11

Risk Assessment

NanoWater  risk assessment program for the BIOCELL-C™  and BIOCELL-B™ technologies  consider the following but not limited to:

  1. Internal temperature;
  2. Internal pressure;
  3. Flow rate;
  4. Alarm systems;
  5. Safety shutdown;
  6. Over-pressure protection;
  7. Gas production;
  8. Commissioning/ maintenance/ calibration activities;
  9. Power supply to electrodes;
  10. Proximity/ orientation to surrounding persons and equipment; and
  11. Raw material and chemicals

Model No.

BioCell-B 500

BioCell-B 1000

BioCell-B 1500

BioCell-B 2000

BioCell-B 5000

Active Chlorine Generated

500 Grams/hr

1000 Grams/hr

1500 Grams/hr

2000 Grams/hr

5000 Grams/hr

Salt Consumed

2 kgs/per hour

4.5 kgs/per hour

7 kgs/per hour

9 kgs/per hour

22.5 kgs/per hour

Hypochlorite strength

7 ~ 8.0 Gpl

7 ~ 8.0 Gpl

7 ~ 8.0 Gpl

7 ~ 8.0 Gpl

7 ~ 8.0 Gpl

NaOCl Produced Per hour

70 liters

140 liters

210 liters

280 liters

700 liters

Water that can be treated with 1 ppm of chlorine(approx.)

500,000 liters per hour

1000,000 liters per hour

1500,000 liters per hour

2000,000 liters per hour

5000,000 liters per hour

AC Power Consumed

2.5kw/per hour

4.5kw/per hour

7kw/per hour

9 kw/per hour

22.5kw/per hour

Operational Considerations of Using Electrochemical Generation

NanoWater  considers a few operational topics when evaluating BIOCELL-B™ plants for a facility:

  1. Hydrogen safety
  2. Electrical safety
  3. Water quality, temperature and pressure
  4. Salt quality
  5. Electrolytic cell maintenance

BIOCELL-B™ Systems control

BIOCELL-B™ control panel should control and (or) monitor all functions and operational parameters including, but not limited to the following:

  1. Cell safety devices such as cell temperature;
  2. Transformer/rectifier;
  3. DC amperage and voltage;
  4. Hypochlorite tank levels;
  5. Hydrogen dilution system and safety;
  6. Hydrogen detection;
  7. Alarm history;
  8. Softener water and brine flow;
  9. Conductivity of brine solution entering the electrolyzer cell;
  10. Level of brine and storage tank;
  11. Password control for adjustment of parameters working range of brine tank levels, product tank levels, cell voltage and amperes range and cell temperature;
  12. Real time, brine tank level readings or indicators either on localized panel display or via HMI; and
  13. Water pressure into the cell.

NanoWater delivers turnkey seawater electro-chlorination plant, Our projects include engineering design, manufacturing, factory assembly. Installation, testing and commissioning, our system able to meet ATEX standard – hazardous area application (Class 1 Zone 2) with stable output, our comprehensive product line is appropriate for various applications.

BIOCELL-C™ & BIOCELL-B™  are trademarks of Biotech Technologies , its subsidiaries or affiliates, in some countries. All information presented herein is believed reliable and in accordance with accepted engineering practices. Biotech Technologies makes no warranties as to the completeness of this information. Users are responsible for evaluating individual product suitability for specific applications. Biotech Technologies assumes no liability whatsoever for any special, indirect or consequential damages arising from the sale, resale or misuse of its products.