1. Innovative technology: Adopting four effect patented dehumidification technology to reduce controllable air humidity and accelerate drying efficiency. Independent layered system, meeting the requirements of rapid dehydration of wet sludge, with short low-temperature drying cycle and low-temperature sludge drying equipment/heat pump sludge dryer/sludge drying equipment. The module structure design of the sludge low-temperature dryer has strong load regulation ability. The transmission achieves variable frequency and stepless speed regulation, suitable for adjusting dry materials with different moisture contents.
2. The low-temperature sludge dryer can directly dry the sludge to 10% without the need for staged treatment. Reducing capacity by up to 67% and weight by up to 80% can save a significant amount of transportation costs. The sludge can be fully solidified by low-temperature sludge drying equipment/heat pump sludge drying machine/sludge drying equipment, which is now "reduced, stabilized, harmless, and resourceful". The final sludge particles can be used as fertilizer, fuel, incineration, building materials, biofuels, landfill soil, land use, etc.
3. The sludge low-temperature dryer adopts a continuous mesh belt drying method, which is suitable for various types of sludge drying systems (including sludge with high sand content). This product is made of 304 stainless steel material, and the heat exchanger is treated with epoxy resin electrophoresis leakage prevention, with a long service life; No mechanical wear during use, with a service life of over 15 years; No damage, low temperature sludge drying equipment/heat pump sludge drying machine/sludge drying equipment parts are easily consumable, easy to use and manage;
4. After effective sterilization of low-temperature dried sludge, the sludge dryer has 90% stable properties and can directly dry 83% moisture sludge to 10% without secondary pollution. The final sludge particles can be gasified, mixed burned, and burned, and can be used as biofuels, green soil, and building materials for cement factories.
Heat pump sludge dryer structure: (1) Unit part: dryer (separate or integrated, blown or side blown) (2) Drying room part: Insulation material assembled into drying room (3) Drying frame: stainless steel drying frame (customers can purchase it themselves)
1. Disassemble and decorate the host, categorize all items and place them at the installation location. The first step is to level the installation ground. If the ground is a pit, then it needs to be paved. Assuming that the ground insulation plate of the low-temperature sludge drying equipment/heat pump sludge drying equipment/sludge drying equipment is placed on the ground. Due to the thickness of the insulation board itself, the drying room will produce a slope of 10cm. If there is no such slope, it may be worth studying the installation of a sludge drying room excavated on the ground, which is about 13 to 15 centimeters long, to create a pit. Then, place the insulation board in the pit on the ground, and lay cement, stainless steel, or iron wood on the ground to prevent damage to the insulation board on the ground.
2. Install insulation board for indoor drying floor of sludge heat pump. After installation, please ensure that the ground is level and place the grounding insulation board on the ground according to the drawing requirements. Pay attention to the corresponding buckle position and lock the locking hook.
3. Tear off the protective film on the side and top panels, and push the host to the corresponding position. Can install corner plates. Insert the side panels at different positions into the locking hooks corresponding to the ground insulation board according to the drawing requirements. The locking hook of the tool for locking low-temperature sludge drying equipment/heat pump sludge drying machine/sludge drying equipment must be ensured to be firmly and reliably connected.
4. Install the drying room door and other side panels. Lay the host flat and cushion it. Lift the axial convection fan vertically and place it in an appropriate position. Place the roof in the corresponding position on the dried roof surface and lock the locking hooks one by one. Ensure tight bonding with the column plate. If there is a large gap between the board surfaces, a slight gap is required.