Postgraduate Certificate in Power Plant Heat Transfer
-- ViewingNowThe Postgraduate Certificate in Power Plant Heat Transfer is a comprehensive course that focuses on the intricacies of heat transfer processes in power plants. This certification is crucial for engineers and professionals involved in designing, operating, and maintaining power generation systems.
3,629+
Students enrolled
GBP £ 140
GBP £ 202
Save 44% with our special offer
ě´ ęłźě ě ëí´
100% ě¨ëźě¸
ě´ëěë íěľ
ęłľě ę°ëĽí ě¸ěŚě
LinkedIn íëĄíě ěśę°
ěëŁęšě§ 2ę°ě
죟 2-3ěę°
ě¸ě ë ěě
ë기 ę¸°ę° ěě
ęłźě ě¸ëśěŹí
⢠Fundamentals of Heat Transfer: This unit will cover the basic principles of heat transfer, including conduction, convection, and radiation. It will also introduce students to the properties of heat and temperature, as well as the first and second laws of thermodynamics.
⢠Power Plant Thermodynamics: This unit will delve into the thermodynamic cycles used in power plants, including the Rankine cycle and the Brayton cycle. Students will learn about the efficiency of these cycles and how they can be optimized for maximum power output.
⢠Heat Exchanger Design: This unit will cover the design and operation of heat exchangers, which are critical components of power plants. Students will learn about different types of heat exchangers, including shell and tube and plate heat exchangers, and how they can be designed to maximize heat transfer while minimizing pressure drop.
⢠Boiler Design and Operation: This unit will focus on the design and operation of boilers, which are used to generate steam in power plants. Students will learn about the different types of boilers, including fire-tube and water-tube boilers, and how they can be designed and operated to maximize efficiency and minimize emissions.
⢠Steam Turbine Design and Operation: This unit will cover the design and operation of steam turbines, which are used to convert the energy in steam into mechanical energy in power plants. Students will learn about the different types of steam turbines, including impulse and reaction turbines, and how they can be designed and operated to maximize efficiency and minimize emissions.
⢠Cooling Systems: This unit will cover the design and operation of cooling systems, which are used to remove heat from power plants. Students will learn about different types of cooling systems, including once-through and recirculating systems, and how they can be designed and operated to minimize water usage and environmental impact.
⢠Advanced Topics in Power Plant Heat Transfer: This unit will cover advanced topics in power plant heat transfer, including the use of computational fluid dynamics (CFD) for heat transfer analysis, the effects of fouling on heat transfer performance, and the use of heat transfer augmentation techniques to improve performance.
ę˛˝ë Ľ 경ëĄ
ě í ěęą´
- 죟ě ě ëí 기본 ě´í´
- ěě´ ě¸ě´ ëĽěë
- ěť´í¨í° ë° ě¸í°ëˇ ě ꡟ
- 기본 ěť´í¨í° 기ě
- ęłźě ěëŁě ëí íě
ěŹě ęłľě ěę˛Šě´ íěíě§ ěěľëë¤. ě ꡟěąě ěí´ ě¤ęłë ęłźě .
ęłźě ěí
ě´ ęłźě ě ę˛˝ë Ľ ę°ë°ě ěí ě¤ěŠě ě¸ ě§ěęłź 기ě ě ě ęłľíŠëë¤. ꡸ę˛ě:
- ě¸ě ë°ě 기ę´ě ěí´ ě¸ěŚëě§ ěě
- ęśíě´ ěë 기ę´ě ěí´ ęˇě ëě§ ěě
- ęłľě ě겊ě ëł´ěě
ęłźě ě ěąęłľě ěźëĄ ěëŁí늴 ěëŁ ě¸ěŚě뼟 ë°ę˛ ëŠëë¤.
ě ěŹëë¤ě´ ę˛˝ë Ľě ěí´ ě°ëŚŹëĽź ě ííëę°
댏롰 ëĄëŠ ě¤...
ě죟 돝ë ě§ëŹ¸
ě˝ě¤ ěę°ëŁ
- 죟 3-4ěę°
- 쥰기 ě¸ěŚě ë°°ěĄ
- ę°ë°Ší ëąëĄ - ě¸ě ë ě§ ěě
- 죟 2-3ěę°
- ě 기 ě¸ěŚě ë°°ěĄ
- ę°ë°Ší ëąëĄ - ě¸ě ë ě§ ěě
- ě 체 ě˝ě¤ ě ꡟ
- ëě§í¸ ě¸ěŚě
- ě˝ě¤ ěëŁ
ęłźě ě ëł´ ë°ę¸°
íěŹëĄ ě§ëś
ě´ ęłźě ě ëšěŠě ě§ëśí기 ěí´ íěŹëĽź ěí ě˛ęľŹě뼟 ěě˛íě¸ě.
ě˛ęľŹěëĄ ę˛°ě ę˛˝ë Ľ ě¸ěŚě íë
