Suzhou Delfino Environmental Technology Co., Ltd.
| Payment Terms | T/T |
| Delivery Time | 1-45 work days |
| Packaging Details | Carton |
| Product Name | Peracetic Acid Sensor |
| Product Model | P10.1 |
| Measuring range: | 0~20/200/2000/5000/20000/50000 ppm |
| Pressure Range | 0 ~ 1 (Flow cell) |
| Temperature Range | 0 … +45°C |
| Response Time | T90: approx. 3.5 min. at 10 °C T90: approx. 1.5 min. at 45 °C |
| Flow Rate | 15-30 l/h (33 – 66 cm/s) |
| Brand Name | Daruifuno |
| Model Number | P10.1 |
| Certification | CE, ISO |
| Place of Origin | China |
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Product Specification
| Payment Terms | T/T | Delivery Time | 1-45 work days |
| Packaging Details | Carton | Product Name | Peracetic Acid Sensor |
| Product Model | P10.1 | Measuring range: | 0~20/200/2000/5000/20000/50000 ppm |
| Pressure Range | 0 ~ 1 (Flow cell) | Temperature Range | 0 … +45°C |
| Response Time | T90: approx. 3.5 min. at 10 °C T90: approx. 1.5 min. at 45 °C | Flow Rate | 15-30 l/h (33 – 66 cm/s) |
| Brand Name | Daruifuno | Model Number | P10.1 |
| Certification | CE, ISO | Place of Origin | China |
Membrane-Coated Peracetic Acid Sensor With High Chemical Resistance For All Water Treatment Applications
The two-electrode system membrane peracetic acid sensor P10.1 is used in all water treatments. It has a mechanically sturdy membrane system with high tolerance to chemicals. The maximum water temperature is 45°C. The optional range is 0~20/200/2000/5000/20000/50000 ppm. Its main features and advantages include the following:
Features
1. Simple two-electrode structure:
Contains working electrode and reference electrode, compact design, easy to integrate into equipment or system.
Reduces complex interactions between electrodes and improves signal stability.
2. Selective detection:
Isolates other interfering substances through membrane technology to achieve specific detection of peracetic acid.
Provides a stable background signal to avoid cross-interference.
3. Fast response time:
The high mass transfer rate of the membrane enables the sensor to respond quickly to changes in peracetic acid concentration.
4. Low maintenance requirements:
The protective effect of the membrane reduces electrode contamination and loss, extending the service life of the sensor.
Usually has automatic calibration and self-cleaning functions for daily use.
5. Wide measurement range:
It can detect peracetic acid from low concentration (ppm level) to high concentration, meeting various application requirements.
Advantages
1. High precision and stability:
The membrane method effectively reduces external interference and improves the accuracy and long-term stability of detection.
2. Chemical corrosion resistance:
The sensor material is usually made of corrosion-resistant materials to adapt to the strong oxidizing environment of peracetic acid and other disinfectants.
3. Low power consumption design:
The two-electrode system has a simple design and low energy consumption, which is suitable for continuous online monitoring.
4. Easy to install and operate on site:
The miniaturized design and plug-and-play function make it easy to deploy under various field conditions.
5. Flexible data output:
Supports multiple signal output methods (such as analog signal 4-20mA or digital communication protocol), which is easy to integrate with the control system.
6. Strong adaptability:
It can be used in different water quality conditions (such as sewage, drinking water, industrial water), and has strong tolerance to flow rate and pressure changes.
Specifications
|
|
P10.1 | ||
| Indicator | Peracetic acid | ||
|
Application | All kinds of water treatment, also sea water Conductivity acids are tolerated. (e. g. bottle washing machine, CIP-plants) The membrane system is mechanical resistant. The membrane system is highly resistant to surfactants (tensides). | ||
| Measuring system | Membrane covered, amperometric 2-electrode system | ||
|
Electronics | Analog version: - voltage output - not galvanically isolated electronics - analog internal data processing - output signal: analog (analog-out/analog) Digital version: - electronic is completely galvanically isolated - digital internal data processing - output signal: analog (analog-out/digital) or digital (digital-out/digital) mA-version: - current output analog - not galvanically isolated electronics - output signal: analog (analog-out/analog) | ||
|
Information about the measuring range | The actual slope of a sensor can vary production-related between 65% and 150% of the nominal slope Note: With a slope > 100% the measuring range is reduced accordingly. (Ex.: 150% slope → 67% of the specified measuring range) | ||
| Accuracy After calibration at repeat conditions (25 °C, in drinking water) from full scale value | Measuring range 2000 mg/L: at 400 mg/l <2% at 1600 mg/l <3% | ||
|
