Accessing clean, safe, and reasonably priced drinking water remains one of the most important public health goals in Latin America. Effective water treatment solutions are crucial for protecting both people and ecosystems. Among the various coagulants used in drinking water purification, polyaluminium chloride (PAC) has become one of the most popular choices due to its high efficiency, cost-effectiveness, and versatility under different water quality conditions.
This article will introduce how to select the PAC grade suitable for drinking water treatment in Latin America - taking into account local regulations, raw water characteristics, and cost-benefit balance - to help distributors, plant operators, and water departments make informed purchasing decisions.
What is PAC and Why is it used in drinking water treatment
Polyaluminium chloride (PAC) is an inorganic polymer coagulant, widely used to remove turbidity, color and organic impurities from raw water. Unlike traditional aluminium sulfate (alum), PAC can function effectively over a wider pH range and form stronger and denser flocs, thus settling more quickly.
In drinking water treatment, PAC, as the main coagulant, aggregates suspended particles, colloids and natural organic matter, enabling them to be easily removed through sedimentation and filtration.
The main advantages of PAC over traditional alum:
It works effectively within a wide pH range (5.0-9.0).
A lower dose is required
Produce less residual aluminium
Reduce the amount of sludge
Improve filtration performance and clarity
These characteristics make PAC particularly suitable for surface water sources such as rivers, reservoirs and lakes - which are very common in Latin American countries.
Understand Different PAC Grades
The grades and specifications of PAC (Polyaluminium chloride) are usually classified based on the content of its main components and application characteristics. As the production standards of PAC can be national standards, industry standards or manufacturer standards, the specific specifications may vary slightly, but the main measurement indicators are universal.
The following are the main grades and specification indicators of Yuncang PAC:
| Item | PAC-I | PAC-D | PAC-H | PAC-M | PAC-G |
| Appearance | Yellow powder | Yellow powder | White powder | Milk powder | Milky White powder |
| Content (%, Al2O3) | 29±1 | 30±1 | 30±1 | 30±1 | 30±1 |
| Basicity (%) | 40 - 90 | 40 - 90 | 40 - 90 | 40 - 90 | 40 - 90 |
| Water insoluble matter (%) | 1.0 MAX | 0.6 MAX | 0.6 MAX | 0.6 MAX | 0.6 MAX |
| pH | 3.0 - 5.0 | 3.0 - 5.0 | 3.0 - 5.0 | 3.0 - 5.0 | 3.0 - 5.0 |
PAC-D: A light yellow, drinking water–grade PAC with low heavy metal content, ideal for potable water treatment. It offers excellent coagulation efficiency and can also be used in general industrial water treatment.
PAC-H: A high-purity white powder PAC widely used in drinking water treatment, industrial wastewater, electroplating, and papermaking. It provides outstanding clarity and minimal residual aluminum.
PAC-M: A milky white, cost-effective alternative to PAC-H with similar performance in drinking and industrial water treatment applications.
PAC-I: A yellow powder, industrial-grade PAC designed for various wastewater treatments, including textile, leather, printing, dyeing, and river dredging. With high basicity, PAC-I performs especially well in treating high-turbidity water and offers an excellent price-performance ratio.
PAC-G: A next-generation PAC product that delivers higher treatment efficiency than PAC-H while being more economical than both PAC-H and PAC-M.
Drinking Water Quality Challenges in Latin America
Water quality conditions across Latin America vary significantly by region, influencing the choice of PAC grade and dosing strategy.
Here are some examples of common water conditions and treatment challenges in key countries:
|
Country |
Typical Raw Water Characteristics |
Key Challenge |
| Brazil | High turbidity, color, and organic matter from tropical rivers | Seasonal variation and organic load |
| Argentina | Moderate turbidity and colloidal clay | pH fluctuation, temperature variation |
| Chile | Surface water from Andes with low turbidity | Cold temperature, requiring efficient coagulation |
| Peru | Mountain water with low mineral content | Adjusting pH and alkalinity |
| Colombia | Urban rivers with organic and industrial pollutants | COD and color removal |
Here are some examples of common water conditions and treatment challenges in key countries:
PAC’s flexibility across temperature and pH conditions makes it ideal for these diverse environments.
For instance:
In Brazil, liquid PAC 10% is often used for municipal systems due to its stable performance during rainy seasons.
In Chile and Peru, high-basicity PAC (85–90%) provides faster coagulation in low-temperature mountain water.
Regulatory and Quality Requirements
For drinking water treatment in Latin America, PAC must comply with the corresponding national and international safety standards.
Typical regulatory references include:
Brazil: ABNT NBR 15784 / ANVISA Drinking Water coagulant standard
Argentina and Chile: Ministry of Health (Ministerio de Salud) Aluminium Residue Guidelines (<0.2 mg/L)
Mexico: NOM-127-SSA1-2021 (Maximum aluminium concentration 0.2 mg/L)
WHO (World Health Organization): Aluminum residue in treated water <0.2 mg/L
High-quality PAC products used for drinking water treatment usually have the following characteristics:
Low insoluble matter content (<0.1%
Low iron content (<0.005%
High Al₂O₃ content (≥30%)
Dealers should ensure that their PAC suppliers provide NSF/ANSI 60, REACH or ISO 9001 certifications to ensure product traceability and safety compliance.
Choose the Appropriate PAC Based on Local Conditions
When choosing PAC for drinking water treatment, distributors and engineers should consider the following three main factors:
(1) Water source and characteristics
Surface water (rivers, reservoirs) : Use medium to high alkalinity PAC (70-85%) to treat high turbidity and organic matter.
Groundwater or spring water: The use of low-alkalinity PAC (60-70%) can achieve milder coagulation and reduce aluminum residue.
(2) Factory design and dosing system
For large municipal factories: Liquid PAC (10-18%) is easier to automatically mix and reduces dust exposure.
For rural areas or decentralized systems: Powdered PAC has the characteristics of a longer storage life and easy transportation.
(3) Temperature and seasonal variations
In tropical regions (Brazil, Colombia), standard PAC with moderate alkalinity is used.
In colder regions (such as Chile and southern Argentina), PAC with a higher alkalinity can enhance the formation efficiency of flocs at low temperatures.
How Can PAC Distributors Remain Competitive
To remain competitive in the water treatment market of Latin America, distributors should:
Cooperate with reliable PAC manufacturers to provide stable supply and technical support.
Provide localized guidance on dosage and can testing optimization.
Provide loose packages and small packages for local distributors.
Highlight the certification (NSF, REACH, ISO) and traceable quality control on the product label.
With the enhancement of people's awareness of water security and the government's investment in infrastructure, the demand for drinking water PAC in Latin America is expected to continue to rise. By choosing high-quality, certified PAC products and storing them in appropriate form and packaging, distributors can play a crucial role in supporting public health and environmental protection throughout the region.
Yuncang can supply various types of PAC. If necessary, please visit: Polyaluminum Chloride Specifications
Post time: Nov-05-2025