Multi-functional process analyzer LB-10MPT is a microcomputer controlled system for homoeothermic heating, vibration and degasification. The PID algorithm automatic temperature control delivers efficient results.
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Temperature range | RT ~ 120 °C |
Temperature control accuracy | RT ~ 50 °C ± 0.2 °C 50 °C ~ 100 °C ± 0.3 °C 100 °C ~ 120 °C ± 0.5 °C |
Oscillation frequency | 275 ± 3 period/min |
Oscillation amplitude | 35 mm |
Chromatography oscillation degasification | Oscillation period: 20 min Silent period: 10 min Homoeothermic temperature: 50 °C |
Water soluble acid oscillation | Oscillation period: 5 min Homoeothermic temperature: 75 °C |
Other physical oscillation | Arbitrary oscillation: < 99 min Silent period: ± 5 s |
Frequency | 50 Hz ± 5 % |
Noise | < 40 dB |
Ambient temperature | 5 °C ~ 45 °C |
Relative humidity | ≤ 85 % |
Power supply | AC 220 V ± 10 % |
Dimensions | 600 × 600 × 400 mm |
Weight | 40 kgs |
Features
Applications
Used in experimental labs, petrochemical industries, chemical industries, paint and lubricants industries, etc.
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A multi-test analyzer is a sophisticated and versatile laboratory instrument designed to perform a wide range of diagnostic tests and assays on clinical samples, such as blood, urine, or other bodily fluids. These instruments are equipped with multiple modules that can conduct various analyses, including chemistry, hematology, immunoassays, and coagulation studies. This comprehensive testing capability makes them invaluable in clinical laboratories and healthcare facilities, as they streamline the diagnostic process, enhance efficiency, and offer quick results for a range of medical conditions. The automation of sample handling, analysis, and result reporting minimizes human error, ensures precision, and accelerates patient diagnosis and treatment.
Function | Chemistry + Coagulation + Specific Protein |
Sample Volume | 50 µL to 500 µl |
Wavelength | Chemistry: 340 nm,405 nm , 492 nm, 510 nm, 546 nm, 620 nm, 670 nm Coagulation: 450 nm, 670 nm Specific protein: 450 nm, 670 nm |
Incubator | 2 reagent and 20 sample incubation positions , controlled at 37 °C ± 0.5 °C |
Function | Chemistry + Specific Protein |
Sample Volume | 100 µL to 500 µL |
Wavelength | Chemistry: 340 nm, 405 nm, 492 nm, 510 nm, 546 nm, 620 nm, 670 nm Specific Protein: 450 nm, 670 nm |
Incubator | 2 reagent and 20 sample incubation positions, controlled at 37 °C ± 0.5 °C |
Function | Chemistry + Coagulation |
Sample Volume | 50 µL to 500 µL |
Wavelength | Chemistry: 340 nm, 405 nm, 492 nm, 510 nm, 546 nm, 620 nm, 670 nm Coagulation: 450 nm, 670 nm |
Incubator | 2 reagent and 20 sample incubation positions, controlled at 37 °C ± 0.5 °C |
Our Chlorine Content Analyzer is a specialized instrument used to quantitatively determine the chlorine content in various substances, particularly in chemical processes and industrial applications. It employs techniques such as titration, spectroscopy, or combustion analysis to measure the concentration of chlorine in samples. These analyzers are essential for quality control, process optimization, and compliance with environmental regulations in industries like petrochemicals, plastics, and water treatment. By providing accurate data on chlorine levels, these analyzers help ensure product quality, safety, and adherence to industry standards. Chlorine Content Analyzers play a crucial role in maintaining the integrity of processes and products across a range of industrial sectors, where precise chlorine content measurements are paramount.
Oxygen bomb pressure | ≥ 20 MPa |
Ignition voltage | 12 V ~ 24 V |
Repeatability | 6 × 10-4 % |
Ambient temperature | 5 °C ~ 40 °C |
An octane analyzer is a specialized instrument used to determine the octane rating of gasoline or fuel samples, a critical parameter that assesses the fuel's resistance to knocking or pre-ignition in internal combustion engines. These analyzers employ various techniques, including research octane number and motor octane number testing, to measure a fuel's anti-knock properties. They find extensive application in the petroleum industry, automotive research, and quality control, ensuring that gasoline meets specified octane ratings and performs optimally in engines. Our octane analyzers provide accurate data to refine fuel formulations, develop higher-performing gasoline, and comply with regulatory standards, thereby contributing to engine efficiency, reduced emissions, and enhanced overall automotive performance
Measurement range | 40 RON ~ 120 RON |
Speed range | 900 ± 9r / min ( Motor method ) 600 ± 6r / min ( Research method ) |
Pressure | ≥ 0.15 MPa |
Compression ratio range | 4:1 ~ 18:1 |
Nitrogen Analyzer is a scientific instrument designed to quantify the nitrogen content in various substances. Employing techniques such as combustion, chemiluminescence, or infrared spectroscopy, it accurately measures nitrogen levels in samples like soil, plant material, or organic compounds. Widely used in agriculture, environmental science, and industrial settings, the analyzer aids in optimizing fertilizer application, assessing soil health, and monitoring pollution. Its precision and speed make it a crucial tool for researchers and professionals, facilitating data-driven decisions and promoting efficient resource management.
Measuring range | 79.0% to 99.9% |
Sample Gas Flow | 150 to 300 ml/min |
Visible Display Window | 90 × 25 mm |
Accuracy | ±2% F. S |
Sample Types | Solid, Gas, Liquid |
Working Principle | Chemiluminescence method (N) |
Sample Injection Quantity | Solid: 1to 20 mg Liquid: 5 to 20 μL Gas: 1to 5 mL |
Measuring Range | 0.05 to 20000 ppm (mg/L) (High concentration diluted) |
Our wide range of cetane analyzer is a specialized instrument used in the petroleum and automotive industries to measure the cetane number of diesel fuel. The cetane number is a critical parameter that determines the ignition quality of diesel fuel, with higher values indicating better ignition performance. Cetane analyzers typically utilize a combustion chamber and optical sensors to evaluate the ignition delay period of the fuel. This data assists in assessing the fuel's quality, combustion efficiency, and potential for engine knock or noise. By ensuring diesel fuel meets specific cetane number requirements, these analyzers help optimize engine performance, reduce emissions, and improve fuel economy.
Engine speed | 900 rpm ± 9 rpm |
Piston stroke | 114.3 mm |
Cylinder bore diameter | 82.55 mm |
Compression ratio range (adjustable) | 8:1 ~ 36:1 |
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