<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#" xmlns:dcterms="http://purl.org/dc/terms/">
<rdf:Description rdf:about="https://omeka.ibu.edu.ba/items/show/1251">
    <dcterms:title><![CDATA[THE ADSORPTION OF REACTIVE BLUE FROM AQUEUS SOLUTION BY USING FERRITE NANOPARTICLES]]></dcterms:title>
    <dcterms:abstract><![CDATA[Keywords:Textile wastewater, Nanoferrites, XRD, Superparamagnetism, Reactive Blue 5, Adsorption.  ABSTRACT  Releasing the industrial dye-bearing wastewaters without removing colour is becoming one of the major environmental problems since most dyes are stable to light and oxidizing agents. Since the wastewaters including dyes reduce the light penetration and photosynthesis, destroy the biological cycle and some are toxic and even carcinogenic for human health, it is important to remove these dyes from wastewater. In this study we have synthesized MnFe2O4 and NiFe2O4 nanoporous materials by using auto-combustion method and used them to remove REACTİVE BLUE 5 (RB5) from aqueous solutions. XRD studies indicated that the nanoparticles have single phase spinel structure. SEM pictures revealed that the samples have porous nanostructures which are advantageous for RB5 removal. From VSM measurements it is observed that the samples have superparamagnetic behavior at room temperature. The saturation magnetization of the samples are found to be 28 emu/g for MnFe2O4 and 34 emu/g for NiFe2O4 which are sufficient for magnetic separation via applying strong external magnetic field. Removal efficiency of the materials are found to be %79.84-82.22 RB5 removal by using 2 g/L nanoparticles (NiFe2O4 and MnFe2O4) and 24.00-24.70 mg/g adsorption capacity were determined.]]></dcterms:abstract>
    <dcterms:publisher><![CDATA[International Burch University]]></dcterms:publisher>
    <dcterms:date><![CDATA[2013-05-24]]></dcterms:date>
    <dcterms:extent><![CDATA[2062]]></dcterms:extent>
    <dcterms:identifier><![CDATA[ISSN 2233-1565     ]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://omeka.ibu.edu.ba/items/show/1250">
    <dcterms:title><![CDATA[MICROALGAE AND THEIR CULTIVATION SYSTEM TO PRODUCE BIODIESEL]]></dcterms:title>
    <dcterms:abstract><![CDATA[Keywords:Biodiesel, algae, biomass, energy.  ABSTRACT  Biodiesel is an alternative fuel for conventional diesel that is made from natural plant oils, animal fats, and waste cooking oils. This paper discusses the producing biodiesel fuel from algae. Algae range from small, single-celled organisms to multi-cellular organisms, some with fairly complex and differentiated form. Algae are usually found in damp places or bodies of water and thus are common in terrestrial as well as aquatic environments. Like plants, algae require primarily three components to grow: sunlight, carbon-dioxide and water. Photosynthesis is an important bio-chemical process in which plants, algae, and some bacteria convert the energy of sunlight to chemical energy. Micro-algae contain lipids and fatty acids as membrane components, storage products, metabolites and sources of energy. Algae contain anything between 2% and 40% of lipids/oils by weight.]]></dcterms:abstract>
    <dcterms:publisher><![CDATA[International Burch University]]></dcterms:publisher>
    <dcterms:date><![CDATA[2013-05-24]]></dcterms:date>
    <dcterms:extent><![CDATA[2073]]></dcterms:extent>
    <dcterms:identifier><![CDATA[ISSN 2233-1565     ]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://omeka.ibu.edu.ba/items/show/1249">
    <dcterms:title><![CDATA[DEVELOPING A PROTOTYPE FOR SMART MICRO GRID STUDIES]]></dcterms:title>
    <dcterms:abstract><![CDATA[Keywords: Smart Micro grids, smart grids  ABSTRACT  In this paper, the studies about setting a smart micro grid laboratory, criterias taken into consideration, general and partial working modes, control unit design are dealt with. The prototype consists of a 3000w smart off grid invertor &amp; charger, two 500w on grid invertors, eight PV panels, a 400w wind türbine, six storage bataries, a batary monitoring device, a power analizör, an MPPT device, an CPS&amp; internet communication module. In the general working mode an inverter &amp; charger which has got an ability for energy management is used. In the partial working modes, ten different working modes are monitored. A Programmable Logic Controller is used for mode change operations on order to decrease possible problems.]]></dcterms:abstract>
    <dcterms:publisher><![CDATA[International Burch University]]></dcterms:publisher>
    <dcterms:date><![CDATA[2013-05-24]]></dcterms:date>
    <dcterms:extent><![CDATA[2152]]></dcterms:extent>
    <dcterms:identifier><![CDATA[ISSN 2233-1565     ]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://omeka.ibu.edu.ba/items/show/1248">
    <dcterms:title><![CDATA[OPEN SOURCE INTRUSION DETECTION SYSTEM USING SNORT]]></dcterms:title>
