Inter-regional market clearing of a power system with high PV penetration during a mid-day over-generation / Deepak Yadav
With the rapid growth of renewable energy (REs) resources in the electricity sector, the system operators (SOs) are facing some major challenges related to security, market, and operations in power transmission. Since the government policies are providing subsidized and favorable terms; theref...
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| Format: | Thesis |
| Published: |
2022
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| Subjects: | |
| Online Access: | http://studentsrepo.um.edu.my/14864/1/Deepak.jpg http://studentsrepo.um.edu.my/14864/8/deepak.pdf http://studentsrepo.um.edu.my/14864/ |
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| Summary: | With the rapid growth of renewable energy (REs) resources in the electricity sector, the
system operators (SOs) are facing some major challenges related to security, market, and
operations in power transmission. Since the government policies are providing subsidized
and favorable terms; therefore, the investors are highly keen on the installation of REs in the
power networks. Altogether, the REs wouldn’t be available 24 hours. Hence, the modern and
upcoming power markets need to exchange power between different networks or regions
(inter-regional) to meet the growing demands. The higher penetration of REs could cause
overgeneration into the system due to low demands on the power systems, especially during
mid-days. Therefore, inter-regional or inter-power markets strategies are the need in the
present power systems to address the market clearing problems during the mentioned
situation. In the present work, the locational marginal pricing (LMP) based solution
methodology has been proposed to resolve the problem of market clearing in the power
system during overgeneration. The objective function for the identified problem has been
formulated using optimal power flow technique and solved through Interior Point Method
(IPM). The interconnection of IEEE-9 & IEEE-5 bus systems and IEEE-118 & IEEE-57 bus
systems have been chosen to create the inter-regional marketplaces. The proposed LMP based solution methodology has been implemented on these marketplaces. The obtained test results show that the proposed methodology provides an economic and efficient solution for
the highly PV penetrated power system. |
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