| Yeterlilik Kodu | TR0030217251 | |
| Yeterlilik Adı | Enerji Sistemleri Mühendisliği Doktora Diploması | |
| Sorumlu Kurum | Gazi Üniversitesi | |
| Sorumlu Kurum İletişim Bilgisi | Emniyet mah, Gazi Üniversitesi Rektörlüğü, Bandırma Cd No:6/1, 06560 Yenimahalle/Ankara | |
| Sorumlu Kurum URL | http://www.gazi.edu.tr | |
| Yönelim | Akademik | |
| AYÇ Seviyesi | 8 | Yeterlilik TYÇ’ye yerleştirilmemiştir. |
| TYÇ Seviyesi | 8 | |
| Sınıflandırma (Tematik Alan) | Mimarlık ve şehir planlama | |
| Sınıflandırma (Meslek Kodu) | - | |
| Kategori | Ana | |
| Kredi Değeri | 240 | |
| Programın Normal Süresi | 4 | |
| Program Profili (Amaç) | - | |
| Öğrenme Ortamları | - | |
| Öğrenme Kazanımları (Tanım) |
| |
| Anahtar Yetkinlikler | - | |
| Ölçme ve Değerlendirme Yöntemleri |
Katsayılar ve başarı harf notları aşağıda belirtildiği şekilde değerlendirilir:
(a) bendindeki notlar dışındaki notlar şunlardır:
| |
| Kalite Güvencesi | - | |
| Giriş Şartı | Türk ve yabancı öğrenciler için genel kabul şartları programa başlamak için geçerlidir. | |
| Başarma Şartları | Kuramsal, Olgusal Öğretim elemanı yetiştirme Ar-Ge birimlerinde görev alabilme Isıl, termodinamik ve mekanik sistemlerin tasarımını ve imalatını yapabilme Enerji sektöründe yönetim görevi alabilme Alanı ile ilgili kamu kurum ve kuruluşlarında yönetici ve uzman olarak görev alabilme Enerji üretim ve dönüşüm sistem bileşenlerinin tasarım, imalat, tadilat ve montaj projelerini yürütebilme Isıtma, soğutma, havalandırma ve yakma sistemlerin imalat ve projelendirilmesinde görev alabilme Enerji üretim, dönüşüm dağıtım tesislerinin kuruluşunda yönetici olarak çalışabilme Yenilenebilir enerji proje ve uygulamalarında görev alabilme Çevre ve atık yönetim sistemlerinin proje ve uygulamalarında görev alabilme BECERİLER Bilişsel, Uygulamalı Öğretim elemanı yetiştirme Ar-Ge birimlerinde görev alabilme Isıl, termodinamik ve mekanik sistemlerin tasarımını ve imalatını yapabilme Enerji sektöründe yönetim görevi alabilme Alanı ile ilgili kamu kurum ve kuruluşlarında yönetici ve uzman olarak görev alabilme Enerji üretim ve dönüşüm sistem bileşenlerinin tasarım, imalat, tadilat ve montaj projelerini yürütebilme Isıtma, soğutma, havalandırma ve yakma sistemlerin imalat ve projelendirilmesinde görev alabilme Enerji üretim, dönüşüm dağıtım tesislerinin kuruluşunda yönetici olarak çalışabilme Yenilenebilir enerji proje ve uygulamalarında görev alabilme Çevre ve atık yönetim sistemlerinin proje ve uygulamalarında görev alabilme YETKİNLİKLER Bağımsız Çalışabilme ve Sorumluluk Alabilme Yetkinliği Öğretim elemanı yetiştirme Ar-Ge birimlerinde görev alabilme Isıl, termodinamik ve mekanik sistemlerin tasarımını ve imalatını yapabilme Enerji sektöründe yönetim görevi alabilme Alanı ile ilgili kamu kurum ve kuruluşlarında yönetici ve uzman olarak görev alabilme Enerji üretim ve dönüşüm sistem bileşenlerinin tasarım, imalat, tadilat ve montaj projelerini yürütebilme Isıtma, soğutma, havalandırma ve yakma sistemlerin imalat ve projelendirilmesinde görev alabilme Enerji üretim, dönüşüm dağıtım tesislerinin kuruluşunda yönetici olarak çalışabilme Yenilenebilir enerji proje ve uygulamalarında görev alabilme Çevre ve atık yönetim sistemlerinin proje ve uygulamalarında görev alabilme Öğrenme Yetkinliği Öğretim elemanı yetiştirme Ar-Ge