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The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.

1	Intermittent strömförsörjda anläggningar : En praktisk lösning för lågförbrukare / Intermittently powered facilities : A practical solution for small consumers Strandberg, Anton January 2017 (has links) Detta examensarbete har genomförts tillsammans med Umeå Energi och behandlar ett av deras kunders problem. En specifik gång- och cykelvägstunnel har varit ämne för klagomål från allmänheten på grund av att dess belysning släcks under dagtid. Under vissa perioder på dygnet upplevs tunneln som mörk och otrygg. I dagsläget styrs tunnelbelysningen tillsammans med andra delar av gatubelysningen av en ljussensor och önskemål finns att installera ett batterilager som försörjer tunnelbelysningen under den tiden som den ordinarie strömförsörjningen är avstängd. Då gatubelysningen utöver att vara avstängd periodvis över dagen även är helt avstängd under hela juni och halva juli krävdes även en solpanel för att försörja belysningen under den tiden. Solkraft valdes mycket på grund av det faktum att den producerar som mest under den tid som anläggningen inte har någon typ av fast strömförsörjning men även med tanke på kundens önskan om att jobba med förnybar energi. För att leva upp till Trafikverkets riktvärden behövdes enligt utförda mätningar bara en lite del av belysningens fulla effekt användas. Då armaturerna var förberedda för Dali och anläggningen önskades hållas så liten som möjligt föreslogs rörelsesensorer som både stänger av belysningen när det inte befinner sig någon i tunneln men även inte höjer belysningen mer än nödvändigt. Batterier dimensionerades utefter förväntad belastning och givna effektförluster. För att utvärdera solpanelens förmåga att täcka in anläggningens behov simulerades anläggningen i Polysun. De 37 kWh/månad som solpanelen på 300 Wp genererar under sommaren räcker till 14 timmar belysning per dag vilket anses räcka under den tidsperioden baserat på tunnels användning. Kretsschema med komponentlista, kabellista och en föreslagen layout producerades i PCSchematics för att visa på en typ av lösning. I övrigt rekommenderades det att måla tunneln i ljus färg för bättre förmåga att reflektera ljus. Möjligtvis skulle det kunna leda till att belysningen kan dimras ner ytterligare. / This bachelor thesis has been carried out along with Umeå Energi and addresses one of their clients' problems. A specific tunnel used for walking- and cycling traffic has been the subject of complaints from the public because its lighting is switched off during the daytime. During certain periods of the day, the tunnel feels dark and unsafe. Currently, the tunnel lighting is being controlled, alongside with other parts of the street lighting, by a light sensor. There is a desire to use battery storage to supply the tunnel lighting during the time when the power is turned off. Since the street lighting in addition to being switched off periodically throughout the day is also completely shut down throughout June and half of July, a solar panel was required to provide energy to the luminaires during that time. Solar power was chosen partly because of the fact that it produces the most amount of energy during the time the facility has no type of power supply but also in view of the customer's desire to work with renewable energy. In order to live up to the Traffic Authority's guideline values, only a small part of the power was required. The luminaires were prepared for Dali and since the facility was desired to be as small as possible, motion sensors that both turn off the lighting when there is no one in the tunnel but also does not raise the lighting more than necessary was suggested. Batteries were dimensioned upon expected load and given power losses. To evaluate the solar panel's ability to cover the luminaires needs, simulations was made in Polysun. The 37 kWh/month that the 300 Wp solar panel generates during the summer is sufficient for 14 hours of lighting per day, which is considered enough for the time period based on the tunnel usage. Circuit diagram with component list, cable list and a proposed layout were produced in PCSchematics to display one type of solution. In addition, it was recommended to paint the tunnel in a bright color to better reflect light. Possibly, it could lead to a further reduction of the illumination. UPS energilagring tunnelbelysning rörelsevakter Engineering and Technology Teknik och teknologier

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