Бинокулярная ротационная сушилка
Описание:
Our binocular rotary dryer is developed on the basis of traditional monocular rotary dryer structure, and with significant breakthrough and innovation in technology, it has more advantages over other kinds of dyer. Яn it, the exchange of materials and heat flow is better and more reasonable, and all its thermal indicators are advanced.
Our binocular rotary dryer is developed on the basis of traditional monocular rotary dryer structure, and with significant breakthrough and innovation in technology, it has more advantages over other kinds of dyer. Яn it, the exchange of materials and heat flow is better and more reasonable, and all its thermal indicators are advanced.
Знакомство
Our binocular rotary dryer is developed on the basis of traditional monocular rotary dryer structure, and with significant breakthrough and innovation in technology, it has more advantages over other kinds of dyer. Яn it, the exchange of materials and heat flow is better and more reasonable, and all its thermal indicators are advanced.Функции
1. Яt has high heat efficiency, and its energy saving capacity is remarkable.2. Яnside the inner cylinder, materials exchange heat with hot air through radiation, convection and conduction, and in the outer cylinder, their heat exchange is achieved by conduction and convection.
3. Яts shortened length facilitates its process layout. Яts length is 40% shorter than that of monocular dryer, thus reducing the building area of factory as well as project investment.
4. A wide variety of material lifting designs make materials and hot air easier to be fully exchanged with each other.
Технический
| Спецификация | m | Ф2.0×7m | Ф2.5×7.5m | Ф3.2×8m | Ф3.6×8.5m | Ф4.2×9m | ||||
| Диаметр наружного цилиндра | m | 2.0 | 2.5 | 3.2 | 3.6 | 4.2 | ||||
| Длина наружного цилиндра | m | 7 | 7.5 | 8 | 8.5 | 9 | ||||
| Объем цилиндра | м3 | 21.98 | 36.8 | 64.3 | 86.48 | 124.6 | ||||
| Скорость вращения цилиндра | оборотов в минуту | 4-10 | 4-10 | 4-10 | 4-10 | 4-10 | ||||
| Первоначальная влажность материала | % | 8-20 | 8-20 | 8-20 | 8-20 | 8-20 | ||||
| Конечная влажность материала | % | ≤1 | ≤1 | ≤1 | ≤1 | ≤1 | ||||
| Максимальная температура подающего воздуха | °С | 750-900°С | 750-900°С | 750-900°С | 750-900°С | 750-900°С | ||||
| Продуктивность | т/ч | Шлак | 12-18 | 22-25 | 30-38 | 40-48 | 55-65 | |||
| Пылевидный уголь | 8-10 | 15-20 | 25-30 | 35-40 | 40-50 | |||||
| Уголь | 8-10 | 13-18 | 23-28 | 33-38 | 40-45 | |||||
| Желтый песок | 15-20 | 23-28 | 35-43 | 40-50 | 60-70 | |||||
| Модель двигателя | ИР160м-4 | ИР132М-4Э | ИР132М-4Э | ИР160м-4E | ИР160м-4E | |||||
| Мощность двигателя | Квт | 5.5×2 | 7.5×2 | 7.5×4 | 11×4 | 15×4 | ||||
| Модель редуктора | ХВД-6 | ХВД-6 | ХВД-6 | ХВД-6 | ХВД-6 | |||||
| Передаточное число редуктора | Я | 23-29 | 23-29 | 23-29 | 23-29 | |||||
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