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![Comparison of the present model with Ref. [ 13 ]](https://asmedc.silverchair-cdn.com/asmedc/content_public/journal/thermalscienceapplication/15/6/10.1115_1.4056979/1/s_tsea_15_6_061001_f006.png?Expires=2147483647&Signature=PyLc~qDHXjYbNmPWbYsRquLeLd0ntuinN9bp3RxjcSXA7ZcpSXKiwR4bDYUxO3IM7tvJvPw8tYytCCNkFWH0BHw~7svrnnOTCAq1yv5B5aDErOcS0UlnUnNOyasaXxQ9y3qp1E65CyW7jJc6UmXQDWCFWDk2StGCx1Nrpi69DFQ0KJdoaLC~TaoxAybxzFTRnuuKjgcUruvdLlYGDBBAI59Pubk7YUjgG2hYmShaLSQnZZoJZJ44R~SAQ0SiuWBHkhXfWLA~W1SS9aP5wY2zJbw~Prt1oie82Jowpkzs-HD0qvr4d96Qcn4h4HNBe868NvXUKraScMe298HdSd0jSQ__&Key-Pair-Id=APKAIE5G5CRDK6RD3PGA)
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in Drying Kinetics and Performance Analysis of Thermal Storage-Based Hybrid Greenhouse Dryer for Uniform Drying of Tomato Flakes
> Journal of Thermal Science and Engineering Applications
Published Online: March 31, 2023
Fig. 1 Schematic view of modified hybrid greenhouse dryer More
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in Drying Kinetics and Performance Analysis of Thermal Storage-Based Hybrid Greenhouse Dryer for Uniform Drying of Tomato Flakes
> Journal of Thermal Science and Engineering Applications
Published Online: March 31, 2023
Fig. 2 Pictorial view of modified hybrid greenhouse dryer More
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in Drying Kinetics and Performance Analysis of Thermal Storage-Based Hybrid Greenhouse Dryer for Uniform Drying of Tomato Flakes
> Journal of Thermal Science and Engineering Applications
Published Online: March 31, 2023
Fig. 3 Solar radiation, ambient temperature, and relative humidity observed on first and second day More
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in Drying Kinetics and Performance Analysis of Thermal Storage-Based Hybrid Greenhouse Dryer for Uniform Drying of Tomato Flakes
> Journal of Thermal Science and Engineering Applications
Published Online: March 31, 2023
Fig. 4 Crop and ground temperature observed on first and second day More
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in Drying Kinetics and Performance Analysis of Thermal Storage-Based Hybrid Greenhouse Dryer for Uniform Drying of Tomato Flakes
> Journal of Thermal Science and Engineering Applications
Published Online: March 31, 2023
Fig. 5 Room temperature and outlet temperature observed on first and second day More
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in Drying Kinetics and Performance Analysis of Thermal Storage-Based Hybrid Greenhouse Dryer for Uniform Drying of Tomato Flakes
> Journal of Thermal Science and Engineering Applications
Published Online: March 31, 2023
Fig. 6 Variation of net heat gain percentage in HGHD More
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in Drying Kinetics and Performance Analysis of Thermal Storage-Based Hybrid Greenhouse Dryer for Uniform Drying of Tomato Flakes
> Journal of Thermal Science and Engineering Applications
Published Online: March 31, 2023
Fig. 7 Moisture ratio and moisture content for open and hybrid mode More
Image
in Drying Kinetics and Performance Analysis of Thermal Storage-Based Hybrid Greenhouse Dryer for Uniform Drying of Tomato Flakes
> Journal of Thermal Science and Engineering Applications
Published Online: March 31, 2023
Fig. 8 Effective moisture diffusivity versus drying time for tomato flakes drying More
Image
in Drying Kinetics and Performance Analysis of Thermal Storage-Based Hybrid Greenhouse Dryer for Uniform Drying of Tomato Flakes
> Journal of Thermal Science and Engineering Applications
Published Online: March 31, 2023
Fig. 9 Experimental and prediction value of moisture ratio for different models in open mode More
Image
in Drying Kinetics and Performance Analysis of Thermal Storage-Based Hybrid Greenhouse Dryer for Uniform Drying of Tomato Flakes
