Services
Core Services
I. Custom Encapsulation
Every type of wastewater requires a tailored microbial formulation.
| Traditional Pain Points | Our Solution |
| Unknown Composition & Inconsistent Quality | Water Quality-Based Strain Selection. (Nitrifying bacteria, Denitrifying bacteria, Degrading bacteria, Specialized functional strains...) |
| Poor Adaptation of Exogenous Strains | Acclimate Sequentially , Maximize Activity |
| Antagonism & Competition in Mixed Cultures | Utilizing immobilized encapsulation to retain and continuously activate strains within the carrier. |
| Dosed strains are rapidly washed out, requiring continuous replenishment. | Compatible with multi-strain co-existence strategies (layering or co-aggregation). |
True 'bio-engineering'—not just dosing and hoping for luck.
Final Results :
- Tailor-Made Strains
- Transforming reactors into proprietary bio-factories.
- End of Frequent Re-dosing
- Ensuring long-term, stable, and high-efficiency operations.
II. Nitrification Systems
Ammonia nitrogen (NH4⁺) is often one of the biggest headaches for enterprises. Under conditions of high concentrations, low temperatures, low DO, or load fluctuations, nitrifiers frequently fail.
| Conventional Nitrification Pain Points | Our Solution |
| Nitrifying bacteria are slow-growing and difficult to cultivate. | Immobilized nitrifiers achieve high-density growth, significantly boosting conversion efficiency. |
| Highly sensitive to pH, DO, and temperature variations. | Protected by the carrier matrix ➔ Highly resistant to toxicity. |
| High ammonia levels ➔ Ammonia toxicity | High resistance to washout ➔ Extended SRT |
| NO2⁻ Accumulation ➔ Nitrification Crash | Achieving complete nitrification within a shorter HRT. |
| Heterotrophic Co-existence & Layered Reaction. |
Target Industries
Pig Farming / Livestock Wastewater, Food Processing Industry, Landfill Leachate, Chemical Industry, Electronics & Semiconductor Industry, Post-UASB High-Ammonia Effluent.
Guarantees resilient nitrification against high ammonia and shock loads, eliminating the risk of catastrophic nitrite spikes.
III. Denitrification Systems
Unremovable NO3⁻/NO2⁻ ? High carbon source costs? Fluctuating system performance ? We provide tailored heterotrophic, autotrophic, and facultative denitrification strategies to solve your TN challenges.
| Conventional Denitrification Pain Points | Our Advantages |
| High costs for external carbon sources (sodium acetate, methanol, glucose...) | Flexible selection of heterotrophic, autotrophic, or hybrid strategies tailored to water quality. |
| Prone to filamentous bacterial growth and sludge bulking. | Immobilization enables the cultivation of high-density denitrifying bacteria. |
| Efficiency drops when ORP and DO are unstable. | Highly resistant to DO interference, sustaining continuous denitrification under low DO or even micro-aerobic conditions. |
| Autotrophic denitrification has a slow reaction rate and is difficult to start up. | Utilizing endogenous carbon sources to eliminate external carbon costs. |
| Preventing nitrite (NO2⁻) accumulation. |
Deliverables:
- High-efficiency removal of NO3⁻ and NO2⁻
- Reducing carbon source dosage by 30% to 70%.
- Enhanced system stability and a smaller environmental footprint.
Achieving true deep denitrification, with the potential to upgrade to Zero Liquid Discharge (ZLD) standards.
IV. COD Removal Systems
四. COD去除
Whether dealing with high-concentration recalcitrant wastewater or terminal polishing treatment, we hold a distinct advantage.
| Challenges of Traditional COD Removal | Our Advantages |
| High Sludge Yield & Costly Sludge Treatment | Immobilization enables the cultivation of specialized degrading bacteria. |
| Toxicity Shock ➔ Efficiency Drop | Strong Toxicity Resistance for Industrial Water. |
| Sludge Washout ➔ Extended Restart Time | High Stability & Long-Term Operation |
| Low treatment efficiency for recalcitrant organic matter. | Significant Sludge Reduction (SRT ↑, Low Yield) |
High Compatibility:
- AO / A2O / MBR / MBBR / IFAS
- Integrating with nitrification and denitrification into a simultaneous system.