birimlerinde görev alabilme Isıl, termodinamik ve mekanik sistemlerin tasarımını ve imalatını yapabilme Alanı ile ilgili kamu kurum ve kuruluşlarında yönetici ve uzman olarak görev alabilme Enerji üretim ve dönüşüm sistem bileşenlerinin tasarım, imalat, tadilat ve montaj projelerini yürütebilme Isıtma, soğutma, havalandırma ve yakma sistemlerin imalat ve projelendirilmesinde görev alabilme Enerji üretim, dönüşüm dağıtım tesislerinin kuruluşunda yönetici olarak çalışabilme Yenilenebilir enerji proje ve uygulamalarında görev alabilme Çevre ve atık yönetim sistemlerinin proje ve uygulamalarında görev alabilme İletişim ve Sosyal Yetkinlik Öğretim elemanı yetiştirme Ar-Ge birimlerinde görev alabilme Isıl, termodinamik ve mekanik sistemlerin tasarımını ve imalatını yapabilme Enerji sektöründe yönetim görevi alabilme Alanı ile ilgili kamu kurum ve kuruluşlarında yönetici ve uzman olarak görev alabilme Enerji üretim ve dönüşüm sistem bileşenlerinin tasarım, imalat, tadilat ve montaj projelerini yürütebilme Isıtma, soğutma, havalandırma ve yakma sistemlerin imalat ve projelendirilmesinde görev alabilme Enerji üretim, dönüşüm dağıtım tesislerinin kuruluşunda yönetici olarak çalışabilme Yenilenebilir enerji proje ve uygulamalarında görev alabilme Çevre ve atık yönetim sistemlerinin proje ve uygulamalarında görev alabilme Alana Özgü Yetkinlik Öğretim elemanı yetiştirme Ar-Ge birimlerinde görev alabilme Isıl, termodinamik ve mekanik sistemlerin tasarımını ve imalatını yapabilme Enerji sektöründe yönetim görevi alabilme Alanı ile ilgili kamu kurum ve kuruluşlarında yönetici ve uzman olarak görev alabilme Enerji üretim ve dönüşüm sistem bileşenlerinin tasarım, imalat, tadilat ve montaj projelerini yürütebilme Isıtma, soğutma, havalandırma ve yakma sistemlerin imalat ve projelendirilmesinde görev alabilme Enerji üretim, dönüşüm dağıtım tesislerinin kuruluşunda yönetici olarak çalışabilme Yenilenebilir enerji proje ve uygulamalarında görev alabilme Çevre ve atık yönetim sistemlerinin proje ve uygulamalarında görev alabilme Öğrencinin, toplam 240 AKTS kredisinden az olmamak koşuluyla, en az 8 ders (bunlardan birisi zorunlu ders, birisi Bilimsel Araştırma Teknikleri ve Etik dersi olmalı-zorunlu ders ve/veya bilimsel araştırma teknikleri ve etik dersi/dersleri, yüksek lisans sırasında başarıldıysa, onların yerine başka seçmeli ders başarılmalı ve gerekli minimum AKTS şartı sağlanmalıdır), bir doktora seminer, doktora yeterlilik, doktora tez hazırlık ve tez çalışmasını başarmış olması, aldığı tüm derslerden en az CB ya da bunun üzerinde not alması ve genel not ortalamasının 4,00 üzerinden en az 2,00 olması gerekmektedir. Nihayetinde öğrenci doktora tezini savunmalıdır. | |
| İlerleme Yolları (İlişki Türü) | Enerji Sistemleri Mühendisliği Bölümü Doktora Programından mezun olan kişiler, akademik ve normal hayatta, enerji üretimi, iletimi, dağıtımı ve kullanılması alanlarında tasarımcı ya da uygulayıcı olarak çok geniş iş alanları bulacaklardır. | |
| Yasal Dayanağı | - | |
| Geçerlilik Süresi (Varsa) | Yeterlilik sürekli geçerlidir | |
| Yeterliliğe Erişim için İnternet Adresi | Adresi Aç | |
TR0030217251
- Temel Bilim, Temel Mühendislik ve Enerji Sistemleri Mühendisliği dalı ile ilgili mühendislik konularında yeterli bilgi birikime sahip olma ve bu bilgileri uygulayabilme becerisi.
