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A comprehensive approach to mechanical performance prediction of wind turbines considering key design factors via dimensional analysis and angular momentum conservation. [PDF]

Sci Rep
Eain W, Leephakpreeda T.
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Advanced thermal inertia modelling

International Journal of Remote Sensing, 1995
Abstract This paper presents a simple and operational thermal inertia model by using the phase angle information of the diurnal temperature change. The model which is developed in this paper is based on our first-order approximation operational thermal inertia model.
Y. XUE, A. P. CRACKNELL
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Low Thermal Inertia Molding (LTIM)

Polymer-Plastics Technology and Engineering, 1986
Abstract Injection molding is one of the most commonly used methods of processing polymers. The process allows rapid, automated production of a wide variety of complicated, three-dimensional parts in large production volumes. The process is capable of producing compound curvatures, snaps, hinges, bosses, threaded holes, gear teeth, and many other ...
Bwng H. Kim, Nam P. Suh
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Thermal Losses/Thermal Inertia

1986
Quantifying the loss stair-step has been one of the important goals of the evaluation team at the SSPS project. This evaluation area addresses each of the loss elements as they were evaluated, and also discusses one of the interesting realizations that resulted from this evaluation — thermal inertia, a major hinderance to successful solar thermal ...
Mats Andersson, Heinz Jacobs, Ricardo Carmona, Clifford S. Selvage, Pierre Wattiez, Antonio Cuadrado, null Sevillana, T. van Steenberghe, John J. Kraabel, F. Gaus   +9 more
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Rapid thermal cycling with low thermal inertia tools

Polymer Engineering & Science, 2008
Abstract Solid freeform fabrication processes offer the manufacturing flexibility for tools with low thermal inertia and internal conformal channels for rapid thermal cycling in injection molding. This article analyzed each step of a rapid thermal cycling process and provided quantitative guidance for tooling design.
Ronald X. Xu, Emanuel Sachs
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Load thermal inertia modeling method based on discrete‐time inertia model

IEEJ Transactions on Electrical and Electronic Engineering, 2018
Because of thermal inertia, the electric load is affected by the current temperatures as well as historical temperatures. This paper proposes a thermal inertia modeling method for the electric load to reduce forecasting error. In the proposed method, the relationship between the load and the temperature is established based on the discrete‐time inertia
Pei‐Pei Chen, Yu‐Qing Bao
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A low thermal inertia Mossbauer furnace

Journal of Physics E: Scientific Instruments, 1980
A special Mossbauer furnace suitable for amorphous alloys is described. This furnace allows very rapid heat treatment, and is particularly convenient for the study of the thermal stability of such alloys.
J M Dubois, G Le Caer
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Thermal inertia of thermocouples

Measurement Techniques, 1961
A naked thermocouple can be used for studying objects with thermal inertia, with its own thermal inertia neglected, providing high-precision measurements are not required. The use of commercial thermocouples for dynamic measurements, however, introduces an error which normally cannot be neglected.
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