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Modeling, transient simulations and parametric studies of parabolic trough collectors with thermal energy storage

عنوان	Modeling, transient simulations and parametric studies of parabolic trough collectors with thermal energy storage
نویسنده	Akba, Tufan, Baker, D., Yazicioglu, A. G.
تاریخ انتشار:	2020-03-15
محل انتشار	- Elsevier
موضوع	Concentrating solar power, Parabolic trough collector, Thermal energy storage, Solar thermal energy, Two-tank storage
نوع	دوره ای
زبان	انگلیسی
دیجیتال	بله
نسخه خطی	خیر
کتابخانه:	دانشگاه اوزیغین
شناسه دارایی کتابخانه	0038-092X
شماره ثبت	4c4f3241-4305-494e-b82b-bc87613fc7cf
تاریخ	2020-03-15
متن نمونه	For investigating the system response of parabolic trough collector heat generating system, a plant with parabolic trough collector field and two-tank molten salt thermal energy storage model with component-level control algorithm is developed for managing various working conditions. The model is transient inside the components and responds with hourly weather and demand data. The main purpose of this work is providing an alternative design methodology that focuses on the collector field, and storage size by investment, location, and load type. Using a simple economic model, the plant parameters are calculated, which contains only initial investment costs of the parabolic trough collector field and thermal energy storage costs. Depending on the economic model, various sizes of collector field and storage combinations are created at fixed initial investment costs in the mathematical model. A parametric study is performed by using the economic model simulating at several initial investment costs, two different locations in Turkey, and four different load profiles. As a result of the parametric study, maximum solar fraction cases are selected and the generalized trend is observed. The effect of thermal energy storage on the solar fraction is discussed and the change in thermal energy storage with optimum plant size is investigated. After the optimum investment, the linear increment trend of dispatchability is disappearing and increases asymptotically by increasing the plant and/or storage size. Later in this work, the significance of the load profile is emphasized, which should be one of the major design parameters for solar-powered energy systems.
DOI	10.1016/j.solener.2020.01.079
Cilt	199

مشاهده در منبع دانشگاه اوزیغین دانشگاه اوزیغین - موتور جستجوی نسخه های خطی عثمانی

دانشگاه اوزیغین

Modeling, transient simulations and parametric studies of parabolic trough collectors with thermal energy storage

نویسنده Akba, Tufan, Baker, D., Yazicioglu, A. G.

تاریخ انتشار 2020-03-15

محل انتشار - Elsevier

موضوع Concentrating solar power, Parabolic trough collector, Thermal energy storage, Solar thermal energy, Two-tank storage

نوع دوره ای

زبان انگلیسی

دیجیتال بله

نسخه خطی خیر

کتابخانه دانشگاه اوزیغین

شناسه دارایی کتابخانه 0038-092X

شماره ثبت 4c4f3241-4305-494e-b82b-bc87613fc7cf

تاریخ 2020-03-15

متن نمونه For investigating the system response of parabolic trough collector heat generating system, a plant with parabolic trough collector field and two-tank molten salt thermal energy storage model with component-level control algorithm is developed for managing various working conditions. The model is transient inside the components and responds with hourly weather and demand data. The main purpose of this work is providing an alternative design methodology that focuses on the collector field, and storage size by investment, location, and load type. Using a simple economic model, the plant parameters are calculated, which contains only initial investment costs of the parabolic trough collector field and thermal energy storage costs. Depending on the economic model, various sizes of collector field and storage combinations are created at fixed initial investment costs in the mathematical model. A parametric study is performed by using the economic model simulating at several initial investment costs, two different locations in Turkey, and four different load profiles. As a result of the parametric study, maximum solar fraction cases are selected and the generalized trend is observed. The effect of thermal energy storage on the solar fraction is discussed and the change in thermal energy storage with optimum plant size is investigated. After the optimum investment, the linear increment trend of dispatchability is disappearing and increases asymptotically by increasing the plant and/or storage size. Later in this work, the significance of the load profile is emphasized, which should be one of the major design parameters for solar-powered energy systems.

DOI 10.1016/j.solener.2020.01.079

Cilt 199