- Karmaşık mühendislik problemlerini saptama, tanımlama, formüle etme ve çözme becerisi; bu amaçla uygun analiz ve modelleme yöntemlerini seçme ve uygulama becerisi.
- Karmaşık bir sitemi, süreci, cihazı veya ürünü gerçekçi kısıtlar ve koşullar altında, belirli gereksinimleri karşılayacak şekilde tasarlama becerisi; bu amaçla modern tasarım yöntemlerini uygulama becerisi.
- Enerji Sistemleri Mühendisliği bölümünün uygulamaları için gerekli olan modern teknik ve araçları geliştirme, seçme ve kullanma becerisi; bilişim teknolojilerini etkin bir şekilde kullanma kabiliyeti.
- Enerji Sistemleri Mühendisliği?ne dair problemlerinin incelenmesi için deney tasarlama, deney yapma, veri toplama, sonuçları analiz etme ve yorumlama becerisi.
- Enerji Sistemleri Mühendisliği alanında bireysel ve takım içerisinde çalışabilme becerisi.
- Türkçe sözlü ve yazılı etkin iletişim kurma ve raporlama becerisi, en az bir yabancı dil bilgisi.
- Yaşam boyu öğrenmenin gerekliliği bilinci; bilgiye erişebilme, bilim ve teknolojideki gelişmeleri izleme ve kendini sürekli yenileme becerisi.
- Mesleki ve etik sorumluluk bilinci.
- Proje yönetimi ile risk yönetimi ve değişiklik yönetimi gibi iş hayatındaki uygulamalar hakkında bilgi; girişimcilik, yenilikçilik ve sürdürülebilir kalkınma hakkında farkındalık.
- Enerji Sistemleri Mühendisliği Bölümü uygulamalarının evrensel ve toplumsal boyutlarda sağlık, enerji, çevre ve güvenlik üzerindeki etkileri ile çağın sorunları hakkında bilgi; Enerji Sistemleri Mühendisliği çözümlerinin hukuksal sonuçları konusunda farkındalık.
- Öğrenciler ara sınav ve/veya dönem içi çalışmalarına ek olarak dönem sonu sınavına ve/veya dönem sonu proje çalışması değerlendirmesine alınır. Sınav takvimi, ilgili ana bilim/bilim dalı başkanlığı tarafından ağ sayfasında ilan edilir.
- Öğrencinin başarısı, ilgili dersin dönem başında ilan edilen ders tanımlama formunda belirtilen değerlendirme yöntemi ve başarı kriterleri ile değerlendirilir.
- Öğrenci zorunlu derslerini başarmakla yükümlüdür. Başarısız olduğu seçmeli bir dersi tekrar alabilir, yerine başka bir dersi seçebilir.
- Ara sınavlar ve/veya dönem içi çalışmalar, dönem sonu sınavı ve/veya dönem sonu proje çalışması 100 ham puan üzerinden değerlendirilir. Seminer, tez çalışması, dönem projesi dersleri ve yeterlik sınavı için 100 ham puan üzerinden başarı harf notu takdir edilir. Öğrencinin ilgili dersten başarılı sayılabilmesi için yüksek lisansta başarı harf notu en az CC; doktora ve lisans sonrası doktora programlarında başarı harf notu en az CB olmak zorundadır.
- Ham başarı puanı 25,00?ın altında olan öğrenci, doğrudan (FF) notu alarak o dersten başarısız sayılır. Ham başarı puanı 25,00 ve üstünde olan öğrencinin başarı notu; sınıfın genel durumu, aritmetik ortalamalar ve istatistiksel dağılım dikkate alınarak aşağıda katsayıları ve açılımı belirtilen harf notlarından biri ile değerlendirilir. Bu değerlendirmeden sonra, 25,00 ve üstünde olan ham başarı puanlarının harf notu karşılıklarının (FF) olması mümkündür.
Katsayılar ve başarı harf notları aşağıda belirtildiği şekilde değerlendirilir:
- Katsayılar Notlar 4.00 AA 3.50 BA 3.00 BB 2.50 CB 2.00 CC 1.50 DC 1.00 DD 0.50 FD 0.00 FF
(a) bendindeki notlar dışındaki notlar şunlardır:
- D: Devamsız,
- G: Girmedi,
- E: Eksik, (Dönem sonu/yılsonu sınav başarı harf notlarının kesinleşmesini takip eden üç hafta içerisinde düzeltilmeyen (E) notu (FF)?ye dönüştürülür.)