    <dcterms:abstract><![CDATA[Keywords: Snort, IDS, Intrusion Detection System, Intrusion.  ABSTRACT  Software and hardware components are parts of almost every Intrusion Detection System (IDS) which is able to monitor computer networks for any possible security incidents. Using Internet resources all over the world has been becoming as one of the most popular task among all people and this usage and connection to Internet creates security risk for many different network attacks. Since these attacks and threats can strongly affects network security. IDS has become one of the most useful network security system which helps users to protect their valuable resource and their, integrity and availability of information located in the protected part of any organization’s computer network. Therefore, IDS system has a very significant role protect users, companies or any institutions to detect cases. IDS can be designed as signature-based or anomaly-based detection system. Signature-based system is only eligible to detects attacks which are already known and anomaly-based systems are eligible to detect unknown attacks which give them functionality to be proactive i.e. to resolve attack before it harm specific protected system.]]></dcterms:abstract>
    <dcterms:publisher><![CDATA[International Burch University]]></dcterms:publisher>
    <dcterms:date><![CDATA[2013-05-24]]></dcterms:date>
    <dcterms:extent><![CDATA[2149]]></dcterms:extent>
    <dcterms:identifier><![CDATA[ISSN 2233-1565     ]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://omeka.ibu.edu.ba/items/show/1247">
    <dcterms:title><![CDATA[IMPLEMENTATION OF A BUILDING AUTOMATION TRAINING MODULE FORELECTRICAL ENGINEERING EDUCATION]]></dcterms:title>
    <dcterms:abstract><![CDATA[Keywords: Building automation, Power Electronics, Energy Efficiency, Training Module, Touch Panel, Microcontroller.  ABSTRACT  Building automation systems improve lifetime quality of people and reduce energy consumption. In this study, a building automation module for home applications is implemented to help students comprehend related concepts. Purposed system has some units such as a garage barrier, curtains, led bulbs, an air conditioner, gas leakage sensors, burglar alarm, an air-conditioner unit and comfort applications. To control these units, a control board is developed. Control commands are entered by operator via a resistive touch panel which is associated and programmed for this project. This automation module is used for electrical enginering education especially to execute power electronics applications and building automation trainings.]]></dcterms:abstract>
    <dcterms:publisher><![CDATA[International Burch University]]></dcterms:publisher>
    <dcterms:date><![CDATA[2013-05-24]]></dcterms:date>
    <dcterms:extent><![CDATA[2134]]></dcterms:extent>
    <dcterms:identifier><![CDATA[ISSN 2233-1565     ]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://omeka.ibu.edu.ba/items/show/1246">
    <dcterms:title><![CDATA[SUSTAINABLE TOURISM DEVELOPMENT: THE CASE OF SAGALASSOS]]></dcterms:title>
    <dcterms:abstract><![CDATA[Key Words: Environment, Sustainable Development, Sagalassos.  ABSTRACT  Sustainable development is the first step to take action by bearing future generations in mind as well. Uncovering historical and cultural assets are important not only for cultural tourism, but it is also important in terms of flourishing the region thanks to the tourists who come to see them, and this must be secured without exploiting the region’s historical texture and natural landscape.  This paper investigates such issues as the ancient city of Sagalassos itself; the work done to uncover this city; the importance given to the environment and what has been done to flourish the region so far, as well as what should be done from now on. This study has a potential importance in that it shows that protecting the natural landscape and cultural texture will be realized both giving due importance to the environment and providing the development.]]></dcterms:abstract>
    <dcterms:publisher><![CDATA[International Burch University]]></dcterms:publisher>
    <dcterms:date><![CDATA[2013-05-24]]></dcterms:date>
    <dcterms:extent><![CDATA[2119]]></dcterms:extent>
    <dcterms:identifier><![CDATA[ISSN 2233-1565     ]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://omeka.ibu.edu.ba/items/show/1245">
    <dcterms:title><![CDATA[ENERGY EFFICIENCY MEASURES IN POWER UTILITIES ON THE TRACK OF AN EFFICIENT AND LOW-CARBON EUROPE IN 2030 - CASE STUDY OF EPBIH]]></dcterms:title>
    <dcterms:abstract><![CDATA[Keywords:Energy efficiency, CO2 emission, coal-based power plants, decarbonisation.  ABSTRACT  This paper describes measures which are being undertaken by EPBiH power utility, largest public electricity utility in Bosnia and Herzegovina, to improve its energy efficiency and keep on the track of the European targets outlined in the EU strategic documents and laid down by new energy efficiency Directive 2012/27/EU. By modernization its existing power plants performed in last 10 years, EPBiH improved net efficiency and reduced its CO2 emission for 30% compared to 1990 levels. Plan till 2030 is further increasing the net efficiency up to 40.2%. With introducing Energy Management System, energy efficiency has been involved into all sectors of the company; from coalmines, generation and distribution, to the energy supply, to comply the business model with EU energy efficiency targets and legislation.]]></dcterms:abstract>
    <dcterms:publisher><![CDATA[International Burch University]]></dcterms:publisher>
    <dcterms:date><![CDATA[2013-05-24]]></dcterms:date>
    <dcterms:extent><![CDATA[2053]]></dcterms:extent>
    <dcterms:identifier><![CDATA[ISSN 2233-1565     ]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://omeka.ibu.edu.ba/items/show/1244">
