Detail Portable Total Copper Analyzer TP2123
Water Test Kit
Portable Total Copper Analyzer TP2123
Brand: TIMEPOWER
Features: The TP2123 Total Copper Analyzer is a powerful and user-friendly portable analytical instrument that complies with the standard GB7474-87 “Determination of Copper in Water Quality.”
Application: It is applied in emergency monitoring, wastewater treatment, chemical industry, pharmaceutical industry, hospital wastewater, food industry, textile dyeing, and other industries for wastewater testing. It can also be used in research institutions, colleges, and universities for wastewater research, and is suitable for analyzing and detecting copper content in surface water, wastewater, and industrial wastewater.
Features
01 Compact instrument design with a portable, lightweight, and easy-to-carry boxed configuration
02 Utilizes an imported cold light source for excellent optical performance
03 Supports Chinese/English display (optional), direct data reading, and intelligent operation procedures
04Uses colorimetric tube testing for simple, fast, and safe measurements
05Comes with dedicated testing reagents to minimize user operation, making testing simpler and more accurate
06Can store 4,000 sets of historical measurement data, with data storage and power failure protection functions
07Supports wireless Bluetooth printing (optional Bluetooth printer)
08Built-in high-capacity rechargeable lithium battery, with remaining battery level display, low power consumption, and ultra-long standby time
Working principle
Working Principle of Portable Total Copper Analyzer TP2123
At high temperatures, various copper compounds in the water sample are oxidized and decomposed by nitric acid into divalent copper ions. Under ammoniacal conditions, the copper ions react with sodium diethyl dithiocarbamate to form a yellow-brown complex. Within a certain concentration range, the absorbance of the system is directly proportional to the concentration of copper ions, enabling the total copper content in the water sample to be determined by spectrophotometric measurement.
The instrument uses the principle of photometric colorimetry for measurement, based on the Lambert-Beer law: when a beam of monochromatic parallel light passes through a colored solution, part of the light energy is absorbed by the solution. If the thickness of the liquid layer remains constant, the extent of light energy absorption is directly proportional to the concentration of colored substances in the solution. Laboratory water quality analyFeatures
01 Compact instrument design with a portable, lightweight, and easy-to-carry boxed configuration
02 Utilizes an imported cold light source for excellent optical performance
03 Supports Chinese/English display (optional), direct data reading, and intelligent operation procedures
04Uses colorimetric tube testing for simple, fast, and safe measurements
05Comes with dedicated testing reagents to minimize user operation, making testing simpler and more accurate
06Can store 4,000 sets of historical measurement data, with data storage and power failure protection functions
07Supports wireless Bluetooth printing (optional Bluetooth printer)
08Built-in high-capacity rechargeable lithium battery, with remaining battery level display, low power consumption, and ultra-long standby time
Working principle
Working Principle of Portable Total Copper Analyzer TP2123
At high temperatures, various copper compounds in the water sample are oxidized and decomposed by nitric acid into divalent copper ions. Under ammoniacal conditions, the copper ions react with sodium diethyl dithiocarbamate to form a yellow-brown complex. Within a certain concentration range, the absorbance of the system is directly proportional to the concentration of copper ions, enabling the total copper content in the water sample to be determined by spectrophotometric measurement.
The instrument uses the principle of photometric colorimetry for measurement, based on the Lambert-Beer law: when a beam of monochromatic parallel light passes through a colored solution, part of the light energy is absorbed by the solution. If the thickness of the liquid layer remains constant, the extent of light energy absorption is directly proportional to the concentration of colored substances in the solution. Laboratory water quality analyzer
