Ultrapure water system is sub-economic choice for high grade experiments. This level of purification is required for advanced analytical techniques, such as HPLC, and is commonly used for semi-conductor manufacturing.
Feed Water Requirements* Water Inlet : RO water, Distilled water, Deionized water Temperature : 5-45°C Pressure : 1atm* Flow Procedure** : UV+AC+DI+UF+TF Ion rejection rate : - Organic rejection rate : - Particles and bacteria rejection rate : - Bacteria : <0.1 cfu/ml Output(25°C)**** : Utmost up to 2.0 L/min (less output with UF cartridge) Pure water outlet : Deionized water and Ultrapure water Water Quality Monitor : Portable TDS/conductivity test pen + on-line resistivity monitor Standard configuration : Main body (Including 1 set of cartridges)+ accessory bag Power Consumption (W): 72 W Power Supply : AC110-220 V, 50/60 Hz Note : *The feed water quality will influence the pure water's quality and cartridges life-span. **AC:active carbon, DI:ion exchange, UV:ultraviolet, UF:ultrafiltration, TF:terminal microfiltration. ***Value of number will be influenced by feed water quality. ****The output will decrease with terminal filter or UF cartridge. Deionized water quality Resistivity : >5 MΩ.cm Particle (>0.2µm) : < 1/ml Ultrapure Water Quality TOC*** : <3 ppb Heavy metal ion : <0.1 ppb Endotoxin : <0.001 EU/ml Rnases : <0.01 ng/ml Dnases : <4pg/µl Resistivity(25°C) : - Heavy Metal Ion : - Flow rate : - Dimension (LxWxH) : 410x220x420 mm Weight : 20 kg
Ultrapure water system is sub-economic choice for high grade experiments. This level of purification is required for advanced analytical techniques, such as HPLC, and is commonly used for semi-conductor manufacturing.
Ultrapure water system is sub-economic choice for high grade experiments. This level of purification is required for advanced analytical techniques, such as HPLC, and is commonly used for semi-conductor manufacturing.
Ultrapure water system is sub-economic choice for high grade experiments. This level of purification is required for advanced analytical techniques, such as HPLC, and is commonly used for semi-conductor manufacturing.