Master Degree / Yüksek Lisans Tezleri

Permanent URI for this collectionhttps://hdl.handle.net/11147/3008

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Author: search.filters.author.Özerdem, Mehmet BarişPublisher: search.filters.publisher.Izmir Institute of Technology

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  • Master Thesis
    Comparison of Linear and Cfd Models With On-Site Wind Measurement Data for Wind Resource Assessment
    (Izmir Institute of Technology, 2014) Ay, Aytek; Özerdem, Barış; Özerdem, Mehmet Bariş; 03.10. Department of Mechanical Engineering; 03. Faculty of Engineering; 01. Izmir Institute of Technology
    Wind resource assessment (WRA) estimates the strength of wind resources at a planned wind project site. The output of WRA is wind conditions and annual energy production at a wind project site. The aim of this study is to compare on-site measurements with a linear and non-linear flow model results by calculating the error values between and investigating the effects on the annual energy productions. Wind Atlas Analysis and Application Program (WAsP) is used for linear model approach, whilst software called WindSim is used for non-linear model approach based on computational fluid dynamics (CFD) concept. Relative and absolute wind speed errors which have been weighted with the frequency of the directions show that the CFD model gives better results. This non-linear model also leads in annual energy predictions with 1.8% relative error averaged over three met mast results which is 4.2% for linear model. Although non-linear results seem to be better in such a semi-complex site as a further study it is important to run several more test cases for sites with different complexity and stability conditions. The results of non-linear model have been obtained with a new post-processing tool created by Siemens Wind Power. It is also necessary to run the same calculation procedure for several more complex sites before using as a standard tool as this is the first test case of this calculation method.
  • Master Thesis
    Air Leakage Detection in Various Cross Sectioned Air Ducts and Research on Manufacturing Methods for Airtightness
    (Izmir Institute of Technology, 2004) Aydın, Çiğdem; Özerdem, Barış; Özerdem, Mehmet Bariş; 03.10. Department of Mechanical Engineering; 03. Faculty of Engineering; 01. Izmir Institute of Technology
    Air ducts and related equipments are important components of climate and ventilation systems in order to distribute clean air, necessary for the occupied space, to whole system and to control thermal comfort. Despite of Turkish standards on air duct are present, studies on energy consumption associated with air leakage are very rare in Turkey, on the contrary to many developed countries. In this study, the subject of preventing energy losses related to the leakage, which causes inefficient working condition, has been investigated. Firstly, air duct system and quality requirements have been explained and the main standards have been analyzed for airtightness of air distribution systems, as well. Secondly, duct system measurements have been conducted by choosing two different approaches. One approach covers leakage calculation of a single duct by using European Standard called Eurovent, whereas the other one divides the system into single sections and uses the Power Law Model for calculation of leakage occurred in each section.Single duct leakage measurements were made on 300 mm and 1000 mm diameter circular ducts and 300 mm by 250 mm and 1000 mm by 500 mm flanged joint rectangular ducts for positive internal pressures. Test results showed that duct leakage depends on the method of duct fabrication, method of sealing, workmanship and static pressure differential. Furthermore, calculated leakage factors were under the allowable leakage limits in classification .C. for rectangular and circular ducts that were produced by Venco A.Ş. Comparing rectangular to circular ducts both had the same length of seam and surface area; the leakage from circular ducts was less than 80% from rectangular ducts. The air leakage from all test ducts, with the same lock seam type, decreases, whereas the surface area increases.Branched duct leakage measurements were made on 300 mm and 630 mm diameter circular ducts and 300 mm by 200 mm and 500 mm by 300 mm rectangular ducts and also air distribution system for positive internal pressures. Test results showed that fittings in a system cause sudden changes in static pressure; therefore, duct leakage depends on fitting locations. The leakage rate in Spiro sealed system was less than 5% Trelleborg sealed system. The leakage measured in this study showed that seam leakage accounts from 14% to 20% of the total in the two rectangular ducts and from 8% to 13% for the round ducts with Pittsburgh and Spiral lock seams. These data show that the joints are the major source of duct leakage. Improvement in duct construction leading to duct systems with less leakage will need to focus on better joints. Keywords: airtightness duct system, air duct leakage, duct leakage model, ductwork test procedure and methods.