在进出料时阳光仍然投射在太阳能干燥装置上,但这部分太阳能未被利用。为了提高太阳能干燥装置全天使用效率,研究利用这部分太阳能是有意义的。此外,有些物料的再吸附能力较强,先、后投入装置的物料,干、湿程度相差很大,它们共聚一室也不利于缩短先投入物料的干燥周期,不利于装置的周转。本文报道的对式太阳能干燥装置,将一个装置分成两区,既能分区运行,又能互调各区能量,较好地解决了上述有关问题。 In and out of the sun is still projected on the solar drying device, but this part of the solar energy has not been utilized. In order to improve the efficiency of solar drying device all-day use, research and utilization of this part of the solar energy is meaningful. In addition, some materials re-adsorption ability is stronger, first, after the device into the device, a great difference between the degree of dry and wet, they are also not conducive to a co-polymerization room to shorten the first dry material input cycle is not conducive to the device turnover. This article reports on the solar drying device, a device will be divided into two areas, both partition operation, but also intermodulation of the energy district, a better solution to the above problems.