- AGNO, öğrencinin öğrenimi süresince bütün derslerdeki son notları esas alınarak hesaplanan ağırlıklı puanlarının toplamının, alınan derslerin kredi toplamına bölünmesi ile bulunur. Elde edilen AGNO, virgülden sonra iki hane olmak üzere gösterilir.
- Gerek ağırlıklı yarıyıl, gerek AGNO?nun hesaplanmasında, (AA)?dan (FF)?ye kadar verilen notlar esas alınır. (G) ve (D) notları (FF) notu işlemi görür.
- Bütün notlar, öğrencinin not izleme belgesine geçirilir.
- Mezuniyet için AGNO?nun; tezli/tezsiz yüksek lisans programlarında en az 2,50/4,00, yüksek lisans/lisans derecesiyle doktora programlarında en az 3,00/4,00 olması gerekir. Toplam kredisini tamamladığı halde mezuniyet şartını sağlayamamış olan öğrenciler yeni ders/dersler alarak bu şartı sağlarlar.
- Derse devam yükümlülüklerini ya da ders uygulamalarına ilişkin koşulları yerine getirmediği için dönem sonu sınavına girme hakkını elde edemeyen öğrenciler devamsız (D) sayılır. Yazılan tüm değerlendirmeler, Gazi Üniversitesi Lisansüstü Eğitim-Öğretim Yönetmeliğinde yapılacak değişikliklere tabidir.
Türk ve yabancı öğrenciler için genel kabul şartları programa başlamak için geçerlidir.
Enerji Sistemleri Mühendisliği Bölümü Doktora Programından mezun olan kişiler, akademik ve normal hayatta, enerji üretimi, iletimi, dağıtımı ve kullanılması alanlarında tasarımcı ya da uygulayıcı olarak çok geniş iş alanları bulacaklardır.
Yeterlilik sürekli geçerlidir
| Qualification Code | TR0030217251 | |
| Qualification Title | ENERJİ SİSTEMLERİ MÜHENDİSLİĞİ(DR) Doctorate | |
| Awarding Body | Gazi University | |
| Awarding Body Contact | Gazi University | |
| Awarding Body Url | http://www.gazi.edu.tr | |
| Orientation | Academic | |
| EQF Level | 8 | The Qualification hasn't been included in TQF. |
| TQF Level | 8 | |
| Thematic Areas | Architecture and town planning | |
| National Occupation Classification | - | |
| Category | Main | |
| Credit Value | - | |
| Program Duration | - | |
| Program Profile | - | |
| Learning Environments | - | |
| Description | Basic Science, Basic Engineering and Energy Systems Engineering skills in the field of engineering related to the accumulation of knowledge and ability to apply this knowledge. Ability to identify, define, formulate and solve complex engineering problems; Selecting and applying appropriate analysis and modeling methods for this purpose. The ability to design a complex system, process, device, or product to meet specific requirements under realistic constraints and conditions; The ability to apply modern design methods for this purpose. Ability to develop, select and use modern techniques and tools necessary for the applications of the Department of Energy Systems Engineering; The ability to use information technologies effectively. Ability to design experiments, conduct experiments, collect data, analyze and interpret results for examining problems related to Energy Systems Engineering. Ability to work individually and in teams in the field of Energy Systems Engineering. Effective communication and reporting skills in Turkish verbal and written, at least one foreign language knowledge. Awareness of the necessity of life-long learning; Access to knowledge, ability to follow developments in science and technology, and constant self-renewal. Professional and ethical responsibility. Information on project management and practices in business life such as risk management and change management; Awareness of entrepreneurship, innovation and sustainable development. Information on the effects of the applications of the Department of Energy Systems Engineering on health, energy, environment and safety in the universal and social dimensions and the problems of the age; Awareness of the legal consequences of Energy Systems Engineering solutions. | |
| Key Competencies | - | |
| Further Info | (1) Students take the final exam and/or the final project in addition to the mid-term exams and/or mid-term studies. Examination calendar is published on the website of the related academic department. (2) The success of the students is evaluated with the methods and criteria which are stated on the course description forms that are declared at the beginning of semester. (3) Students are obliged to succeed in must courses. They can reselect a failed elective course or select another elective instead. (4) Mid-term exams and/or mid-term studies and final exam and/or the final project are evaluated over 100 raw points. Letter success grades over 100 raw points are given for seminars, thesis studies, term project courses and proficiency exams. To succeed in courses, the minimum letter success grades must be CC for master?s degree and CB for doctorate and integrated (post bachelor) doctorate. (5) A student whose raw point is under 25 fails the course by receiving an (FF) grade directly. The success grade of a student whose raw point is 25 or above is evaluated with the grades of which coefficients and definitions are stated below considering the general status of the class, average points and statistical range. After this evaluation, it is possible for the letter success grade equivalents of raw points that are 25 and above to be (FF). (6) Coefficients and letter success grades are evaluated as shown below: a) Coefficients Letter Success Grades 4.00 AA 3.50 BA 3.00 BB 2.50 CB 2.00 CC 1.50 DC 1.00 DD 0.50 FD 0.00 FF b) The letter grades other than the ones in the clause ?a? are: 1) D: Absent 2) G: Not attended 3) E: Incomplete (The E grades which are not corrected until after 3 weeks from the finalization of letter success grades are converted to FF) (7) The CumGPA is calculated via dividing the final grades of all of the courses throughout