Moving beyond minor COD reduction—delivering precise compliance tailored to your exact standards.
Phased System Assessment
Diverse factories and varying wastewater compositions mean that direct full-scale implementation carries excessive risks.
To mitigate these risks, we provide a modular service framework engineered to secure your success at every stage:
Phase 1 | Lab Batch Testing
Objective: Feasibility Evaluation & Strain Selection
Scope:
- Basic Water Quality Analysis (COD, TN, NH4⁺-N, NO3⁻N, pH...)
- Applicable Strain Screening
- Preliminary Removal Efficiency Assessment
- Carrier Compatibility Testing
- Duration: 1-2 Weeks
Phase 2 | Lab Continuous-Flow Testing
Purpose: Establish Stable Process Parameters
Scope:
- HRT、SRT、OLR、NLR 等參數調整
- 負荷衝擊測試
- 穩定性評估
- 2-4週
第三階段|現場 Pilot 測試
目的:在客戶現場驗證真實效果
Scope:
- 依現場水質與空間設置小型 Pilot 系統
- 實際進流、曝氣、回流、排泥測試
- 與原系統比較性能
- 優化實廠規格
第四階段|系統設計與導入
提供兩種導入方式:
- 整廠設計(Turn-key):由我們完整規劃流程與設備
- 既有系統升級(Retrofit):將固定化技術導入既有 AO / MBR / MBBR / IFAS 系統
- 可客製:硝化、脫硝、COD 去除、同步脫氮、深層處理
為什麼工程顧問公司/工廠選擇我們?
我們不只是賣載體,而是提供整體技術解決方案:
| 傳統供應商 | 我們 |
|---|---|
| 只賣載體或菌種 | 提供「菌 + 載體 + 參數 + 操作方法」 |
| 沒有科學數據 | 實驗 + 連續流 + Pilot 測試完整過程 |
| 缺乏專業溝通 | 與水處理工程顧問長期合作經驗 |
| 固定流程 | 可模組化、可客製、可分階段導入 |
| 出事才支援 | 全程技術陪伴,穩定才是目標 |
- 工廠喜歡:因為能穩定達標、降低營運成本
- 顧問公司喜歡:因為能提供更有效的解決方案、提升競爭力
常見問題(FAQ)
Q1:你們只賣載體,還是可以做整套系統?
- 我們可以只提供載體與技術支援
- 也可協助 Pilot 或整廠設計
- 可配合顧問公司共同開發專案
Q2:我的水質很特殊,可以用嗎?
- 我們會先做實驗室測試,確認菌種與反應條件
- 必要時可客製菌種或預處理
Q3:整個導入流程要多久?
- 批次測試:1–2 週
- 連續流測試:2–4 週
- Pilot 試驗:1–3 個月
- 正式設廠:依規模規劃
(可加速,視水質與合作模式)
Q4:成本會不會比較高?
- 載體初期成本略高
- 但反應槽可縮小、能耗降低、污泥量減少、碳源可節省
總體營運成本通常更低
Q5:載體會不會堵塞 / 需要更換?
- PVA 載體孔徑 1–10 μm,不易堵塞
- 可使用 5–15 年(依條件而定)
- 可在線沖洗、維護簡單
立即諮詢
– 想知道你的廢水適合哪種菌種?
– 想了解固定化技術是否能直接導入你現有的 AO / A2O / MBR / MBBR 系統?
– 想評估 Pilot 或整廠設計的可行性與成本?
我們提供免費初步診斷與技術諮詢
只需提供基本水質與處理目標,我們就能為你規劃最適合的解決方案!
歡迎與我們聯繫,一起打造更高效、更穩定、更環保的廢水處理系統。