Combined energy hub optimisation and demand side management for buildings

Batić, Marko; Tomašević, Nikola; Beccuti, Giovanni; Demiray, Turhan; Vraneš, Sanja

doi:10.1016/j.enbuild.2016.05.087

Cited by 64 publications

(24 citation statements)

References 31 publications

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“…Demand response using load shifting flattens load curve and reduces total cost and emission of EH. Reference [81] combines the supply-side characteristics of the EH with the demand-side flexibility brought by the demand response schemes, and models the energy supply system of the building as an EH with its heat demand modeled according to the laws of thermodynamics. The effects of different demand response schemes (load shedding and shifting) with and without wind power and energy storage in the integrated energy systems are compared in [82].…”

Section: Integrated Energy Systemsmentioning

confidence: 99%

From demand response to integrated demand response: review and prospect of research and application

Huang

Zhang

Chen

et al. 2019

Prot Control Mod Power Syst

210

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In the traditional power system demand response, customers respond to electricity price or incentive and change their original power consumption pattern accordingly to gain additional benefits. With the development of multienergy systems (MES) in which electricity, heat, natural gas and other forms of energy are coupled with each other, all types of energy customers are able to participate in demand response, leading to the concept of integrated demand response (IDR). In IDR, energy consumers can response not only by reducing energy consumption or opting for off-peak energy consumption but also by changing the type of the consumed energy. Taking the traditional demand response in power system as a starting point, the studies of the fundamental theory, framework design and potential estimation of demand response in power system are reviewed, and the practical cases and software development of demand response are introduced. Finally, the current theoretical research and application of IDR are assessed.

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Section: Integrated Energy Systemsmentioning

confidence: 99%

From demand response to integrated demand response: review and prospect of research and application

Huang

Zhang

Chen

et al. 2019

Prot Control Mod Power Syst

210

View full text Add to dashboard Cite

show abstract

“…Future demand response and its economic potential were investigated through a modelling approach in Germany [27]. As an energy management solution, an energy hub framework along with DSM methods was proposed for buildings in Serbia [28]. To identify electricity usage patterns in residences, a system to save electricity is proposed in Taiwan [29].…”

Section: Dsm In Developed and Developing Countriesmentioning

confidence: 99%

Energy-saving behaviour as a demand-side management strategy in the developing world: the case of Bangladesh

Khan

2019

Int J Energy Environ Eng

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Although demand-side management (DSM) needs to be more customer centred, either with or without smart technologies (e.g. smart grid), less attention has been paid to the developing world in relation to DSM strategy development. The main reasons have been lack of appropriate technology and capital costs. Importantly, there are alternative DSM strategies that require minimum or no cost to implement and provide immediate results, of which energy-saving behaviour of the occupants at residences is one. This study explores the potentiality of this energy-saving behaviour as a DSM strategy for the least developed economies, focusing particularly on Bangladesh. The literature suggests that energy-saving behaviour could reduce energy demand by a maximum of 21.9%. However, this potential DSM scheme seems underestimated in the national DSM programme of Bangladesh. The Energy Efficiency and Conservation Master Plan (EECMP) of Bangladesh (a DSM program) shows that efficiency improvement in the use of home appliances could reduce electricity demand in the residential sector by about 28.8%, but this does require a long time to be implemented, whereas the inclusion of energy-saving behaviour as a demand response strategy in residences along with the EECMP might achieve demand reduction of up to 50.7%. Although the findings from this study are specific to Bangladesh, these could be useful guidelines for the policymakers of other developing nations where national DSM strategy development is underway.

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“…Some authors consider it a promising option for energy management of Multi-Energy Systems (MES) [4], and its ins and outs have been scrutinized in several reviews on the concept itself [5], optimal management [6], uncertainty [7] or comprehensive approaches [8]. Particularly, it is possible to find several works in literature that address the management of MES in buildings using the EH concept, either with just control purposes (meeting the heating, cooling and electricity demands) [9], [10] or to design a new facility [11], [12].…”

Section: Introductionmentioning

confidence: 99%

Economic dispatch of a bioclimatic office building considering thermal energy, electricity and water demands

Ramos-Teodoro¹,

Castilla²,

Álvarez³

et al. 2020

REPQJ

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Energy and other resources management in production systems is a common topic in recent literature as many environmental and economic issues are related to the efficient use of their devices. In this sense, conversion and storage models based on input-output balances are helpful to determine the combination of resources that allow to operate a plant with the lowest possible cost. This paper is aimed at analyzing the optimal flows of resources that would meet the demands of a bioclimatic building, taking into account the characteristics of its facilities, which includes both photovoltaic modules and solar collectors to produce self-consumption electric and thermal energy. The simulation results for two different days of 2018 have been included. They verify the validity of the proposed model, which could be extended for carrying out analyses on similar buildings, modelled as an energy hub, in order to assess its optimality and proposing management policies.

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Combined energy hub optimisation and demand side management for buildings

Cited by 64 publications

References 31 publications

From demand response to integrated demand response: review and prospect of research and application

From demand response to integrated demand response: review and prospect of research and application

Energy-saving behaviour as a demand-side management strategy in the developing world: the case of Bangladesh

Economic dispatch of a bioclimatic office building considering thermal energy, electricity and water demands

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