Optimal Design of Hybrid Renewable Energy Generation Sources Integrated with Battery Energy Storage System; A Case Study of Nongplathao Park, Chaiyaphum Provincial Administration Organization, Thailand

Chaleekure, Montre; Boonraksa, Terapong; Junhuathon, Nitikorn; Marungsri, Boonruang

doi:10.2991/iceea-18.2018.18

Cited by 3 publications

(2 citation statements)

References 7 publications

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“…Moreover, for a microgrid to function well, system reliability must be fixed, power must be anticipated, and contingencies must be avoided. Utilizing energy storage devices for microgrids aids in resolving unexpected RES issues [51].…”

Section: Microgridsmentioning

confidence: 99%

Optimizing Smart Energy Infrastructure in Smart Ports: A Systematic Scoping Review of Carbon Footprint Reduction

Issa Zadeh,

Esteban Perez,

López-Gutiérrez

et al. 2023

JMSE

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To lessen the environmental impact of the maritime industry, ports must decarbonize in conformity with various standards such as the European Green Deal and the Sustainable Development Goals (SDGs). In this regard, they must demonstrate integrated low-emission energy production, distribution, and supply, as well as sustainable alternative infrastructure for refueling ships, cargo handling equipment, and other vehicles inside port boundaries. To address this issue, ports must progress toward smartening their operations. This requires intelligent infrastructure and components, with smart energy infrastructure being one of the most crucial ones. It is a part of port energy management systems (EMSs) and works based on modern technology to balance energy demand, distributions, and supply while transitioning to renewable energies. This study investigates the “scoping review” of “smart energy infrastructure” deployment and its efficiency in seaport EMSs to reduce the port’s carbon footprint (C.F). The “Introduction” section discusses the subject’s significance. The “Materials and Methods” section explains the process of selecting and revising references and relevant material. The “Findings” section then examines the several aspects and sections of a smart port and smart energy infrastructure, as well as how they function. The “Discussion” section explains the interpretation based on the present situation. Finally, the “Conclusion” part gives scientific thoughts and comments on the work-study debate and ideas for future research in the same field to help port authorities achieve sustainability.

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Section: Microgridsmentioning

confidence: 99%

Optimizing Smart Energy Infrastructure in Smart Ports: A Systematic Scoping Review of Carbon Footprint Reduction

Issa Zadeh,

Esteban Perez,

López-Gutiérrez

et al. 2023

JMSE

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“…Wearable and implanted sensors and electronics have benefited from several recent developments in materials and technologies, but really advanced sensing and progressive surveillance have to be sustainable, battery-free, or biocompatible clinical equipment. A diversity of non-battery sources of energy, such as mechanical energy, electromagnetic energy, biofuels, thermoelectricity, wireless power transmission, and triboelectricity, are summarized by Chaleekure, Boonraksa, Junhuathon, and Marungsri [14], for use inbatteryless, wearable devices. Implantable devices, unlike wearables, place a greater emphasis on the power solution and provide more challenges.…”

Section: Wearable/implantable Neural Interface Devicesmentioning

confidence: 99%

Advances and Development of Electronic Neural Interfaces

Xue

Liu

2023

JCNS

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The discipline of neural engineering is working to enhance the functional and stability lifespan of present implanted neuroelectronic interfaces by developing next-generation interfaces employing biologically-derived and biologically-inspired materials. Humans and robots may exchange information using input devices like keyboards and touchscreens. Future information sharing may be facilitated through neural interfaces that provide a more direct electric connection between digital (man-made) systems and analog nerve systems. This paper presents the history and development of electronic brain interface; and classifies and analyzes the interfaces into four generations based on the technical landmarks within the electronic sensor interface and its evolution, including the patch clamp method, integrated neural interfaces, wearable or implantable neural interfaces, and multi-based neural interfaces. In this paper, we also discuss the potential presented by cutting-edge technology and critical system and circuit problems in the neural interface model.

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Fostering Energy Resilience in the Rural Thai Power System—A Case Study in Nakhon Phanom

Hart¹,

Breitner²

2022

Energies

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With rising electricity demand, heavy reliance on imports, and recent economic downturns due to the negative impact of the COVID-19 pandemic, supply chain bottlenecks, and the Russian invasion of Ukraine, Thailand is suffering severely from energy resilience risks. The government has therefore set a goal of decentralizing energy production through small-scale distributed renewable energy systems. To support their design and the planning process, we simulate multiple scenarios with wind turbines, photovoltaic systems, and battery storage for a model community in rural Nakhon Phanom, Thailand. Using the software NESSI4D, we evaluate and discuss their impact on energy resilience by considering environmental sustainability, economic attractiveness, and independence from the central power grid. To fill the gap of missing data on energy demand, we synthesize high-resolution load profiles from the Thailand Vietnam Socio-Economic Panel. We conclude that distributed photovoltaic systems with additional battery storage are only suitable to promote energy resilience if the government provides appropriate financial incentives. Considering temporal variations and local conditions, as well as a participatory decision-making process, are crucial for the long-term success of energy projects. Our advice to decision-makers is to design policies and regulatory support that are aligned with the preferences and needs of target communities.

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Optimal Design of Hybrid Renewable Energy Generation Sources Integrated with Battery Energy Storage System; A Case Study of Nongplathao Park, Chaiyaphum Provincial Administration Organization, Thailand

Cited by 3 publications

References 7 publications

Optimizing Smart Energy Infrastructure in Smart Ports: A Systematic Scoping Review of Carbon Footprint Reduction

Optimizing Smart Energy Infrastructure in Smart Ports: A Systematic Scoping Review of Carbon Footprint Reduction

Advances and Development of Electronic Neural Interfaces

Fostering Energy Resilience in the Rural Thai Power System—A Case Study in Nakhon Phanom

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