a student?s study period by the total number of credits. The obtained CumGPA is shown with two decimals after the point. (8) While calculating both the GPAs of semesters/years and the CumGPA, the letters grades from AA to FF are based on. G and D grades are processed as FF. (9) All grades are included in the transcripts of students. (10) For graduation, the CumGPA must be 2,50/4,00 minimum for master?s degree with or without thesis; 3,00/4,00 minimum for doctorate or integrated (post bachelor) doctorate programmes. Despite completing all the credits, students who cannot provide the graduation conditions take new courses to do so. (11) Students who do not provide the attendance conditions or other course requirements cannot take the final exam of the course and are regarded as absent (D). All written evaluations are subject to changes to be made in Gazi University Graduate Education Regulation. Theoretical, Factual - - Instructor training - - Capability of taking on a task in research and development units - - Capability of designing and manufacturing thermal and thermo-mechanical systems. - - Capability of taking management mission in energy sector - - Taking on specialist and management tasks in governmental institutions relevant to energy sector. - - Capability of conducting energy production and conversion system design, manufacturing, modification and montage projects. - - Capability of taking on missions in desing ang procect of HVAC-R and comcustion systems - - Capability of management in energy production, conversion and power distribution plants. - - Capability of taking on missions in project ang application of renewable energy - - Capability of taking on missions in project ang application of enviroment and waste management systems SKILLS Cognitive, Practical - - Instructor training - - Capability of taking on a task in research and development units - - Capability of designing and manufacturing thermal and thermo-mechanical systems. - - Capability of taking management mission in energy sector - - Taking on specialist and management tasks in governmental institutions relevant to energy sector. - - Capability of conducting energy production and conversion system design, manufacturing, modification and montage projects. - - Capability of taking on missions in desing ang procect of HVAC-R and comcustion systems - - Capability of management in energy production, conversion and power distribution plants. - - Capability of taking on missions in project ang application of renewable energy - - Capability of taking on missions in project ang application of enviroment and waste management systems COMPETENCIES Ability to work independently and take responsibility - - Instructor training - - Capability of taking on a task in research and development units - - Capability of designing and manufacturing thermal and thermo-mechanical systems. - - Capability of taking management mission in energy sector - - Taking on specialist and management tasks in governmental institutions relevant to energy sector. - - Capability of conducting energy production and conversion system design, manufacturing, modification and montage projects. - - Capability of taking on missions in desing ang procect of HVAC-R and comcustion systems - - Capability of management in energy production, conversion and power distribution plants. - - Capability of taking on missions in project ang application of renewable energy - - Capability of taking on missions in project ang application of enviroment and waste management systems Learning Competence - - Instructor training - - Capability of taking on a task in research and development units - - Capability of designing and manufacturing thermal and thermo-mechanical systems. - - Capability of taking management mission in energy sector - - Taking on specialist and management tasks in governmental institutions relevant to energy sector. - - Capability of conducting energy production and conversion system design, manufacturing, modification and montage projects. - - Capability of taking on missions in desing ang procect of HVAC-R and comcustion systems - - Capability of management in energy production, conversion and power distribution plants. - - Capability of taking on missions in project ang application of renewable energy - - Capability of taking on missions in project ang application of enviroment and waste management systems Communication and Social Competence - - Instructor training - - Capability of taking on a task in research and development units - - Capability of designing and manufacturing thermal and thermo-mechanical systems. - - Capability of taking management mission in energy sector - - Taking on specialist and management tasks in governmental institutions relevant to energy sector. - - Capability of conducting energy production and conversion system design, manufacturing, modification and montage projects. - - Capability of taking on missions in desing ang procect of HVAC-R and comcustion systems - - Capability of management in energy production, conversion and power distribution plants. - - Capability of taking on missions in project ang application of renewable energy - - Capability of taking on missions in project ang application of enviroment and waste management systems Field-based Competence - - Instructor training - - Capability of taking on a task in research and development units - - Capability of designing and manufacturing thermal and thermo-mechanical systems. - - Capability of taking management mission in energy sector - - Taking on specialist and management tasks in governmental institutions relevant to energy sector. - - Capability of conducting energy production and conversion system design, manufacturing, modification and montage projects. - - Capability of taking on missions in desing ang procect of HVAC-R and comcustion systems - - Capability of management in energy production, conversion and power distribution plants. - - Capability of taking on missions in project ang application of renewable energy - - Capability of taking on missions in project ang application of enviroment and waste management systems | |
