart grids [11].…”

Section: Introductionmentioning

confidence: 99%

Applied Power Wheeling Concept Considering Site-Specific and Variability of VRE under Contingency Events

Wijoyo,

Hadi,

Sarjiya

2023

Sustainability

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Unlike non-variable renewable energy (VRE) generators, VRE generators have site-specific, various, and uncertain characteristics that require different approaches for power wheeling cost calculations. The conventional power wheeling method cannot be used to accommodate the variability and site specificity of VRE. This study aims to develop a power wheeling calculation method that accommodates the variability and site specificity of VRE by comparing the postage stamp and MW mile methods in a multi-period optimal power flow simulation. The impact of line contingencies on the total power wheeling cost is also assessed. The simulation uses a modified IEEE 39 bus system as the test network, with three study cases centered on assessing the impacts of variability, site specificity, and line contingency. Based on the simulation, it is understood that the pivotal power wheeling cost is the line used by power wheeling actors, as there are cheaper and more expensive lines. Therefore, the total power wheeling cost is less affected by variability and more affected by the site specificity of VRE. On the other hand, because of the meshed network being employed as the test case, line contingency results in a lower cost for power wheeling actors to use fewer and cheaper lines.

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Genetic algorithm based wheeling prices allocation for Indian power utility by using MVA-mile and MW-mile approaches

Cited by 4 publications

References 14 publications

Review Perhitungan Biaya Wheeling (Wheeling Cost Calculation Review)

Review Perhitungan Biaya Wheeling (Wheeling Cost Calculation Review)

Identifying the wheeling costs associated with solar sharing in LV distribution networks in Australia using power flow tracing and MW-Mile methodology

Applied Power Wheeling Concept Considering Site-Specific and Variability of VRE under Contingency Events

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