01088nam a2200289 i 450099100091678970753620020507175820.0970806s1996 us ||| | eng 3110146177b10775468-39ule_instLE01304284ExLDip.to Matematicaeng515.7AMS 46-06Dierolf, Susanne535452Functional analysis :proceedings of the first international workshop held at Trier University, Germany, September 26-October 1, 1994 /editors Susanne Dierolf, Seán Dineen, Pawel DománskiNew York :1996x, 473 p. ;25 cm.Functional analysisCongressesDineen, SeánDomanski, Pawel.b1077546802-04-1428-06-02991000916789707536LE013 46-XX DIE11 (1996)12013000088211le013-E0.00-l- 015710.i1087432x28-06-02Functional analysis922862UNISALENTOle01301-01-97ma -engus 0103918nam 2200793z- 450 991055734990332120220111(CKB)5400000000042391(oapen)https://directory.doabooks.org/handle/20.500.12854/76903(oapen)doab76903(EXLCZ)99540000000004239120202201d2021 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierEnergy Management of Prosumer CommunitiesBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20211 online resource (122 p.)3-0365-2058-9 3-0365-2057-0 The penetration of distributed generation, energy storages and smart loads has resulted in the emergence of prosumers: entities capable of adjusting their electricity production and consumption in order to meet environmental goals and to participate profitably in the available electricity markets. Significant untapped potential remains in the exploitation and coordination of small and medium-sized distributed energy resources. However, such resources usually have a primary purpose, which imposes constraints on the exploitation of the resource; for example, the primary purpose of an electric vehicle battery is for driving, so the battery could be used as temporary storage for excess photovoltaic energy only if the vehicle is available for driving when the owner expects it to be. The aggregation of several distributed energy resources is a solution for coping with the unavailability of one resource. Solutions are needed for managing the electricity production and consumption characteristics of diverse distributed energy resources in order to obtain prosumers with more generic capabilities and services for electricity production, storage, and consumption. This collection of articles studies such prosumers and the emergence of prosumer communities. Demand response-capable smart loads, battery storages and photovoltaic generation resources are forecasted and optimized to ensure energy-efficient and, in some cases, profitable operation of the resources.Energy industries & utilitiesbicsscTechnology: general issuesbicsscartificial intelligencebatterychronologycommunity of prosumersconsensus + innovationsdeep well heat pumpdemand responsedistributed energy resourcesdistrict heateconomic dispatchelectricity marketelectricity price forecastingflexible loads shifting scenariosfrequency containment reservefrequency reservehierarchical agglomerative clusteringload factornew consumption peakparticle swarm optimizationpeer-to-peerpower-to-heatprosumersreal-timereal-time pricingreinforcement learningrenewable energyresidential userssector couplingshared PV plantsimulationstorage batteriesthermal storagetimescaletwo-capacity building modelEnergy industries & utilitiesTechnology: general issuesSierla Seppoedt1290183Pourakbari-Kasmaei MahdiedtSierla SeppoothPourakbari-Kasmaei MahdiothBOOK9910557349903321Energy Management of Prosumer Communities3021398UNINA