03553nam 2200769z- 450 991057688730332120231214133139.0(CKB)5720000000008301(oapen)https://directory.doabooks.org/handle/20.500.12854/84445(EXLCZ)99572000000000830120202206d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierModeling, Simulation and Control of Wind Diesel Power SystemsBaselMDPI - Multidisciplinary Digital Publishing Institute20221 electronic resource (152 p.)3-0365-3831-3 3-0365-3832-1 Wind diesel power systems (WDPSs) are isolated microgrids that combine diesel generators (DGs) with wind turbine generators (WTGs). Often, WDPS are the result of adding WTGs to a previous existing diesel power plant located in a remote place where there is an available wind resource. By means of power supplied by WTGs, fuel consumption and CO2 emissions are reduced. WDPSs are isolated power systems with low inertia where important system frequency and voltage variations occur. WDPS dynamic modeling and simulation allows short-term simulations to be carried out to obtain detailed electrical variable transients so that WDPS stability and power quality can be tested. This book includes papers on several subjects regarding WDPSs: the main topic of interest is WDPS dynamic modeling and simulation, but related areas such as the sizing of the different WDPS components, studies concerning the control of WDPSs or the use of energy storage systems (ESSs) in WDPSs and the benefits that ESSs provide to WDPS are also discussed. The book also deals with related AC isolated microgrids, such as wind-hydro microgrids or wind-photovoltaic-diesel microgrids.Technology: general issuesbicsscHistory of engineering & technologybicsscdiesel generatorwind turbine generatorisolated microgridflywheel energy storagedump loadpower systems simulationpower systems controlfrequency controlisolated systemlinear regressionpower system stabilitywind turbineshydro turbine generatorisolated microgridspower system simulationpower qualityIsla de la Juventudelectrical power systemrenewable energylong-term planningLINDA modeldesign methodologyWDPSmicrogridsmall wind turbinewind data sourcesHOMER Prowind energyhybrid systemsharsh climaticpitch-controlintelligent control systemicing predictionpredictive analyticsadapted technologiesTechnology: general issuesHistory of engineering & technologyFernández Rafael Sebastiánedt1302277Fernández Rafael SebastiánothBOOK9910576887303321Modeling, Simulation and Control of Wind Diesel Power Systems3026331UNINA04550nam 2201153z- 450 991055734300332120240612160332.0(CKB)5400000000042461(oapen)https://directory.doabooks.org/handle/20.500.12854/77136(EXLCZ)99540000000004246120202201d2021 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierBioactive Molecules from Extreme Environments IIBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20211 electronic resource (336 p.)3-0365-2718-4 3-0365-2719-2 This Special Issue, as a continuation of the previous Special Issue, “Bioactive Molecules from Extreme Environments” (https://www.mdpi.com/journal/marinedrugs/special_issues/Extreme_Environments accessed on 4 November 2021), includes 10 research articles and 2 reviews, providing a wide overview of the chemical biodiversity offered by different marine organisms inhabiting extreme environments to be used for biotechnological and pharmaceutical applications. The six articles in this Special Issue are focused on the polar regions, which represent an untapped source of marine natural products and are still largely unexplored compared to more accessible sites. Many of these articles refer to Antarctica, which is the coldest and most inaccessible continent on the Earth, where extreme temperatures, light and ice have selected biological communities with a unique suite of bioactive metabolites. The marine organisms of Arctic and Antarctic environments are a reservoir of natural compounds, exhibiting huge structural diversity and significant bioactivities that could be used in human applications.Research & information: generalbicsscChemistrybicsscArctic/Antarcticmarine bioprospectingmarine natural productterpeneterpenoidbiotechnological applicationdrug discoverymicroalgaeMuriellopsisspray dryingfreeze-dryingluteinsupercritical fluid extractioncyclic tripeptidesantibacterialAntarctica sponge-derived fungusAspergillus insulicolapsychrophilesAntarctic bacteriaLipopolysaccharide (LPS)lipid Astructural characterizationMALDI-TOF mass spectrometrymarine natural productsMolluscaGastropodachemical ecologycrustinantimicrobial peptidesshrimpdeep-sea hydrothermal ventdeep-sea microorganismfungusPenicillium griseofulvumanti-food allergyfungal metabolitesPaenibacillusArcticSvalbardMarfey’s methodDP4 calculationquinone reductaselipopeptide3-amino-2-pyrrolidinonegreen synthesisbiomaterialsmetalantibioticsnanotechnologydeep sea natural productsMariana TrenchDermacoccus abyssi MT 1.1T13C-NMR chemical shift linear and multiple regression(DFT)-UV-Vis spectral calculationphenoxazinedermacozineabsorption maxima in the near infrared regionAntarcticaspongesmycalolsmarine biotechnologyantifungal activityBacillus amyloliquefaciensPanama diseaseFusarium oxysporum f. sp. cubensebioactive compounditurin A5Research & information: generalChemistryGiordano Daniela(Researcher)edt78443Giordano Daniela(Researcher)othBOOK9910557343003321Bioactive Molecules from Extreme Environments II3036784UNINA