> Journal of Thermal Science and Engineering Applications
Published Online: March 31, 2023
Fig. 10 Experimental and prediction value of moisture ratio for different models in hybrid mode More
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in Entropy Generation Minimization for Boiling Flow Inside Evaporator Tube With R32 and R410A Refrigerants: A Comparison of Different Two-Phase Flow Models
> Journal of Thermal Science and Engineering Applications
Published Online: March 31, 2023
Fig. 1 Horizontal flow boiling due to uniform heating More
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in Entropy Generation Minimization for Boiling Flow Inside Evaporator Tube With R32 and R410A Refrigerants: A Comparison of Different Two-Phase Flow Models
> Journal of Thermal Science and Engineering Applications
Published Online: March 31, 2023
Fig. 2 Flow regimes for horizontal flow boiling More
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in Entropy Generation Minimization for Boiling Flow Inside Evaporator Tube With R32 and R410A Refrigerants: A Comparison of Different Two-Phase Flow Models
> Journal of Thermal Science and Engineering Applications
Published Online: March 31, 2023
Fig. 3 Comparison of the present model with the experimental result of Ali and Alam [ 46 ] More
Image
in Entropy Generation Minimization for Boiling Flow Inside Evaporator Tube With R32 and R410A Refrigerants: A Comparison of Different Two-Phase Flow Models
> Journal of Thermal Science and Engineering Applications
Published Online: March 31, 2023
Fig. 4 Comparison of the present model with the experimental result of Qiu et al. [ 47 ] More
Image
in Entropy Generation Minimization for Boiling Flow Inside Evaporator Tube With R32 and R410A Refrigerants: A Comparison of Different Two-Phase Flow Models
> Journal of Thermal Science and Engineering Applications
Published Online: March 31, 2023
Fig. 5 Comparison of the present model with the experimental result of da Silva Lima et al. [ 48 ] More
Image
in Entropy Generation Minimization for Boiling Flow Inside Evaporator Tube With R32 and R410A Refrigerants: A Comparison of Different Two-Phase Flow Models
> Journal of Thermal Science and Engineering Applications
Published Online: March 31, 2023
Fig. 6 Comparison of the present model with Ref. [ 13 ] More
Image
in Entropy Generation Minimization for Boiling Flow Inside Evaporator Tube With R32 and R410A Refrigerants: A Comparison of Different Two-Phase Flow Models
> Journal of Thermal Science and Engineering Applications
Published Online: March 31, 2023
Fig. 7 Thermal and pressure drop contribution of Sg; R32 More
Image
in Entropy Generation Minimization for Boiling Flow Inside Evaporator Tube With R32 and R410A Refrigerants: A Comparison of Different Two-Phase Flow Models
> Journal of Thermal Science and Engineering Applications
Published Online: March 31, 2023
Fig. 8 Void fraction, h 2 φ , and pressure drop variation along the tube length More
Image
in Entropy Generation Minimization for Boiling Flow Inside Evaporator Tube With R32 and R410A Refrigerants: A Comparison of Different Two-Phase Flow Models
> Journal of Thermal Science and Engineering Applications
Published Online: March 31, 2023
Fig. 9 Entropy generation versus mass flux for different diameters with ( a ) R32 and ( b ) R410A refrigerants More
Image
in Entropy Generation Minimization for Boiling Flow Inside Evaporator Tube With R32 and R410A Refrigerants: A Comparison of Different Two-Phase Flow Models
> Journal of Thermal Science and Engineering Applications
Published Online: March 31, 2023
Fig. 10 Entropy generation versus mass flux for different lengths with ( a ) R32 and ( b ) R410A refrigerants More
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