Application of Polyacrylamide in API Production Wastewater Treatment
The characteristics of API(active pharmaceutical ingredient) production wastewater are summarized as "three highs, two poors and one fluctuation": high concentration, high toxicity, high salinity, poor biodegradability, complex components, and drastic fluctuations in water quality and quantity.
Polyacrylamide (PAM) is mainly used as a high-efficiency flocculant and sludge dewatering agent in the treatment of wastewater from active pharmaceutical ingredient (API) production. Through charge neutralization and adsorption bridging effects, it addresses the challenges posed by pharmaceutical wastewater, such as complex composition, stable colloids, and poor biodegradability, significantly improving solid-liquid separation efficiency and reducing sludge moisture content.
Coagulation-sedimentation Pretreatment: Combined with inorganic flocculants (e.g., polyaluminum chloride, polyferric sulfate), it rapidly removes suspended solids, colloids, and part of the COD in wastewater, enhancing the biodegradability of subsequent biochemical treatment.
Advanced Sludge Dewatering: Dosed during filter pressing or centrifugal dewatering, it remarkably reduces sludge moisture content (down to 80%-85%), cuts down sludge volume and subsequent disposal costs.
Advanced Effluent Purification: Applied in secondary sedimentation tanks or final sedimentation tanks to further remove fine suspended particles, ensuring the effluent quality meets discharge standards.
Due to the large variation in characteristics of API wastewater, the model must be precisely selected according to pH value, organic matter concentration and charge properties:
Dosing Principle: Always follow the principle of "bench test before field application". Usually, add inorganic flocculants first to destabilize colloids, then add PAM for flocculation. The dosage of PAM is generally 1/50 of that of inorganic flocculants; excessive dosage will cause colloids to restabilize.
Dissolution Specifications: Prepare a 0.1%-0.2% aqueous solution, control the stirring speed at 70-100 r/min, and the dissolution time at 40-60 minutes. Never pour the powder all at once to avoid caking.
Water Quality Adaptation: For antibiotic wastewater with high salinity and high toxicity, select salt-tolerant and high-purity products, with residual monomer content below 0.1% to prevent secondary pollution.
Dynamic Adjustment: Fine-tune the dosage regularly with the fluctuation of inlet water quality, avoiding fixed dosage that causes chemical waste or poor treatment effect.
In practical applications, it is recommended to conduct beaker tests first to determine the optimal model and dosing point, so as to balance the treatment effect and operating cost.
Application of Polyacrylamide in API Production Wastewater Treatment
The characteristics of API(active pharmaceutical ingredient) production wastewater are summarized as "three highs, two poors and one fluctuation": high concentration, high toxicity, high salinity, poor biodegradability, complex components, and drastic fluctuations in water quality and quantity.
Polyacrylamide (PAM) is mainly used as a high-efficiency flocculant and sludge dewatering agent in the treatment of wastewater from active pharmaceutical ingredient (API) production. Through charge neutralization and adsorption bridging effects, it addresses the challenges posed by pharmaceutical wastewater, such as complex composition, stable colloids, and poor biodegradability, significantly improving solid-liquid separation efficiency and reducing sludge moisture content.
Coagulation-sedimentation Pretreatment: Combined with inorganic flocculants (e.g., polyaluminum chloride, polyferric sulfate), it rapidly removes suspended solids, colloids, and part of the COD in wastewater, enhancing the biodegradability of subsequent biochemical treatment.
Advanced Sludge Dewatering: Dosed during filter pressing or centrifugal dewatering, it remarkably reduces sludge moisture content (down to 80%-85%), cuts down sludge volume and subsequent disposal costs.
Advanced Effluent Purification: Applied in secondary sedimentation tanks or final sedimentation tanks to further remove fine suspended particles, ensuring the effluent quality meets discharge standards.
Due to the large variation in characteristics of API wastewater, the model must be precisely selected according to pH value, organic matter concentration and charge properties:
Dosing Principle: Always follow the principle of "bench test before field application". Usually, add inorganic flocculants first to destabilize colloids, then add PAM for flocculation. The dosage of PAM is generally 1/50 of that of inorganic flocculants; excessive dosage will cause colloids to restabilize.
Dissolution Specifications: Prepare a 0.1%-0.2% aqueous solution, control the stirring speed at 70-100 r/min, and the dissolution time at 40-60 minutes. Never pour the powder all at once to avoid caking.
Water Quality Adaptation: For antibiotic wastewater with high salinity and high toxicity, select salt-tolerant and high-purity products, with residual monomer content below 0.1% to prevent secondary pollution.
Dynamic Adjustment: Fine-tune the dosage regularly with the fluctuation of inlet water quality, avoiding fixed dosage that causes chemical waste or poor treatment effect.
In practical applications, it is recommended to conduct beaker tests first to determine the optimal model and dosing point, so as to balance the treatment effect and operating cost.