| Quality Assurance | - | |
| Access Requirements | General admission requirements stated under Info on the Institution on this website are being applied to start this programme. | |
| Conditions for Success | Theoretical, Factual - - Instructor training - - Capability of taking on a task in research and development units - - Capability of designing and manufacturing thermal and thermo-mechanical systems. - - Capability of taking management mission in energy sector - - Taking on specialist and management tasks in governmental institutions relevant to energy sector. - - Capability of conducting energy production and conversion system design, manufacturing, modification and montage projects. - - Capability of taking on missions in desing ang procect of HVAC-R and comcustion systems - - Capability of management in energy production, conversion and power distribution plants. - - Capability of taking on missions in project ang application of renewable energy - - Capability of taking on missions in project ang application of enviroment and waste management systems SKILLS Cognitive, Practical - - Instructor training - - Capability of taking on a task in research and development units - - Capability of designing and manufacturing thermal and thermo-mechanical systems. - - Capability of taking management mission in energy sector - - Taking on specialist and management tasks in governmental institutions relevant to energy sector. - - Capability of conducting energy production and conversion system design, manufacturing, modification and montage projects. - - Capability of taking on missions in desing ang procect of HVAC-R and comcustion systems - - Capability of management in energy production, conversion and power distribution plants. - - Capability of taking on missions in project ang application of renewable energy - - Capability of taking on missions in project ang application of enviroment and waste management systems COMPETENCIES Ability to work independently and take responsibility - - Instructor training - - Capability of taking on a task in research and development units - - Capability of designing and manufacturing thermal and thermo-mechanical systems. - - Capability of taking management mission in energy sector - - Taking on specialist and management tasks in governmental institutions relevant to energy sector. - - Capability of conducting energy production and conversion system design, manufacturing, modification and montage projects. - - Capability of taking on missions in desing ang procect of HVAC-R and comcustion systems - - Capability of management in energy production, conversion and power distribution plants. - - Capability of taking on missions in project ang application of renewable energy - - Capability of taking on missions in project ang application of enviroment and waste management systems Learning Competence - - Instructor training - - Capability of taking on a task in research and development units - - Capability of designing and manufacturing thermal and thermo-mechanical systems. - - Capability of taking management mission in energy sector - - Taking on specialist and management tasks in governmental institutions relevant to energy sector. - - Capability of conducting energy production and conversion system design, manufacturing, modification and montage projects. - - Capability of taking on missions in desing ang procect of HVAC-R and comcustion systems - - Capability of management in energy production, conversion and power distribution plants. - - Capability of taking on missions in project ang application of renewable energy - - Capability of taking on missions in project ang application of enviroment and waste management systems Communication and Social Competence - - Instructor training - - Capability of taking on a task in research and development units - - Capability of designing and manufacturing thermal and thermo-mechanical systems. - - Capability of taking management mission in energy sector - - Taking on specialist and management tasks in governmental institutions relevant to energy sector. - - Capability of conducting energy production and conversion system design, manufacturing, modification and montage projects. - - Capability of taking on missions in desing ang procect of HVAC-R and comcustion systems - - Capability of management in energy production, conversion and power distribution plants. - - Capability of taking on missions in project ang application of renewable energy - - Capability of taking on missions in project ang application of enviroment and waste management systems Field-based Competence - - Instructor training - - Capability of taking on a task in research and development units - - Capability of designing and manufacturing thermal and thermo-mechanical systems. - - Capability of taking management mission in energy sector - - Taking on specialist and management tasks in governmental institutions relevant to energy sector. - - Capability of conducting energy production and conversion system design, manufacturing, modification and montage projects. - - Capability of taking on missions in desing ang procect of HVAC-R and comcustion systems - - Capability of management in energy production, conversion and power distribution plants. - - Capability of taking on missions in project ang application of renewable energy - - Capability of taking on missions in project ang application of enviroment and waste management systems A student is required to successfully complete a minimum of 8 courses (one of them must be compulsory course, one of them must be Research Methods and Publication Ethics course-If compulsory course and/or research methods and publication ethics lesson is/are passed during MsC, another elective courses must be passed instead of them to achieve at least 240 ECTS), doctorate seminar, doctorate proficiency exam, doctorate thesis studies, not less than 240 ECTS credits, have a minimum GPA of 2.00/4.00 and no letter grades lower than CB grades. Hence, he/she must defend eventually his/her Doctoral Thesis. | |
