C. Kutscher scite author profile

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History, current state, and future of linear Fresnel concentrating solar collectors

Zhu

et al. 2014

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Heat Exchange Effectiveness and Pressure Drop for Air Flow Through Perforated Plates With and Without Crosswind

Kutscher

1994

121

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Low-porosity perforated plates are being used as absorbers for heating ambient air in a new type of unglazed solar collector. This paper investigates the convective heat transfer effectiveness for low-speed air flow through thin, isothermal perforated plates with and without a crosswind on the upstream face. The objective of this work is to provide information that will allow designers to optimize hole size and spacing. In order to obtain performance data, a wind tunnel and small lamp array were designed and built. Experimental data were taken for a range of plate porosities from 0.1 to 5 percent, hole Reynolds numbers from 100 to 2000, and wind speeds from 0 to 4 m/s. Correlations were developed for heat exchange effectiveness and also for pressure drop. Infrared thermography was used to visualize the heat transfer taking place at the surface.

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Water Use in Parabolic Trough Power Plants: Summary Results from WorleyParsons' Analyses

Turchi¹,

Wagner²,

Kutscher³

2010

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Unglazed Transpired Solar Collectors: Heat Loss Theory

1993

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Unglazed transpired solar collectors offer a potentially low cost, high-efficiency option for once-through applications such as preheating air for ventilation, crop drying, and desiccant regeneration. This paper examines the major heat loss mechanisms associated with this concept. Radiation heat loss is determined by considering losses to both the sky and the ground. Convective heat losses are obtained by integrating the product of the temperature and velocity profiles in the boundary layer at the downwind edge of the collector. This convective heat loss is then expressed in terms of the thermal equivalent length of irradiated absorber, and analysis shows that this loss can be very low for large collectors even under windy conditions. These results are incorporated into a simple computer model which predicts collector efficiency as a function of suction velocity, wind speed, ambient temperature, and radiation. Remaining research issues are discussed.

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C. Kutscher

Heat Loss Testing of Schott's 2008 PTR70 Parabolic Trough Receiver

History, current state, and future of linear Fresnel concentrating solar collectors

Heat Exchange Effectiveness and Pressure Drop for Air Flow Through Perforated Plates With and Without Crosswind

Water Use in Parabolic Trough Power Plants: Summary Results from WorleyParsons' Analyses

Unglazed Transpired Solar Collectors: Heat Loss Theory

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