Strategic design optimisation of multi-energy-storage-technology micro-grids considering a two-stage game-theoretic market for demand response aggregation

“…Also, a techno-economic comparative analysis of conventional grid extension with the decentralized renewable system is performed considering geographical limitationsEconomic indices2021 44 ChinaComputational general equilibrium (CGE) model, China hybrid energy and economic research with household (CHEER-H) modelResidential energy systemStudies the aspects of household energy consumption to explore the advantages of including an incentive-based carbon-reducing policy in ChinaEconomic indices, carbon emission2021 45 Hong KongMulti-objective optimization integrated with TRNSYS18 and jEplus + EA softwareMicrogrid system with renewables (PV, wind), hydrogen vehicles and battery storage system for communities and residential buildingsDevelops a grid-penalty economic model for a hybrid renewable microgrid system for various community and building applications. Performs a techno-economic assessment considering different scenarios with mobile hydrogen vehicles, stationary storage and renewable sourcesEconomic indices, carbon emission2021 46 New ZealandMulti-objective optimizationCommunity multi-energy grid-connected microgrid systemA long-term market-driven planning microgrid based on continuous power trading employing various storage technologiesEconomic indices2021 47 BangladeshMultinomial logit modelPV mini-grid system for rural householdStudies the impacts of demographics, education, income and infra in off-grid system design for rural areas. Suggests some policy for government entities for energy access and transition towards clean energy systemsEconomic indices2021 48 KenyaEmpirical modelPV based residential systemA detailed study explores various scenarios to electrify rural households using clean energy sources with an extensive comparison with grid extensions.…”

A sustainable rural electrification based on a socio-techno-economic-environmental-political microgrid design framework

“…Also, a techno-economic comparative analysis of conventional grid extension with the decentralized renewable system is performed considering geographical limitationsEconomic indices2021 44 ChinaComputational general equilibrium (CGE) model, China hybrid energy and economic research with household (CHEER-H) modelResidential energy systemStudies the aspects of household energy consumption to explore the advantages of including an incentive-based carbon-reducing policy in ChinaEconomic indices, carbon emission2021 45 Hong KongMulti-objective optimization integrated with TRNSYS18 and jEplus + EA softwareMicrogrid system with renewables (PV, wind), hydrogen vehicles and battery storage system for communities and residential buildingsDevelops a grid-penalty economic model for a hybrid renewable microgrid system for various community and building applications. Performs a techno-economic assessment considering different scenarios with mobile hydrogen vehicles, stationary storage and renewable sourcesEconomic indices, carbon emission2021 46 New ZealandMulti-objective optimizationCommunity multi-energy grid-connected microgrid systemA long-term market-driven planning microgrid based on continuous power trading employing various storage technologiesEconomic indices2021 47 BangladeshMultinomial logit modelPV mini-grid system for rural householdStudies the impacts of demographics, education, income and infra in off-grid system design for rural areas. Suggests some policy for government entities for energy access and transition towards clean energy systemsEconomic indices2021 48 KenyaEmpirical modelPV based residential systemA detailed study explores various scenarios to electrify rural households using clean energy sources with an extensive comparison with grid extensions.…”

A sustainable rural electrification based on a socio-techno-economic-environmental-political microgrid design framework

“…The reviewed studies have analysed the infrastructure required for renewable energy generation, such as the required number of turbines for a tidal energy power plant [17]. Other reviewed studies estimated the infrastructure required to transition to low-carbon micro-grid electricity systems, not considering the upgrade of the electricity transmission system [11]- [15]. On the other hand, Transpower [19], which operates the national transmission network, presented the current components of the transmission network in the country and future projections to increase electricity transfer and meet future demand.…”

Considering Material Cycles for a Transition to Low-Carbon Energy Systems in Aotearoa/New Zealand: A Systematic Review

“…The economic objective function of the DES aggregation group should consider its own general constraints. The specific constraints can be seen in Equations ()–(10) and (15).…”

“…[13,14] optimize the solving algorithms on the basis of the above, and respectively proposed a four-dimensional optimization algorithm based on the teaching-learning based optimization (TLBO) method, and a hybrid meta-heuristic optimization algorithm that deals with the management strategies, to more accurately adapt to investment and durability model of battery energy storage system. In [15], considering the demand response aggregation model, the article develop a two-stage dispatch model for multi-energystorage-technology micro-grids with game-theoretic theory, in which the ES plays the role of maintaining the energy balance of the microgrid and supplementing the revenue of the microgrid from electricity sales. In China, DESs are connected to the provincial power dispatch centre through a dedicated dispatch data network currently, and the cost of access is relatively high.…”

Aggregate regulation strategy of distributed energy storage under power spot market in China