| Progression Paths (Relationship Type) | The graduates of the Energy Systems Engineering Doctorate Program will find a wide range of jobs as designers or practitioners in the fields of energy generation, transmission, distribution and use in academic and normal life. | |
| Legal Basis | - | |
| Validity Period (If Any) | Qualification is continuous | |
| Url | Open Address | |
TR0030217251
Basic Science, Basic Engineering and Energy Systems Engineering skills in the field of engineering related to the accumulation of knowledge and ability to apply this knowledge. Ability to identify, define, formulate and solve complex engineering problems; Selecting and applying appropriate analysis and modeling methods for this purpose. The ability to design a complex system, process, device, or product to meet specific requirements under realistic constraints and conditions; The ability to apply modern design methods for this purpose. Ability to develop, select and use modern techniques and tools necessary for the applications of the Department of Energy Systems Engineering; The ability to use information technologies effectively. Ability to design experiments, conduct experiments, collect data, analyze and interpret results for examining problems related to Energy Systems Engineering. Ability to work individually and in teams in the field of Energy Systems Engineering. Effective communication and reporting skills in Turkish verbal and written, at least one foreign language knowledge. Awareness of the necessity of life-long learning; Access to knowledge, ability to follow developments in science and technology, and constant self-renewal. Professional and ethical responsibility. Information on project management and practices in business life such as risk management and change management; Awareness of entrepreneurship, innovation and sustainable development. Information on the effects of the applications of the Department of Energy Systems Engineering on health, energy, environment and safety in the universal and social dimensions and the problems of the age; Awareness of the legal consequences of Energy Systems Engineering solutions.
(1) Students take the final exam and/or the final project in addition to the mid-term exams and/or mid-term studies. Examination calendar is published on the website of the related academic department. (2) The success of the students is evaluated with the methods and criteria which are stated on the course description forms that are declared at the beginning of semester. (3) Students are obliged to succeed in must courses. They can reselect a failed elective course or select another elective instead. (4) Mid-term exams and/or mid-term studies and final exam and/or the final project are evaluated over 100 raw points. Letter success grades over 100 raw points are given for seminars, thesis studies, term project courses and proficiency exams. To succeed in courses, the minimum letter success grades must be CC for master?s degree and CB for doctorate and integrated (post bachelor) doctorate. (5) A student whose raw point is under 25 fails the course by receiving an (FF) grade directly. The success grade of a student whose raw point is 25 or above is evaluated with the grades of which coefficients and definitions are stated below considering the general status of the class, average points and statistical range. After this evaluation, it is possible for the letter success grade equivalents of raw points that are 25 and above to be (FF). (6) Coefficients and letter success grades are evaluated as shown below: a) Coefficients Letter Success Grades 4.00 AA 3.50 BA 3.00 BB 2.50 CB 2.00 CC 1.50 DC 1.00 DD 0.50 FD 0.00 FF b) The letter grades other than the ones in the clause ?a? are: 1) D: Absent 2) G: Not attended 3) E: Incomplete (The E grades which are not corrected until after 3 weeks from the finalization of letter success grades are converted to FF) (7) The CumGPA is calculated via dividing the final grades of all of the courses throughout a student?s study period by the total number of credits. The obtained CumGPA is shown with two decimals after the point. (8) While calculating both the GPAs of semesters/years and the CumGPA, the letters grades from AA to FF are based on. G and D grades are processed as FF. (9) All grades are included in the transcripts of students. (10) For graduation, the CumGPA must be 2,50/4,00 minimum for master?s degree with or without thesis; 3,00/4,00 minimum for doctorate or integrated (post bachelor) doctorate programmes. Despite completing all the credits, students who cannot provide the graduation conditions take new courses to do so. (11) Students who do not provide the attendance conditions or other course requirements cannot take the final exam of the course and are regarded as absent (D). All written evaluations are subject to