مرتضوی ع، 1383. روشهای خشک کردن مواد غذایی، دانشگاه فردوسی مشهد.
رضوی م و اکبری ر، 1388. خواص بیوفیزیکی محصولات کشاورزی، دانشگاه فردوسی مشهد.
Lamnatou C, Papanicolaou E and Belessiotis V, 2012. Experimental investing and thermodynamic performance analysis of a solar dryer using an evacuated-tube air collector: Applied Energy 94: 232-243.
Grupp M, Bergler H, Bertand JP, Kormer B and Cieslok J, 1995. Convevtive Flat Plate collectors and their Applications. Renewable Energy 11: 348-354
Aktas M, Ceylanb Y and Yilmazb S, 2009. Determination of drying characteristics of apples in a solar dryer. Science Direct 239: 266-275.
Gallali YM, Abujnah YS and Bannani FK, 2000. Preservation of fruits and vegetable using solar drier. Renewable Energy 19: 203-212.
Janjai S and Tung P, 2005. Performance of a solar dryer using hot air from roof-integrated solar collectors for drying herbs and spices. Renewable Energy 30 (14): 2085-2095.
Zogzas NP, Maroulis ZB and Marinos D, 1994. Densities Shrinkage and Porosity of some vegetables during air. drying Technology 12(3): 1653-1666.
Mujumdar AS, 2000. Drying technology in agriculture and food sciences. Science publishers. Inc. New York. USA.
Yaldiz O and Ertecin E, 2001. Thin layer solar drying of some vegetable. Drying Thechnology 19 (3): 583-597.
Sreekumar A, Manikantan PE and Vijayakumar KP, 2008. Performance of indirect solar cabinet dryer. Energy Conversion and Management 49: 1388-1395.
Varun S, Sunil D, Sharma A and Sharma N, 2012. Construction and performance analysis of an indirect solar dryer integrated with solar air heater. Procedia Engineering 38: 3260-3269.
Velic D, Planinic M, Tomas S and Bili M, 2004. Influence of airflow velocity on kinetics of convection apple drying. Journal of Food Engineering 64: 97-102.
Sarsilmaza C, Yildizb C and Pehlivan D, (2000). Drying of apricots in a rotary column cylindrical dryer (RCCD) supported with solar energy. Renewable Energy 21: 117-127.