Working temperature | Measuring water temperature: 0 … +45 °C (no ice crystals in the measuring water) | ||
| Ambient temperature: 0 … +55 °C | |||
| Temperature compensation | Automatically, by an integrated temperature sensor sudden temperature changes must be avoided Response time t90: approx. 8 min. | ||
|
Max. allowed working pressure | Operation without retaining ring: - 0.5 bar - no pressure impulses and/or vibrations | ||
| Operation with retaining ring in flow cell: - 1.0 bar, - no pressure impulses and/or vibrations (see option 1) | |||
|
P10.1 | |
| Flow rate (Incoming flow velocity) | Approx. 15-30L/h (33 – 66 cm/s) in flow cell, small flow rate dependence is given | |
| pH-range | pH 1 – pH 8 (see Diagram “Slope of TARAtec P9.3 and P10.1 versus pH“, page 8) | |
|
Run-in time | Measuring range 200 mg/L: First start-up approx. 3 h Measuring range 2000 mg/L: First start-up approx. 1 h Measuring range 20000 mg/L: First start-up approx. 30 min. | |
| Response time | T90: approx. 3.5 min. at 10 °C T90: approx. 1.5 min. at 45 °C | |
| Zero point adjustment | Not necessary | |
| Calibration | At the device, by analytical determination | |
|
Interferences | O3: increases the measured value strongly ClO2: increases the measured value H2O2: very low influence on the measuring value (reduction of the PAA-signal) | |
| Influence of conductivity acids | 1 % sulfuric acid, 1 % nitric acid or 1 % phosphoric acid in the water have no influence to the measuring behaviour | |
| Absence of the disinfectant | Max. 24 h | |
|
Connection | mV version: 5-pole M12, plug-on flange Modbus version: 5-pole M12, plug-on flange 4-20 mA version: 2-pole terminal or 5-pole M12, plug-on flange | |
| Max. length of sensor cable (depending on internal signal processing) | Analog | < 30 m |
| Digital | > 30 m are permissible Maximum cable length depends on application | |
| Protection type | 5-pole M12 plug-on flange: IP68 2-pole terminal with mA-hood: IP65 | |
| Material | Elastomer membrane, PVC-U, stainless steel 1.4571 | |
|
Size | Diameter: approx. 25 mm Length: mV version approx. 190 mm (analog signal processing) approx.. 205 mm (digital signal processing) Modbus version approx. 205 mm 4-20 mA version approx. 220 mm (2-pole-terminal) approx. 190 mm (5-pole-M12) | |
| Transport | +5 … +50 °C (Sensor, electrolyte, membrane cap) | |
|
|
P10.1 |
|
Storage | Sensor: dry and without electrolyte no limit at +5 … +40 °C |
| Electrolyte: in original bottle protected from sunlight at +5 … +35 °C min. 1 year or until specified EXP-Date | |
| Membrane cap: in original packing no limit at +5 … +40 °C (used membrane caps cannot be stored) | |
|
Maintenance | Regular control of the measuring signal, min. once a week The following specifications depend on the water quality: Change of the membrane cap: once a year Change of the electrolyte: every 3 - 6 months |
|
|
| Option 1: Retaining ring | - When operating with pressures >0.5 bar in flow cell - Dimensions retaining ring 29 x 23.4 x 2.5 mm, slitted, PETP - Different positions for groove selectable (on request) |
|
Technical Data
1. P10.1 (Analog output, analog internal signal processing)
A potential-free electrical connection is necessary as the sensor electronic is not equipped with a galvanic.
|
| Measuring range | Resolution | Output Output resistance | Nominal slope | Voltage supply | Connection |
| P10.1-20-M12 | 0…20 ppm | 0,01 ppm | 0…-2000 mV
1 kΩ | -100 mV/ppm | ±5 - ±15 VDC
10 mA | Function of wires: PIN1: measuring signal PIN2: +U PIN3: -U PIN4: signal GND |
| P10.1H-M12 | 0…200 ppm | 0.1 ppm | -10 mV/ppm | |||
| P10.1N-M12 | 5…2000 ppm | 1 ppm | -1 mV/ppm | |||
| P10.1L-M12 | 0.005…2 % (20000 ppm) | 0.001 % (10 ppm) | -1000mV/% (-0.1 mV/ppm) | |||
| P10.1Up2000-M12 | 5…2000 ppm | 1 ppm | 0…+2000 mV 1 kΩ | +1 mV/ppm | 10 - 30 VDC 10 mA | 5-pole M12 plug-on flange Function of wires: PIN1: measuring signal PIN2: +U PIN3: power GND PIN4: signal GND PIN5: n. c. |
| P10.1Up5000-M12 | 50…5000 ppm | 1 ppm | +0.4 mV/ppm |
(Subject to technical changes.)
|
| Measuring range | Resolution | Output Output resistance | Nominal Slope | Power supply | Connection |
| P10.1-20- An-M12 | 0…20 ppm | 0,01 ppm | analog 0…-2 V (max. -2.5 V) | -100 mV/ppm | 9-30 VDC approx. 20-56 mA | 5-pole M12 plug-on flange
Function of wires: PIN1: measuring signal PIN2: +U PIN3: power GND PIN4: signal GND |
| P10.1H-An-M12 | 0…200 ppm | 0.1 ppm | -10 mV/ppm | |||
| P10.1N-An-M12 | 5…2000 ppm | 1 ppm | -1 mV/ppm | |||
| P10.1L-An-M12 | 0.005…2% (20000 ppm) | 0.001% (10 ppm) | -1000 mV/% (-0.1 mV/ppm) | |||
| P10.1-20- Ap-M12 | 0…20 ppm | 0,01 ppm | analog 0…+2 V (max. +2.5 V) | -100 mV/ppm | ||
| P10.1H-Ap-M12 | 0…200 ppm | 0.1 ppm | +10 mV/ppm | |||
| P10.1N-Ap-M12 | 5…2000 ppm | 1 ppm | +1 mV/ppm | |||
| P10.1L-Ap-M12 | 0.005…2% (20000 ppm) | 0.001% (10 ppm) | +1000 mV/% (+0.1 mV/ppm) |
(Subject to technical changes.)
