Scopus İndeksli Yayınlar Koleksiyonu / Scopus Indexed Publications Collection
Permanent URI for this collectionhttps://hdl.handle.net/11147/7148
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Book Part Citation - Scopus: 2Comparative Mapping(CRC Press, 2024) Frary, A.; Doganlar, S.; Ratnaparkhe, M.B.In the mid 1980s, restriction fragment length polymorphism (RFLP) analysis was first applied to plants for the purposes of creating genetic linkage maps. Using the maps developed for major crop species, the genes controlling qualitative and quantitative traits could be detected and then selected for (via closely linked molecular markers) in breeding programs. Advances in DNA marker technology not only allowed the rapid generation of high-resolution plant genetic maps, but also facilitated detailed comparisons among species. When complementary molecular markers are mapped across related species, it is then possible to align the chromosomes of those species to create comparative linkage maps. In this way, genomic similarities between species are revealed so that genetic information about one species may be extended to others and evolutionary inferences drawn. © 2008, CRC Press. All rights reserved.Book Part Fermentation of Soybeans – Technology, Nutritional Properties, and Effects(CRC Press, 2022) Mukherjee,R.; Chakraborty,R.; Dutta,A.Soybean, which is a native oilseed plant of Asia, is widely used worldwide as a source of oil. However, oil is the only product that is procured from soybean seeds. A large variety of other products and by-products are also obtained from the seeds either before or after oil is extracted. Interest in the composition of soy products has exponentially grown because numerous potential anticarcinogens and other therapeutic agents have been reported to be found in soybeans and related products. Soybean seeds are grown primarily to produce oil which has a unique fatty acid profile; it predominantly contains unsaturated fatty acids, including monounsaturated fatty acids and polyunsaturated fatty acids. Linoleic acid, and to a much lesser extent, a-linolenic acid, are the most abundant fatty acids of soybean oil. Fermentation is a traditional method that has been reported to not only improve nutritional content but also decrease undesirable compounds, thereby recreating a better product with improved nutritional value. © 2022 Taylor & Francis Group, LLC.Book Part Citation - Scopus: 5Scaling Problem of the Geothermal System in Turkey(CRC Press, 2014) Doğan,I.; Demir,M.M.; Baba,A.[No abstract available]Editorial Book Part Citation - Scopus: 1Rapid Development of Geothermal Power Generation in Turkey(CRC Press, 2014) Karadaş,M.; Akkurt,G.G.[No abstract available]Book Part Exergetic and Exergoeconomic Aspects of Ground-Source (geothermal) Heat Pumps in Turkey(CRC Press, 2014) Hepbasli,A.; Kuzgunkaya,E.H.[No abstract available]Book Part Citation - Scopus: 1Design of Adaptive Structures by Kinematic Synthesis of Mechanisms(CRC Press, 2013) Akgün,Y.; Maden,F.; Korkmaz,K.Parallel to the development of material science and computer technologies, adaptive structures and smart building components have become the demand of contemporary architecture. However, in order to design adaptive systems, basic knowledge on kinematic synthesis is needed. This paper introduces the fundamental principles of the kinematic synthesis of mechanisms and expresses the potential structural uses of common mechanisms. For this purpose, main concepts of the mechanisms are introduced and types of kinematic synthesis are explored by the help of innovative examples. In this context, firstly, type synthesis methods are explained. Second step covers the path generation rules, and the final step includes the design of multi-loop and chain mechanisms. During the explanation of the aforementioned principles, innovative adaptive structures which are designed by the authors are introduced as well. These structures are all derived from common planar and spatial mechanisms such as four-bar linkages, Watt mechanisms, scissor systems, Bennett linkages and different multi-loop mechanisms. © 2013 by Taylor & Francis Group, LLC.Book Part Design of Reconfigurable Doubly-Curved Canopy Structure(CRC Press, 2013) Maden,F.; Korkmaz,K.; Akgün,Y.In this paper, a new reconfigurable doubly-curved structure has been developed for a canopy roof. The proposed structure can transform itself to various configurations according to the activity and user requirements. It not only changes its shape from a planar geometry to doubly-curved geometries by means of actuators, but also becomes stable and carries loads. The main differences between proposed structure and similar deployable bar structures are that the proposed structure is more flexible with 2DoF and it requires less number of bars and joints. To obtain the doubly-curved geometry, a novel method has been introduced. After discussing the kinematic behavior of the system, a set of structural analyses are performed in three different geometric configurations of the proposed structure. © 2013 by Taylor & Francis Group, LLC.Book Part Citation - Scopus: 9Chemical Composition and Health Aspects of Chestnut (castanea Spp.)(CRC Press, 2008) Korel,F.; Balaban,M.Ö.[No abstract available]Book Part Interface Resistance and Thermal Transport in Nano-Confined Liquids(CRC Press, 2016) Barisik,M.; Beskok,A.The performance and reliability of aforementioned devices strongly depend on the removal of heat either to the ambient or to a coolant. In such cases, phonon transport observed at the interfaces of nanoscale device components and surrounding/confined fluid, or at the interfaces of suspended nanoparticles and fluid medium in nano-fluidic coolants plays a critical role. At such interfaces, heat transfer is interrupted with a temperature jump due to the deficiency in overlap between phonon dispersions of dissimilar materials. Classical theories considering specular or diffuse phonon scattering predict the upper or lower limits of interface thermal resistance (ITR), while a detailed investigation of intermolecular interactions is needed to resolve interface phonon scattering mechanisms. © 2016 by Taylor and Francis Group, LLC.