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Metal buffers. --- Metal titrations. --- Organometallic compounds. --- Sequestration (Chemistry).
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Chemistry --- gravimetric analysis --- densiteit --- gravimetrie --- tabellen --- buffers (chemie)
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fysicochemie --- Electrochemistry --- 54-45 --- 541.132.4 --- #WSCH:FYS3 --- Buffers. Buffer solutions --- Buffer effect. Buffers. Electrolytic dissociation --- Buffer solutions. --- Metal ions. --- Hydrogen-ion concentration. --- Solutions --- Metal ions --- Concentration --- Control --- Buffers --- Hydrogen ions --- Buffers. --- 541.132.4 Buffer effect. Buffers. Electrolytic dissociation --- 54-45 Buffers. Buffer solutions --- Buffer solutions --- Hydrogen-ion concentration --- Monograph
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analyse (chemie) --- basen --- Analytical chemistry --- zuren --- buffers (chemie) --- pH-metrie --- Analytische chemie --- Chimie analytique
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Buffer solutions --- Hydrogen-ion concentration --- 544.354 --- 54-45 --- 54-45 Buffers. Buffer solutions --- Buffers. Buffer solutions --- Hydrogen-ion activity --- pH (Chemistry) --- Acidity function --- Buffers (Chemistry) --- Acid-base equilibrium --- Ionic solutions --- Electrolyte dissociation. Ionization in solutions --- Thermodynamics --- Chemical thermodynamics --- pH-metrie --- elektrolyse --- thermodynamica --- elektrolyten --- fysicochemie --- buffers (chemie) --- oplossingen (chemie)
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Immunity, Cellular. --- Anti-antibodies --- Buffers --- Chemokines --- Clone cells --- Cytokines --- Enzyme-linked immunosorbent assay --- Flow cytometry --- Receptors, cytokine --- Anti-antibodies --- Buffers --- Chemokines --- Clone cells --- Cytokines --- Enzyme-linked immunosorbent assay --- Flow cytometry --- Receptors, cytokine
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Buffers. --- Hydrogen-Ion Concentration. --- Ions. --- Metals. --- Buffer solutions --- Hydrogen-ion concentration --- Metal ions --- pH --- Ions métalliques
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Smart grid is a future extension of the current electricity network. It aims to increase the stability of the current network, and to avoid power surges and possible complete blackouts. Furthermore, the aim is to use renewable energy sources as good as possible and to give great power cunsomers a maximal flexibility. Under flexibility we mean the shift in time periods with high power consumption, so that they are enabled at times that much electrical power is available. Furthermore, the smart grid also will be enabled for the "save" of electrical energy.This thesis is a study of some heavy electrical loads within the Siemens site Huizingen such as a compressor, air conditioning and electric cars. This to estimate if its possible to integrate them into the smart grid. there is also a comprehensive test on electric vehicles done, in particular, it was tested whether it is possible to load with a variable power (the "mode 3" drawers). Smart grid is een toekomstige uitbreiding van het huidige elektriciteitsnetwerk. Het heeft als doel de stabiliteit van het huidige net te verhogen om zo spanningspieken en eventuele volledige black-outs te vermijden. Verder is het de bedoeling om zo optimaal mogelijk gebruik te maken van hernieuwbare energiebronnen en om grote verbruikers in het elektriciteitsnet een maximale flexibiliteit te geven. Onder flexibiliteit verstaan we het verschuiven in de tijd van periodes met hoog stroomverbruik, zodat ze worden ingeschakeld op momenten dat er veel elektrisch vermogen ter beschikking is. Verder zal het smart grid ook ingeschakeld worden voor het “opslaan” van elektrische energie.In dit eindwerk is een studie gemaakt van een aantal zware elektrische verbruikers binnen de site Siemens Huizingen zoals een compressor, airconditioning en elektrische wagens. Dit om hun potentiële kans in te schatten om hen te integreren in het smart grid. Naast het identificeren van de lasten is een uitgebreide test gedaan op elektrische voertuigen; in het bijzonder werd getest of het mogelijk is hen te laden met een variabel vermogen (het “mode 3”-laden).
Compressor. --- Elektriciteitstechnologie - electric technology. --- Elektrisch voertuig. --- Elektrische buffers. --- Elektrische energietechniek - power distribution. --- Energie - energy. --- Energieverdeling - power distribution. --- Flexibele lasten. --- Luchtdrukopslag. --- Mode 3 laden. --- Photovoltaics - photovoltaics. --- Smart grid.
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The global financial crisis (GFC) underscored the need for additional policy tools to safeguard financial stability and ultimately macroeconomic stability. Systemic financial vulnerabilities had developed under a seemingly tranquil macroeconomic surface of low inflation and small output gaps. This challenged the precrisis view that achieving these traditional policy targets was a sufficient condition for macroeconomic stability. Thus, new tools had to be deployed to target specific financial vulnerabilities and to build buffers to cushion adverse aggregate shocks, while allowing traditional policy levers, including monetary and microprudential policies to focus on their traditional roles. Macroprudential policy measures emerged as the solution to this gap. Some of these measures had been used before the GFC (mostly in emerging markets). But it was only after the crisis that they were more widely adopted, and the toolkit expanded. This spurred a growing body of empirical research on the effects and potential shortfalls of these measures, with a further deepening of this knowledge gaining importance as policymakers confront increased financial stability risks in the post-pandemic world. Recognizing that there still is much to learn, this paper takes stock of our expanding understanding about the effects (and side effects) of macroprudential measures by focusing on these questions: What have we learned about the effects of macroprudential policy in containing the buildup of vulnerabilities? What do we know about the effects on economic activity and resilience? How do policy effects vary with conditions and over time? How important are leakages and circumvention? How do the effects on credit depend on other policies?.
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