- The power supply is galvanically isolated inside of the sensor.
- The output signal is galvanically isolated too, that means potential-free.
|
| Measuring range | Resolution | Output Output resistance | Power supply | Connection |
|
P10.1-20- M0c |
0…20 ppm |
0,01 ppm | Modbus RTU There are no terminating resistors in the sensor. | 9-30 VDC | 5-pole M12 plug-on flange Function of wires: PIN1: reserved PIN2: +U PIN3: power GND PIN4: RS485B PIN5: RS485A |
| P10.1H-M0c | 0…200 ppm | 0.1 ppm | |||
| P10.1N-M0c | 5…2000 ppm | 1 ppm | |||
| P10.1L-M0c | 0.005…2% (20000 ppm) | 0.001% (10 ppm) |
(Subject to technical changes.)
A potential-free electrical connection is necessary as the sensor electronic is not equipped with a galvanic.
|
| Measuring range | Resolution | Output Output resistance | Nominal slope | Voltage supply | Connection |
| P10.1MA20 | 0…20 ppm | 0,01 ppm | 4…20 mA uncalibrated | 0,8 mA/ppm | 12…30 VDC
RL = 50Ω (12V) RL 900Ω (30V) | 2-pole terminal (2 x 1 mm²)
Recommended: Round cable φ4 mm |
| P10.1MA-200 | 0…200 ppm | 0.1 ppm | 0.08 mA/ppm | |||
| P10.1MA-500 | 5…500 ppm | 1 ppm | 0.032 mA/ppm | |||
| P10.1MA-2000 | 5…2000 ppm | 1 ppm | 0.008 mA/ppm | |||
| P10.1MA-5000 | 50…5000 ppm | 1 ppm | 0.0032 mA/ppm | |||
| P10.1MA-2% | 0.005…2 % (20000 ppm) | 0.001 % (10 ppm) | 8.0 mA/% (0.0008 mA/ppm) | |||
| P10.1MA-5% | 0.05…5 % (50000 ppm) | 0.01 % (100 ppm) | 3.2 mA/% (0.00032 mA/ppm) |
(Subject to technical changes.)
|
| Measuring range | Resolution | Output Output resistance | Nominal slope | Voltage supply | Connection |
| P10.1MA20-M12 | 0…20 ppm | 0,01 ppm | 4…20 mA uncalibrated | 0,8 mA/ppm | 12…30 VDC
RL = 50Ω (12V) … RL 900Ω (30V) | 5-pole M12 plug- on flange
Function of wires: PIN1: n. c. PIN2: +U PIN3: -U PIN4: n c. |
| P10.1MA-200-M12 | 0…200 ppm | 0.1 ppm | 0.08 mA/ppm | |||
| P10.1MA-500-M12 | 5…500 ppm | 1 ppm | 0.032 mA/ppm | |||
| P10.1MA-2000-M12 | 5…2000 ppm | 1 ppm | 0.008 mA/ppm | |||
| P10.1MA-5000-M12 | 50…5000 ppm | 1 ppm | 0.0032 mA/ppm | |||
| P10.1MA-2%-M12 | 0.005…2 % (20000 ppm) | 0.001 % (10 ppm) | 8.0 mA/% (0.0008 mA/ppm) | |||
| P10.1MA-5%-M12 | 0.05…5 % (50000 ppm) | 0.01 % (100 ppm) | 3.2 mA/% (0.00032 mA/ppm) |
(Subject to technical changes.)
Spare Parts
| Type | Membrane cap | Electrolyte | Emery | O-ring |
| P10.1 not: - P10.1L - P10.1MA-2% - P10.1MA-5% | M10.3N Art. no. 11057 |
EPS9H/W, 100 ml Art. no. 11025 | S2 Art. no. 11906 | 20 x 1.5 silicone Art. no. 11803 |
| P10.1L P10.1MA-2% P10.1MA-5% | EPS9L/W, 100 ml Art. no. 11024 |
(Subject to technical changes.)
Company Details
Business Type:
Manufacturer,Exporter,Seller
Year Established:
2015
Ecer Certification:
Verified Supplier
Suzhou Delfino Environmental Technology Co., Ltd. is a professional manufacturer of water analysis instruments and sensors, integrating development and production together. Our main products include online, portable water quality analysis instruments. Since its establishment, we have focused on the ... Suzhou Delfino Environmental Technology Co., Ltd. is a professional manufacturer of water analysis instruments and sensors, integrating development and production together. Our main products include online, portable water quality analysis instruments. Since its establishment, we have focused on the ...
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