changes to be made in Gazi University Graduate Education Regulation. Theoretical, Factual - - Instructor training - - Capability of taking on a task in research and development units - - Capability of designing and manufacturing thermal and thermo-mechanical systems. - - Capability of taking management mission in energy sector - - Taking on specialist and management tasks in governmental institutions relevant to energy sector. - - Capability of conducting energy production and conversion system design, manufacturing, modification and montage projects. - - Capability of taking on missions in desing ang procect of HVAC-R and comcustion systems - - Capability of management in energy production, conversion and power distribution plants. - - Capability of taking on missions in project ang application of renewable energy - - Capability of taking on missions in project ang application of enviroment and waste management systems SKILLS Cognitive, Practical - - Instructor training - - Capability of taking on a task in research and development units - - Capability of designing and manufacturing thermal and thermo-mechanical systems. - - Capability of taking management mission in energy sector - - Taking on specialist and management tasks in governmental institutions relevant to energy sector. - - Capability of conducting energy production and conversion system design, manufacturing, modification and montage projects. - - Capability of taking on missions in desing ang procect of HVAC-R and comcustion systems - - Capability of management in energy production, conversion and power distribution plants. - - Capability of taking on missions in project ang application of renewable energy - - Capability of taking on missions in project ang application of enviroment and waste management systems COMPETENCIES Ability to work independently and take responsibility - - Instructor training - - Capability of taking on a task in research and development units - - Capability of designing and manufacturing thermal and thermo-mechanical systems. - - Capability of taking management mission in energy sector - - Taking on specialist and management tasks in governmental institutions relevant to energy sector. - - Capability of conducting energy production and conversion system design, manufacturing, modification and montage projects. - - Capability of taking on missions in desing ang procect of HVAC-R and comcustion systems - - Capability of management in energy production, conversion and power distribution plants. - - Capability of taking on missions in project ang application of renewable energy - - Capability of taking on missions in project ang application of enviroment and waste management systems Learning Competence - - Instructor training - - Capability of taking on a task in research and development units - - Capability of designing and manufacturing thermal and thermo-mechanical systems. - - Capability of taking management mission in energy sector - - Taking on specialist and management tasks in governmental institutions relevant to energy sector. - - Capability of conducting energy production and conversion system design, manufacturing, modification and montage projects. - - Capability of taking on missions in desing ang procect of HVAC-R and comcustion systems - - Capability of management in energy production, conversion and power distribution plants. - - Capability of taking on missions in project ang application of renewable energy - - Capability of taking on missions in project ang application of enviroment and waste management systems Communication and Social Competence - - Instructor training - - Capability of taking on a task in research and development units - - Capability of designing and manufacturing thermal and thermo-mechanical systems. - - Capability of taking management mission in energy sector - - Taking on specialist and management tasks in governmental institutions relevant to energy sector. - - Capability of conducting energy production and conversion system design, manufacturing, modification and montage projects. - - Capability of taking on missions in desing ang procect of HVAC-R and comcustion systems - - Capability of management in energy production, conversion and power distribution plants. - - Capability of taking on missions in project ang application of renewable energy - - Capability of taking on missions in project ang application of enviroment and waste management systems Field-based Competence - - Instructor training - - Capability of taking on a task in research and development units - - Capability of designing and manufacturing thermal and thermo-mechanical systems. - - Capability of taking management mission in energy sector - - Taking on specialist and management tasks in governmental institutions relevant to energy sector. - - Capability of conducting energy production and conversion system design, manufacturing, modification and montage projects. - - Capability of taking on missions in desing ang procect of HVAC-R and comcustion systems - - Capability of management in energy production, conversion and power distribution plants. - - Capability of taking on missions in project ang application of renewable energy - - Capability of taking on missions in project ang application of enviroment and waste management systems
General admission requirements stated under Info on the Institution on this website are being applied to start this programme.
The graduates of the Energy Systems Engineering Doctorate Program will find a wide range of jobs as designers or practitioners in the fields of energy generation, transmission, distribution and use in academic and normal life.
Qualification is continuous