通过引进先进技术并与农业机械专家合作,Shuliy 开发并生产了低温循环混流粮食烘干机,也称为塔式干燥机。
这种产品采用了 西门子 PLC 自动智能控制系统,并配备多种热源解决方案,具有耗电低、热耗低、排湿快、破碎率低等特点。
This tower dryer comes in two models: 5HXG-15 and 5HXG-32. Maximum capacities: corn 3,400kg/h, wheat 3,250kg/h, rice 3,500kg/h, rapeseed 2,600kg/h.
粮食烘干机还具有广泛的适用性,尤其适用于颗粒状粮食如玉米、稻谷、大豆、油菜籽等。目前我们的第四代是全球最先进的粮食干燥机;它是粮机领域的一次革命,将为粮食收获带来巨大收益!
混流式谷物干燥机原理
当粮食干燥塔开始装粮时,料斗中的粮食被提升机提升至主仓顶部,然后通过上部绞龙将粮食送入干燥箱内,直至装满。
干燥过程中,谷物排放物不断地将干燥段底部的谷物排出至下搅拌器,下搅拌器将谷物送至提升机提升至上搅拌器,上搅拌器将谷物送至调温区。在自身重力的作用下,调温区的谷物缓慢地从上到下移动到四个干燥区。
The air heated indirectly by the hot blast stove is sent to the hot blast chamber of the drying section under the action of a centrifugal-induced draft fan. The hot blast continuously crosses the thin grain layer of the drying section from the hot blast chamber, and the flow direction of the hot blast crosses the direction of grain movement.
In this way, the hot airflow and the grains have sufficient contact, so that the grains are heated and dehumidified. The waste gas is discharged from the machine from the waste gas chamber. In this way, the drying cycle is realized over and over again until the moisture content of the grain meets the required standard.
Composition of the mixed flow cereal dryer
Two different bases for different materials
The gravity-fed base eliminates the screw conveyor, reducing grain breakage caused by collisions with conveyor blades, making it suitable for drying larger grains.
Base with screw conveyor for material with low specific gravity.
干燥部内部结构
干燥箱内部由 316 不锈钢、镀锌板和厚钢板制成。
Elevator, conveyor belt, and bucket
提升输送带采用纯尼龙帆布带,铲斗为全新尼龙塑料,韧性好,不易脆裂。
Siemens PLC automatic control system
The fully automatic control system, using the touch screen, is easy to operate, equipped with a fault location display system, and can automatically measure the moisture, and automatically stop when the set value is reached.
环保节能热风炉
The stove uses biomass as a heat source, which can burn tree branches and rice chaff, and can also be transformed into burning oil and gas.
除湿引风机
让热空气通过干燥段,排出热空气中的水分。
混流式谷物烘干机的优点
- 低应用功率: 谷物干燥塔(50吨/天)的总功率为7.6KW。可与普通农业用电配合使用;无需变压器,安装方便。
- 干燥效率高: 采用智能干燥技术,自动调节干燥温度和时间,满足不同湿度谷物的要求。低温干燥使谷物受热均匀,爆裂率低,发芽率高。干燥后粮食颗粒完整,保证粮食质量。
- 低热量和能源消耗: 烘干机采用低温恒温,利用热交换气体清洁能源,全覆盖干燥,无死角,无二次污染。性能稳定,干燥后的水分表里一致,使粮食不会霉变,易于长期保存。
- 使用寿命长: 干燥机的主要部件是加厚板和不锈钢导轨。干燥机的喷漆表面采用静电喷涂(使用寿命比普通喷漆长五倍以上)。
- 干燥成本低: 我公司新型烘干机采用斜角进风,具有通风顺畅、烘干均匀、常年无需清理等优点。
Heat source options for mixed flow cereal dryer
生物质热风炉
可燃烧煤、生物质、木材、秸秆等。换热器采用 S310 耐高温不锈钢和 20 锰钢制造。防止粮食品色变、串味或产生焦粒。
柴油炉
使用柴油为燃料。热力稳定且强劲,适合连续干燥。
天然气燃烧器
使用天然气为燃料。燃烧清洁高效,安全且无烟。
电加热炉
使用电能。温度控制精确,操作简便,环保。
为什么选择我们的低温循环塔干燥机?
The grain drying generally only lasts ten to twenty days, and it belongs to continuous work, which requires high stability and continuous operation during the process. This also puts forward higher requirements for the dryer in the material application and wear-resistant material.
Standard version vs. Our version
Standard version
- The oldest type of dryer has a simple design, high power consumption, high energy use, and is prone to fire.
