

逆浸透テストスキッド
•ROスキッドは、溶解固形物のろ過、細菌濃度のRO膜研究に使用できます。
•透過流束/流束およびMWCO特性の研究
•スケーリング防止、抗菌、タンパク質結合、生物付着防止研究のための表面改質の効果
•同じ装置をさまざまな膜材料、溶媒、添加剤に使用できます
•必要な機器/制御を備えた自給自足の装置
•高圧ポンプを備えています
•カスタマイズ/自動化オプション
•コンパクトなテーブルトップデザイン
• 使いやすい
•正確で効果的な結果

• Supports simultaneous testing of multiple membranes under controlled conditions.
• Available in 2, 4, 6, or more parallel testing modules.
• Uniform flow distribution to all test cells to minimize variations.
• Compatible with flat sheet, spiral wound membrane formats.
• Variable test cell dimensions based on membrane type and research needs.
• Leak-proof, precision-engineered design for accurate testing.
• Stainless steel, corrosion-resistant pumps for precise flow control.
• Adjustable operating pressure up to 70 bar (1000 psi) for RO/NF membranes.
• Independent pressure control for each test cell (optional).
• Differential pressure sensors to study pressure drop across membranes
• Integrated DAQ system for real-time data logging and performance tracking.
• Comparative membrane performance testing under identical conditions
• Evaluation of membrane flux, rejection rate, and fouling behavior.
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• Series flow arrangement, allowing sequential membrane testing under varying pressures and concentrations.
•Multiple membrane test cells/modules connected in a series configuration.
• Gradual concentration increase across membranes, mimicking real-world desalination/filtration processes.
• Compatible with flat sheet, spiral wound membrane formats.
• Variable test cell dimensions based on membrane type and research needs.
• Leak-proof, precision-engineered design for accurate testing.
• Stainless steel, corrosion-resistant pumps for precise flow control.
• Adjustable operating pressure up to 70 bar (1000 psi) for RO/NF membranes.
• Independent pressure control for each test cell (optional).
• Differential pressure sensors to study pressure drop across membranes
• Integrated DAQ system for real-time data logging and performance tracking.
• Comparative membrane performance testing under identical conditions
• Evaluation of membrane flux, rejection rate, and fouling behavior.