Technical Performance of an Inflatable Solar Dryer for Drying Amaranth Leaves in Kenya

Romuli, Sebastian; Schock, Steffen; Nagle, Marcus; Chege, Christine G. Kiria; Müller, Joachim

doi:10.3390/app9163431

Cited by 12 publications

(10 citation statements)

References 23 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…This suggests a potential capacity increase for the SBD when elevated drying racks are incorporated for drying maize grains. The shorter drying time achieved with the elevated drying racks is due to the air movement over and under the bed of grains on the racks as corroborated by [25]. However, as reported by [12], for grains on the tarpaulin, the air moves over the surface of the grains and increases the grain temperature at the top layer compared to the bottom layer.…”

Section: Comparison Between Moisture Variation Using Elevated Racks and Drying On Tarpaulinsupporting

confidence: 65%

Application of Analytic Hierarchy Process in Selection of an Appropriate Drying Platform for Maize Drying in a Solar Bubble Dryer

Armah¹,

Akowuah²,

Obeng-Akrofi³

et al. 2021

OJAppS

View full text Add to dashboard Cite

The solar bubble dryer (SBD) is a convenient and better option to traditional open sun drying commonly practiced by smallholder farmers in Ghana and other developing countries. However, to operate the SBD, one is faced with the challenge of frequent mixing of grains using a rake to enhance uniform drying and prevent over-heating of the top-layer exposed to the sun. Additionally, condensation in the SBD can compromise the quality of grains during drying under humid conditions. In the present study, the Analytical Hierarchy Process (AHP) was used to select an appropriate drying platform, tarpaulin, or elevated drying rack for maize drying in the SBD. Using the AHP, the elevated drying rack was chosen as a suitable platform for drying maize in the SBD. The SBD with the elevated drying racks was used to dry 270 kg of maize from a moisture content of 18.2% to 12.6% (w.w.b) within 6 hours compared to 11 hours for the same quantity of grains dried on the tarpaulin of the SBD to reach an MC of 12.5% (w.w.b). An average drying rate and moisture extraction rate of 0.93%/h and 2.88 kg/h were achieved with the elevated drying rack system compared to 0.52%/h and 1.60 kg/h when drying on the tarpaulin of the SBD. An average temperature of 44.6˚C recorded in the SBD was 9˚C more compared to the ambient temperature. The thermal efficiency of the SBD collector was determined as 36.2%. Drying grains with the elevated racks showed advantages of reduced drying time, improved airflow through the drying bed, and prevention of condensation, which occurs when drying on the tarpaulin of the SBD.

show abstract

Section: Comparison Between Moisture Variation Using Elevated Racks and Drying On Tarpaulinsupporting

confidence: 65%

Application of Analytic Hierarchy Process in Selection of an Appropriate Drying Platform for Maize Drying in a Solar Bubble Dryer

Armah¹,

Akowuah²,

Obeng-Akrofi³

et al. 2021

OJAppS

View full text Add to dashboard Cite

show abstract

“…The increase in temperature under GTSD was made possible due to the combined effect of greenhouse and suitable design of the base of the dryer and glazing materials. Romuli et al (2019) and Chauhan and Kumar (2016) also observed increased temperature of drying air. The present study corroborates with the findings of Alonge et al (2012) who reported that the maximum 0 temperature (51 C) was obtained in direct passive solar dryer as 0 compared to 38 C of ambient temperature.…”

Section: Resultsmentioning

confidence: 87%

Development and effectiveness of greenhouse type solar dryer for coriander leaves

Singh¹,

Samsher²,

Singh³

et al. 2022

JEB

View full text Add to dashboard Cite

Aim: Sun drying system is not able to provide the best drying performance and quality dried produce of leafy vegetables. To facilitate better options to the farmers, this study aims to develop and evaluate a cost-effective greenhouse type solar dryer to improve shelf stability of coriander leaves. Methodology: A greenhouse type solar dryer (5m x 3m x 2.3m) was developed with the provision of rigid frame, 200 µ UV stabilized LDPE glazing material, solar collector cum drying chamber, inlet air and outlet air openings. The dryer was evaluated for its performance, drying characteristics of coriander leaves and qualitative evaluation of dried product as compared to open sun drying. Results: The greenhouse type solar dryer performed well for coriander drying with increased level of temperature inside the dryer (42oC) and 24% reduced drying time as compared to sun drying (29oC).The loading capacity, efficiency, payback period and B:C ratio of the dryer were found to be 100 kg, 70.47 %, 1.26 yr and 1.79, respectively. The drying of coriander leaves occured mostly in falling rate period. Coriander leaves dried under the dryer possessed higher values of chlorophyll content (1.356 mg g-1 of tissue), ascorbic acid content (111.257 mg 100g-1), rehydration ratio (5.302) and coefficient of rehydration (0.762) than sun dried coriander leaves with the respective values of these quality parameters being 1.097 mg g-1 of tissue, 62.37 mg 100g-1, 4.715 and 0.689, respectively.

show abstract

“…The maximum overall drying efficiency was 39.9%.with PCM at the air flow rate of 0.025 kg/s. (Romuli et al, 2019). Tegenaw et al, (2017Tegenaw et al, ( , 2019b analyzed the marching heat transfer in a solar food (sweet potato) dryer by using both lumped capacitance modeling and computational fluid dynamics (CFD) techniques.…”

Section: Cfd Model Solution Proceduresmentioning

confidence: 99%

“…Figure 15. Visualization of airflow distribution and direction in the ISD (isometric and side view) and vertical flow through the 21 trays (top view)(Romuli et al, 2019).…”

mentioning

confidence: 99%

Importance of integrated CFD and product quality modeling of solar dryers for fruits and vegetables: A review

et al. 2021

View full text Add to dashboard Cite

Technical Performance of an Inflatable Solar Dryer for Drying Amaranth Leaves in Kenya

Cited by 12 publications

References 23 publications

Application of Analytic Hierarchy Process in Selection of an Appropriate Drying Platform for Maize Drying in a Solar Bubble Dryer

Application of Analytic Hierarchy Process in Selection of an Appropriate Drying Platform for Maize Drying in a Solar Bubble Dryer

Development and effectiveness of greenhouse type solar dryer for coriander leaves

Importance of integrated CFD and product quality modeling of solar dryers for fruits and vegetables: A review

Contact Info

Product

Resources

About