- The cross-flow drying layer is 1.4 m high, with poor ventilation, many dead corners, and uneven drying, achieving only about 0.7% moisture reduction.
- Common mesh plates and cross-flow dryers often get clogged by rice husks.
- Long drying times lead to over-dried grains, increasing breakage rates, labor costs, fuel consumption, and overall drying costs.
- Once the mesh is clogged with rice husks, cleaning is difficult. During each drying season, it must be cleaned multiple times, and maintenance takes away profitable time.
- Poor-quality dried rice affects both marketability and price.
Our version
- 驱动轮采用中空设计,防止谷物压碎。凸面轮廓,皮带保持对齐。车床加工,具有高同心度,使用 NSK 日本轴承,耐用持久。
- 谷物在流动过程中不断与内滑槽钢板摩擦。普通钢材容易磨损,因此在其上增加一层 316不锈钢 (含镍和锰)嵌入滑槽中,提供光滑、耐磨、耐用的表面。
- The dryer supports multiple heating options, including biomass hot-air furnaces, diesel burners, and more.
- Both the interior and exterior walls are treated with electrostatic powder coating, making them high-temperature resistant, wear-resistant, and corrosion-resistant, with a lifespan more than five times longer than ordinary paint.
Applications of the tower drying machine
Our new grain drying tower has a wide range of applications, which is suitable for drying rice, wheat, corn, sorghum, soybean, sunflower seed, millet, rapeseed, and other crops and grain seeds.
粮食烘干塔技术参数
如需了解更多,请在弹窗中留言。我们将在 24 小时内与您联系,提供更多详情和报价。
不同国家的案例
稻谷干燥热量与产量分析
干物质计算
- 原料进料(鲜稻谷):20,000 kg/h
- 初始水分 w1:20%(湿基)
- 终水分 w2:12%(湿基)
干物质
进料 × (1 − w1) = 20,000 × (1 − 0.2) = 16,000 kg/h
最终产品重量
干物质 / (1 − w2) = 16,000 / (1 − 0.12) ≈ 18,182 kg/h
需蒸发的水
W = 进料 − 终产品 = 20,000 − 18,182 ≈ 1,818 kg/h
估算热需求
假设水的汽化潜热 ≈ 540 kcal/kg,系统损失 15%:Q_total = W × 540 × (1 + 0.15) ≈ 1,818 × 540 × 1.15 ≈ 1,129,000 kcal/h
对客户友好的说明
该干燥线需每小时去除约 1.82 吨水,对应约 1,129,000 kcal/h 的热量。折算为蒸汽约为每小时 2.1 吨(假设 1 kg 蒸汽 ≈ 540 kcal)。
对客户友好的参数表
| 物品 | 数值 / 参考 | 说明 |
|---|---|---|
| 原料 | 稻谷(带壳) | 可调节用于玉米、 小麦,油菜籽 |
| 进料量 | 20,000 kg/h | 可根据产量调节 |
| 初始水分 w1 | 20% | 湿基 |
| 终水分 w2 | 12% | 湿基 |
| 干物质 | 16,000 kg/h | 固定干重 |
| 终产品 | 18,182 kg/h | 湿基 |
| 需蒸发的水 | 1,818 kg/h | 对应热需求 |
| 总热需求 | 1,129,000 kcal/h | 包含 15% 系统损失 |
| 蒸汽需求 | ≈ 2.1 t/h | 粗略估算 |
| 干燥时间 | 大约 60–70 分钟 | 包括装卸 |
| 干燥温度 | 50–80℃ | 可根据米色和水分调节 |
| 加热方式 | 生物质/煤/气/蒸汽/热风 | 可选 |
风机参考
| 类型 | 风量 | 静压 | 功率 | 说明 |
|---|---|---|---|---|
| 循环风机 | 15,000–22,000 m³/h | 900–1,300 Pa | 11–15 kW | 确保均匀 热量分布 |
| 排风/除湿风机 | 25,000–35,000 m³/h | 800–1,000 Pa | 22–30 kW | 控制排湿, 防止冷凝 |
设备尺寸及占地面积
| 模型 | 高度(mm) | 长度(mm) | 宽度(mm) |
|---|---|---|---|
| 5HXG-32 | 11,430 | 4,770 | 5,090 |
占地:约 24 m²,适用于中大型加工厂。
注意要点
- 该干燥方案可处理约每小时 20 吨稻谷,适用于高效连续生产。
- 温度、气流与停留时间可根据不同粮食种类和初始含水率进行调节。
- 可选多种热源:生物质、燃气、煤或蒸汽,提供灵活的能源解决方案。
- 热平衡设计确保色泽保留和高粮粒完整性。