The orifice plate gradient dilution instrument is mainly used for automated and high-precision preparation of gas or liquid samples of different concentrations in laboratories, and is widely used in gas analysis, microbial detection, environmental monitoring and other fields.
The orifice plate gradient diluter is usually equipped with a precision pump system and a mass flow controller. By accurately controlling the flow rate and flux of the sample and diluent, the micro plug holes on the microplate are used to achieve graded dilution and mixing of the solution. Some instruments are also controlled by high-speed three-way solenoid valves and microprocessors, and the concentration ratio of gas is achieved by mixing and taking gas in a time-sharing manner.
The orifice plate gradient diluter, with its advantages of automated operation, high-precision dilution, and low reagent consumption, is widely used in experimental scenarios that require rapid and accurate preparation of multi concentration gradient solutions, especially playing an important role in fields such as life sciences, pharmaceutical research and development, and environmental monitoring.
Features
High degree of automation: Users only need to fill the solution to be diluted into the sample tank, select the desired dilution ratio, and the instrument can automatically complete the dilution process, greatly improving experimental efficiency and reducing human operation errors.
High precision dilution: It can accurately control the transfer amount and mixing degree of the liquid, ensure the accuracy and repeatability of the dilution results, and avoid errors that may occur during human operation.
Reduce reagent waste: By optimizing the design of the orifice plate, the amount of diluent can be accurately controlled, reducing the waste of chemical reagents.
Wide applicability: Suitable for various laboratory orifice plates, supporting multiple microbial racks and containers, and can meet different experimental needs.
Flexible experimental design
Support custom dilution schemes (such as non integer multiple dilution, multi-component mixed dilution) to meet special experimental needs.