A conceptual model of a smart energy management system for a residential building equipped with CCHP system

Farmani, Farid; Parvizimosaed, Mehdi; Monsef, Hassan; Rahimi-Kian, Ashkan

doi:10.1016/j.ijepes.2017.09.016

Cited by 79 publications

(23 citation statements)

References 32 publications

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“…Yujie Wang et al [36] presented their rule-based energy management strategy based on the power prediction of a lithium-ion battery and a supercapacitor. Farid Farmani et al [37] proposed a conceptual model for the residential building energy management system having CCHP. F. Wang, Lidong Zhou et al [38] introduced their building energy management system considering the unit-price demand-response and other factors such as energy resources, load or storage that change according to time zones.…”

Section: Related Researchmentioning

confidence: 99%

An Efficient Micro Grid Optimization Theory

Jung

Yoon

2020

Mathematics

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A Micro Grid is an aggregate of many small-scale distributed energy resources (DERs); loads and can be operated independently or together with the existing power grid as a local power grid. The operator of such a grid takes charge of the energy supply and consumption of these resources and loads available in the grid. Meanwhile, the system operator of the grid considers the entire Micro Grid system to be a single load or a generator and assigns the responsibility of its internal management to the operator. The power production from a passive production resource is largely influenced by external environmental factors such as weather conditions, rather than operating conditions. Thus, this study conducted simulations for the cases where four kinds of conditional expressions had not been applied at all or one of them had been applied to compare and evaluate the effectiveness of each expression. As a result, the conditional equations were found to be effective when attempting to optimize the Micro Grids efficiently.

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Section: Related Researchmentioning

confidence: 99%

An Efficient Micro Grid Optimization Theory

Jung

Yoon

2020

Mathematics

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“…These systems are mainly based on sensors, actuators, software, and hardware networks [6,39]. Normally, buildings with few occupants (residential, and office buildings) may permit to interact with BEMS technologies via a human machine interface (HMI) [40] to control electrical appliances and HVAC system operation. These interactions could be restricted in institutional, commercial, and industrial buildings because of the large number of occupants, where each may posses a unique set point, resulting in higher energy consumption.…”

Section: Building Energy Management Systems-bemsmentioning

confidence: 99%

Intelligent Systems for Building Energy and Occupant Comfort Optimization: A State of the Art Review and Recommendations

Boodi

Beddiar²,

Benamour³

et al. 2018

Energies

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Today, buildings consume more than 40% of primary energy in and produce more than 36% of CO2. So, an intelligent controller applied to the buildings for energy and comfort management could achieve significant reduction in energy consumption while improving occupant’s comfort. Conventional on/off controllers were only able to automate the tasks in building and were not well suited for energy optimization tasks. Therefore, building energy management has become a focal point in recent years, promising the development of various technologies for various scenarios. This paper deals with a state of the art review on recent developments in building energy management system (BEMS) and occupants comfort, focusing on three model types: white box, black box, and gray box models. Through a comparative study, this paper presents pros and cons of each model.

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“…There are various types of SFCLs, which generally can beclassified into resistive and inductive types [28,29]. Each type of SFCL has its merits and demerits.The resistive type SFCL isused more due to its compact size and simple principle of operation than inductive type SFCL [30][31][32].…”

Section: A Resistive-type Sfclmentioning

confidence: 99%

Application of Optimized SFCL and STATCOM for theTransient Stability and LVRTCapability Enhancement of Wind Farms

Atuwo

2018

IJRE

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In this paper, the combined superconducting fault current limiter (SFCL) and STATCOM are used to improve transient stability and low-voltage ride-through (LVRT) capability of the wind turbine generation system (WTGS). The SFCL absorbs the accelerating energy of the generator, and therefore, improves the WTGS transient stability. Also, STATCOM helps the restore connecting point voltage to improve LVRT capability by reactive power compensation (RPC) after fault clearing. The optimization problem of SFCL resistance and STATCOM capacity is formulated based on the transient stability and LVRT capability of WTGS. The Simulation study shows the superior improving LVRT capability of combined SFCL and STATCOM over individual SFCL or STATCOM. Also, the required capacity of STATCOM for RPC is significantly reduced. PSCAD/EMTDC software (V4.2) is used for simulation.

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A conceptual model of a smart energy management system for a residential building equipped with CCHP system

Cited by 79 publications

References 32 publications

An Efficient Micro Grid Optimization Theory

An Efficient Micro Grid Optimization Theory

Intelligent Systems for Building Energy and Occupant Comfort Optimization: A State of the Art Review and Recommendations

Application of Optimized SFCL and STATCOM for theTransient Stability and LVRTCapability Enhancement of Wind Farms

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