Factors Affecting turbidity analyzer Price

Turbidity analyzers are essential instruments used in various industries to measure the clarity of liquids by detecting suspended particles. These analyzers play a crucial role in ensuring the quality and safety of water, beverages, pharmaceuticals, and other products. When considering purchasing a turbidity analyzer, one of the key factors to take into account is the price. The price of a turbidity analyzer can vary significantly depending on several factors.

Product Model DOF-6310 (DOF-6141)
Product Name Dissolved oxygen data collection terminal
Measuring Method Fluorescence Method
Measurement range 0-20mg/L
Accuracy ±0.3mg/L
Resolution    0.01mg/L
Response time 90s
Repeatibility 5%RS
Temperature compensation 0-60.0℃ Accuracy:±0.5℃
Air pressure compensation 300-1100hPa
Stand pressure 0.3Mpa
Communication RS485 MODBUS-RTU standard protocol
Power DC(9-28)V
Power comsuption <2W
Operational envrionment Temperature:(0-50)℃
Storage Environment Temperature:(-10-60)℃; Humidity:≤95%RH(None condensation)
Installation Submerged
Protection Level IP68
Weight 1.5Kg(with 10m cable)

One of the primary factors that influence the price of a turbidity analyzer is the type of technology used in the instrument. There are different types of turbidity analyzers available on the market, such as nephelometric, ratiometric, and scattered light turbidity analyzers. Each type of analyzer has its own set of features and capabilities, which can affect its price. Nephelometric turbidity analyzers, for example, are typically more expensive than ratiometric analyzers due to their higher sensitivity and accuracy.

Another factor that can impact the price of a turbidity analyzer is the brand and manufacturer. Some brands are known for producing high-quality, reliable analyzers that come with a higher price tag. These brands often invest in research and development to improve the performance and functionality of their analyzers, which can justify the higher cost. On the other hand, there are also budget-friendly options available from lesser-known manufacturers that may offer basic functionality at a lower price point.

The level of automation and integration of the turbidity analyzer can also affect its price. Some analyzers come with advanced features such as automatic calibration, data logging, and remote monitoring capabilities, which can increase the overall cost of the instrument. These features can be beneficial for industries that require real-time monitoring and control of turbidity levels. However, if these features are not necessary for your specific application, opting for a simpler, more affordable analyzer may be a better choice.

The size and capacity of the turbidity analyzer can also impact its price. Larger analyzers with higher capacity for sample volume may come with a higher price tag due to their increased complexity and functionality. These analyzers are typically used in industrial settings where large quantities of samples need to be analyzed quickly and accurately. Smaller, portable analyzers are more cost-effective and suitable for field applications or smaller-scale operations.

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In addition to the factors mentioned above, the level of customer support and service provided by the manufacturer can also influence the price of a turbidity analyzer. Some manufacturers offer extended warranties, training programs, and technical support services that can add value to the purchase but may come at an additional cost. It is important to consider the overall cost of ownership, including maintenance and support, when evaluating the price of a turbidity analyzer.

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In conclusion, the price of a turbidity analyzer is determined by a combination of factors, including the type of technology, brand, features, size, and customer support. It is essential to carefully evaluate your specific requirements and budget constraints when selecting a turbidity analyzer to ensure that you get the best value for your investment. By considering these factors and conducting thorough research, you can find a turbidity analyzer that meets your needs without breaking the bank.

Model CLA-7000 Series Free Chlorine(DPD)online automatic analyzer
Inlet channel Single channel/Double channel
Measurement range Free chlorine:(0.0~2.0)mg/L or (0.5~10.0)mg/L ,Calculated as Cl2; pH:(0-14); Temperature(0-100)℃
Accuracy Free chlorine:±10% or ±0.1/0.25 mg/L; pH:±0.1pH;Temperature:±0.5℃
Measurement Period ≤2.5min
Sampling interval The interval (1~999) min can be set arbitrarily
Maintenance cycle Recommended once a month (see maintenance chapter)
Environmental requirements A ventilated and dry room without strong vibration;Recommended room temperature:(15~28)℃;Relative humidity:≤85%(No condensation)
Water sample flow (200-400) mL/min
Inlet pressure (0.1-0.3) bar
Inlet water temp. (0-40)℃
Power supply AC (100-240)V; 50/60Hz
Power 120W
Power connection The 3-core power cord with plug is connected to the mains socket with ground wire
Data output RS232/RS485/(4~20)mA
Size H*W*D:(800*400*200)mm

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