In which scenarios is the manual slag centrifugal separation filter suitable for use
Source:/ Release date: 2025-11-20
The manual slag centrifugal separation filter machine, with its core advantages of simple structure, low cost, and low operating threshold, is more suitable for small and medium-sized production, low-frequency separation, and scenarios with low automation requirements, especially for intermittent processing of conventional materials (non-toxic, non corrosive, low viscosity, moderate solid content).
1. Small and medium-sized chemical industry
Applicable scenarios: solid-liquid separation of small batches of pigments, dyes, and coatings; Crystallization recovery of fertilizers (ammonium sulfate, ammonium chloride); Purification of ordinary chemical intermediates; Removal of impurities in electroplating solution (such as plating solution filtration in the electroplating industry).
Reason for selection: The material is non-toxic and corrosive, with a small production scale (single processing capacity of 5-500L), limited budget, no need for continuous production, and the efficiency of manual slag discharge is acceptable.
2. Food processing (small and medium-sized enterprises/workshops)
Applicable scenarios: starch purification in small-scale starch factories, separation of by-products such as soybean residue/rice bran; Preliminary filtration of juice/fruit wine (to remove pulp residue); Filtration of soybean milk and solid-liquid separation in Fermented bean curd production in soybean products factory; Oil residue filtration in small and medium-sized edible oil factories.
Reason for selection: High material safety, hygiene requirements can be met through routine cleaning, batch production (non continuous), manual slag discharge does not affect overall production capacity, and equipment procurement and maintenance costs are low.
3. Environmental protection and sewage treatment (small-scale scenarios)
Applicable scenarios: Small sewage treatment plants, laboratory wastewater treatment; Industrial wastewater pretreatment (removing large particle impurities and reducing subsequent treatment load); Dehydration of small batches of sludge after river dredging and septic tank cleaning; Solid liquid separation for small-scale wastewater treatment plants in aquaculture farms.
Reason for selection: Small processing capacity (daily processing capacity<10 tons), mostly composed of ordinary sludge/wastewater, with no toxic risk, and the labor intensity of manual slag discharge can be borne, without the need for high cost automation equipment.
4. Pharmaceutical and laboratory research and development
Applicable scenarios: Material separation in laboratory trials and pilot stages (such as filtration of traditional Chinese medicine extracts and solid-liquid separation in formulation development); Small batch production of formulations by small pharmaceutical companies (such as capsule and tablet raw material purification).
Reason for selection: In the research and development stage, there are few batches, small processing capacity, and low efficiency requirements; Some scenarios can meet basic cleanliness requirements by combining sterile filter materials and disinfection processes, with costs much lower than fully automatic sterile models.
5. Mining and Agricultural Processing
Applicable scenarios: Initial filtration of mineral slurry in the mining industry (removal of large particle impurities); Separation of by-products from agricultural product processing in agriculture (such as wheat bran and corn cob filtration); Removing impurities from feed raw materials in small feed factories (such as soybean meal and fish meal filtration).
Reason for selection: The material has strong tolerance (no strong corrosion), and the separation accuracy requirement is moderate (≥ 5 μ m is sufficient). The production mode is mostly intermittent, and the equipment structure is simple and easy to maintain, suitable for outdoor or simple workshop environments.
6. Other niche scenes
Applicable scenarios: Ink filtration in small printing factories; Raw material removal for handmade soap, laundry detergent and other daily chemical products; Laboratory sample pretreatment; Small batch wastewater/sludge treatment in emergency rescue (such as temporary separation in sudden pollution incidents).
Reason for selection: The scene is scattered, the processing capacity is small, the frequency of use is low, and there is no need for long-term continuous operation. The flexibility and low-cost advantages of manual models are prominent.
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