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Core Equipment Specifications
- The effective volume of the flotation tank directly determines wastewater capacity per unit time
- Larger volume means greater theoretical treatment capacity
- Scraping equipment efficiency affects treatment capacity - slow scraping causes scum accumulation
- Bubble generator specifications are crucial for stable production of micro-bubbles
- Insufficient bubbles can stall the treatment process and reduce capacity
Operating Parameter Control
- Inlet flow rate control is critical - excessive flow reduces retention time
- Incomplete pollutant separation requires flow reduction, impacting capacity
- Bubble quantity and size must be properly controlled for efficient adsorption
- Too few or too large bubbles prolong treatment cycle and reduce throughput
- Appropriate reagent dosage is crucial for pollutant aggregation
- Insufficient reagent increases separation difficulties and affects treatment speed
Wastewater Characteristics
- Wastewater characteristics are a fundamental factor affecting treatment capacity
- Treatment difficulty varies with suspended solids and colloid content
- High pollutant content requires more time for bubble adsorption and separation
- Low pollutant content allows smoother processing and higher throughput
- Physicochemical properties (temperature, pH) impact bubble stability
- Inappropriate temperature or pH reduces treatment efficiency and limits capacity
Auxiliary System Configuration
- Auxiliary system completeness indirectly affects treatment capacity
- Inlet water pretreatment removes large impurities, preventing pipe clogging
- Proper pretreatment ensures stable operation and maintains processing capacity
- Effluent return system enhances wastewater mixing and bubble-contaminant contact
- Improved mixing speeds processing and increases unit time capacity
- Automatic control systems monitor and adjust operations to respond to fluctuations
- Proper control avoids reduced capacity from downtime or efficiency degradation
