Utilizing jet impingement on protrusion/dimple heated plate to improve the performance of double pass solar heat collector

1. Modern coffee-processing facilities that have been developed recently have provided the features of low equipment costs and reduced labor requirements, but are somewhat expensive to operate when electric power is used entirely to heat the drying air. 2. The use of solar energy as a heat source was considered, since previous research where solar heat was used to dry other crops indicates that solar heat-collectors could also be used successfully for drying coffee. 3. An experimental processing facility which employs a solar heat-collector was built and operated, and it has been demonstrated that worthwhile reductions in operating costs can be achieved through the use of solar energy. 4. It was concluded that other coffee producers could economically use solar heat-collectors to reduce electricity costs. Drying facilities should be designed using the following as guides: A. Provide 10 square feet of drying-bin area for each 100 hundred-weights of coffee produced yearly. B. Install a fan which will deliver 100 c.f.m. per square foot of bin area against a static pressure of 1-inch water gage. C. Construct the solar heat-collector according to the specifications presented in figure 1. D. Install electric heating elements which provide up to 5,000 w. for each 100 hundred-weights processed yearly.

Download Full-text

Temperature Measurements on a Solar and Low Enthalpy Geothermal Open-Air Asphalt Surface Platform in a Cold Climate Region

Energies ◽

10.3390/en13040979 ◽

2020 ◽

Vol 13 (4) ◽

pp. 979 ◽

Cited By ~ 1

Author(s):

Caner Çuhac ◽

Anne Mäkiranta ◽

Petri Välisuo ◽

Erkki Hiltunen ◽

Mohammed Elmusrati

Keyword(s):

Heat Flux ◽

Urban Areas ◽

Storage System ◽

Energy Resource ◽

Cold Climate ◽

Solar Irradiation ◽

Solar Heat ◽

Heat Collector ◽

One Year

Solar heat, already captured by vast asphalt fields in urban areas, is potentially a huge energy resource. The vertical soil temperature profile, i.e., low enthalpy geothermal energy, reveals how efficiently the irradiation is absorbed or radiated back to the atmosphere. Measured solar irradiation, heat flux on the asphalt surface and temperature distribution over a range of depths describe the thermal energy from an asphalt surface down to 10 m depth. In this study, those variables were studied by long-term measurements in an open-air platform in Finland. To compensate the nighttime heat loss, the accumulated heat on the surface should be harvested during the sunny daytime periods. A cumulative heat flux over one year from asphalt to the ground was 70% of the cumulative solar irradiance measured during the same period. However, due to the nighttime heat losses, the net heat flux during 5 day period was only 18% of the irradiance in spring, and was negative during autumn, when the soil was cooling. These preliminary results indicate that certain adaptive heat transfer and storage mechanisms are needed to minimize the loss and turn the asphalt layer into an efficient solar heat collector connected with a seasonal storage system.

Download Full-text

Infrared-reflecting selective surface materials which can be useful for architectural and/or solar heat collector windows

10.1063/1.30307 ◽

1975 ◽

Cited By ~ 4

Author(s):

D. E. Claridge ◽

R. C. Langley ◽

L. Muldawer ◽

S. Schnatterly ◽

S. D. Silverstein

Keyword(s):

Solar Heat ◽

Surface Materials ◽

Heat Collector

Download Full-text

Experimental study of the stability of boundary-layer flow along a heated, inclined plate

Journal of Fluid Mechanics ◽

10.1017/s0022112098001347 ◽

1998 ◽

Vol 367 ◽

pp. 1-25 ◽

Cited By ~ 18

Author(s):

E. J. ZUERCHER ◽

J. W. JACOBS ◽

C. F. CHEN

Keyword(s):

Boundary Layer ◽

Growth Rates ◽

Growth Curves ◽

Leading Edge ◽

Heated Plate ◽

Inclined Plate ◽

Double Pass ◽

Longitudinal Vortices ◽

Spatial Growth ◽

Layer Flow

Experiments are conducted to study the longitudinal vortices that develop in the boundary layer on the upper surface of an inclined, heated plate. An isothermal plate in water is inclined at angles ranging from 20 to 60 degrees (from the vertical) while the temperature difference is varied from 2 to 23°C. A double-pass Schlieren system is used to visualize the vortices and particle image velocimetry (PIV) is used to measure velocities. In addition, a unique method is developed such that both the Schlieren visualization and PIV can be performed simultaneously. The wavelengths of the vortices and the critical modified Reynolds numbers (R˜) for the onset, merging, and breakup of the vortices are determined from Schlieren images for Pr=5.8. The critical values for R˜ and the critical wavelengths are compared to results of previous experiments and stability analyses. The spatial growth rates of vortices are determined by using the PIV measurements to determine how the circulation in the vortices grows with distance from the leading edge. This is the first time that the growth rate of the vortices have been found using velocity measurements. These spatial growth rates are compared to the results of Iyer & Kelly (1974) and found to be in general agreement. By defining a suitable circulation threshold, the critical R˜ for the onset of the vortices can be found from the growth curves.

Download Full-text

Effect of Thermal Boundary Condition on Heat Dissipation due to Swirling Jet Impingement on a Heated Plate

Journal of Physics Conference Series ◽

10.1088/1742-6596/395/1/012039 ◽

2012 ◽

Vol 395 ◽

pp. 012039

Author(s):

Karl J Brown ◽

Gerry Byrne ◽

Tadhg S O'Donovan ◽

Darina B Murray

Keyword(s):

Boundary Condition ◽

Heat Dissipation ◽

Jet Impingement ◽

Thermal Boundary Condition ◽

Heated Plate ◽

Swirling Jet

Download Full-text

Experimental Investigation of a New Flat Plate Solar Heat Collector by Micro Heat Pipe Array

2010 14th International Heat Transfer Conference, Volume 5 ◽

10.1115/ihtc14-22442 ◽

2010 ◽

Author(s):

Yao-Hua Zhao ◽

Fei-Long Zou ◽

Yan-Hua Diao ◽

Zhen-Hua Quan

Keyword(s):

Flat Plate ◽

Heat Pipe ◽

High Efficiency ◽

Heat Pipes ◽

Total Heat Loss ◽

Solar Heat ◽

Solar Water ◽

Micro Heat Pipe ◽

Heat Collector ◽

Micro Heat Pipes

The performance of a new flat plate solar heat collector with perfect combination of high efficiency and low cost is investigated experimentally. The new system described in this study uses a novel micro heat pipe array as a key component for the system. One such flat plate heat collector contains over 300 micro heat pipes per 1m2 and the hydraulic diameter of the micro heat pipes is 0.4–1.0mm. A detailed heat transfer experimental study is conducted during daylight hours over several months, focusing on the collector efficiency and overall efficiency of the system as well as total heat loss factor. The results show that the collector’s maximum instantaneous efficiency is up to 88%. Compared with conventional evacuated glass tube solar water heater, the system offers the additional benefits of high pressure resistance, low weight, good reliability and durability, easy integration into buildings and absence of freezing during winter months. Besides, compared with traditional flat-plate solar water system which is mainly sheet-and-tube concept, the system also shows many advantages: higher efficiency, much cheaper, absence of tube-bonding and freezing etc. Therefore, the system proposes a unique substitute to common solar water heating systems.

Download Full-text