    <dcterms:title><![CDATA[THE IMPORTANCE OF SUSTAINABLE LIVING FOR THE WELL-BEING OF THE OLDER ADULTS: U.S. CASE]]></dcterms:title>
    <dcterms:abstract><![CDATA[Keywords: Sustainable living, sustainable housing, housing material, sustainable clothing, co-housing and shared living.  ABSTRACT  Sustainable living is the idea of preserving national resources and helping to preserve ecological balance in the world. The main purpose of this struggle is to create a more sustainable world. İn order to make a significant contribution for the well-being of people around us, sustainable living is a crucial point to consider. As you know, the U.S. population is getting older, and it is estimated by 2030, approximately 70 million individuals would be 65 or older in the U.S., so as the population of older people increase, the need for the adults intensifies. İn order to increase the quality life of older adults: what type of sustainable housing would be conducive, what type of housing material should be used for the inside and outside of the home, what type of sustainable clothing should be used, and what type of an environment should be constructed are going to be the main questions addressed in this research.]]></dcterms:abstract>
    <dcterms:publisher><![CDATA[International Burch University]]></dcterms:publisher>
    <dcterms:date><![CDATA[2013-05-24]]></dcterms:date>
    <dcterms:extent><![CDATA[2125]]></dcterms:extent>
    <dcterms:identifier><![CDATA[ISSN 2233-1565     ]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://omeka.ibu.edu.ba/items/show/1243">
    <dcterms:title><![CDATA[TIME-FREQUENCY ANALYSIS FOR DIFFERENT IMPULSE VOLTAGES]]></dcterms:title>
    <dcterms:abstract><![CDATA[Keywords:Impulse Voltage, Time-Frequency Analysis, Short-Time Fourier Transform  ABSTRACT  The aim of this paper is to point out the advantages of the use of the time-frequency analysis in the digital processing of the waveforms recorded in the high voltage impulse tests. Impulse voltage tests are essential to inspect and test insulation integrity of high voltage apparatus. The measured waveforms in practice may contain oscillations and overshoots due to contribution of different noise sources. The different methods incorporating signal-processing method such as wavelets and Short Time Fourier Transform are proposed for failure identification. It is now possible to distinguish failure during lightning tests as well as chopped lightning impulse tests. The method is experimentally validated on a transformer winding. Obtained voltage waveforms usually have some sort of interferences originated from the different sources. These interferences have to be removed from the original impulse data in order to evaluate the waveform characteristics precisely. In this paper two impulse signal with and without shielding are given concerned with the methods used for the time-frequency analysis. Time-frequency analysis is powerful signal processing tool in order to recognize the noise of impulse voltage data. Thus the sources of the noise can be found and eliminated.]]></dcterms:abstract>
    <dcterms:publisher><![CDATA[International Burch University]]></dcterms:publisher>
    <dcterms:date><![CDATA[2013-05-24]]></dcterms:date>
    <dcterms:extent><![CDATA[2051]]></dcterms:extent>
    <dcterms:identifier><![CDATA[ISSN 2233-1565     ]]></dcterms:identifier>
</rdf:Description><rdf:Description rdf:about="https://omeka.ibu.edu.ba/items/show/1242">
    <dcterms:title><![CDATA[ACHIEVEMENT OF GREEN MANUFACTURING USING ALTERNATIVE TYPES OF COOLING IN MACHINING PROCESSES]]></dcterms:title>
    <dcterms:abstract><![CDATA[Keywords:green manufacturing; machining sustainability; cutting fluids; dry machining; alternative types of cooling; cooling with cold compressed air.  ABSTRACT  Machining is a process commonly used in the production of mechanical workpieces. Improving efficiency must be accompanied by environmental awareness with special emphasis on the social protection and labor. Higher values of the cutting parameters offer the possibility to achieve higher productivity, but at the same time present a risk of deterioration surface quality and tool life. Cutting fluids are used in metal machining for a variety of reasons such as improving tool life, reducing workpiece thermal deformation, improving surface finish and flushing away chips from the cutting zone. In order to increase the efficiency, there are incorporated some new parameters, such as environmental and social acceptability and greater economic profitability. More attention focused to the negative effects of the cooling and lubrication as well as the multiplication of these effects has led to the necessity of finding new solutions. Alternative types of cooling in combination with new materials for making tools and special coatings represent an area of finding appropriate replacement of the cooling and lubricating. The main focus of this paper is demonstration the capabilities and benefits of applying dry machining and alternative types of cooling in terms of reaching a better surface quality with longer tool life.]]></dcterms:abstract>
    <dcterms:publisher><![CDATA[International Burch University]]></dcterms:publisher>
    <dcterms:date><![CDATA[2013-05-24]]></dcterms:date>
    <dcterms:extent><![CDATA[2049]]></dcterms:extent>
    <dcterms:identifier><![CDATA[ISSN 2233-1565     ]]></dcterms:identifier>
</rdf:Description></rdf:RDF>