Choosing the right air filter is essential for achieving optimal indoor air quality and system performance. With the introduction of ИСО 16890, filter selection is now based on real particle size efficiency rather than outdated classifications.
This guide will help you select the most suitable filter based on your application and performance requirements.
1. Understand ISO 16890 Classification First
Before selecting a filter, it is important to understand the classification system:
- ISO грубый → large particles (>10 μm)
- еPM10 → particles ≤10 μm
- еPM2.5 → particles ≤2.5 μm
- еПМ1 → particles ≤1 μm
👉 The higher the classification, the better the filtration of fine particles.
2. Шаг 1: Define Your Application Scenario
Different environments require different filtration levels:
Commercial Buildings (Offices, Malls)
- Рекомендуется: еPM2.5
- Фокус: balanced air quality and energy efficiency
Больницы & Healthcare
- Рекомендуется: ePM1 or higher
- Фокус: removal of fine and harmful particles
Industrial Facilities
- Рекомендуется: ePM10 or ePM2.5
- Фокус: dust control and equipment protection
Residential HVAC Systems
- Рекомендуется: еPM2.5
- Фокус: comfort and health
3. Шаг 2: Balance Efficiency and Pressure Drop
As discussed in previous sections, higher efficiency often leads to higher resistance.
👉 Key considerations:
- High efficiency → better air quality
- Low pressure drop → lower energy consumption
✔ Choose a filter that balances both factors based on your system capacity
4. Шаг 3: Consider Filter Lifespan
Filter performance changes over time due to dust loading:
- Efficiency may increase initially
- Pressure drop continuously increases
👉 A longer lifespan reduces:
- Maintenance frequency
- Operating cost
5. Шаг 4: Evaluate Real Performance (Not Just Initial Data)
Under ISO 16890, performance is evaluated after:
- Увольнять (removal of electrostatic effects)
- Dust loading
👉 This means:
Initial efficiency alone is not enough
✔ Always check average efficiency values
6. Шаг 5: Check System Compatibility
Ensure the selected filter matches:
- Airflow requirements
- Installation dimensions
- System pressure limits
👉 Incorrect selection can lead to:
- Reduced airflow
- Increased energy consumption
7. Common Mistakes in Filter Selection
❌ Choosing based only on price
❌ Ignoring pressure drop
❌ Using outdated EN 779 classifications
❌ Over-specifying (unnecessary high efficiency)
👉 These mistakes increase cost without improving performance.
8. Why Accurate Testing Is Critical
Selecting the right filter depends on reliable data.
Without accurate testing:
- Efficiency may be overestimated
- Performance may not match real conditions
👉 This is why ISO 16890 testing is essential for both manufacturers and users.
9. Recommended Testing Solution
The SC-16890 Система тестирования фильтров общей вентиляции from SCPUR ensures accurate evaluation of:
- ПМ1 / ТЧ2,5 / Эффективность PM10
- Падение давления
- Performance after discharge and dust loading
Ключевые преимущества
- Надежные и повторяемые результаты
- Полностью соответствует ISO 16890
- Supports product development and selection
👉 Helps manufacturers provide trustworthy data for customers.
10. Quick Selection Guide
| Приложение | Recommended Class |
|---|---|
| Office / Коммерческий | еPM2.5 |
| Hospital | еПМ1 |
| Промышленный | еPM10 / еPM2.5 |
| Residential | еPM2.5 |
11. Заключение
Choosing the right air filter under ISO 16890 requires understanding:
✔ Application requirements
✔ Efficiency vs pressure drop
✔ Real-world performance
By making informed decisions, users can achieve:
- Better indoor air quality
- Lower energy consumption
- Longer system lifespan
