Product Description:
The CYWB series of high-throughput intelligent microwave digestion systems refer to instruments that, using the principle of microwave heating within sealed containers, achieve sample pretreatment under high temperature and pressure conditions. These systems offer rapid, safe, and automated solutions for samples and are widely used in fields such as food, environmental protection, disease control, quality supervision, commodity inspection, and scientific research institutions.
Key Features:
The CYWB series high-throughput intelligent microwave digestion system employs microwave non-pulse continuous automatic frequency conversion control, extending the instrument's lifespan and the uniformity of electromagnetic waves. The chamber is made of 52L large capacity, with a custom-made stainless steel material. It features an automatic locking-type buffer explosion-proof door, ensuring the safety of the operator and the integrity of the door structure in case of abnormal reactions. The door and chamber are tightly sealed, and microwave leakage meets national standards. The instrument uses a dual-control system of temperature and pressure to control the pressure and temperature of the synthesis experiment, with a real-time display of 360° continuous rotation. The microwave is uniform, ensuring the same microwave environment for each sample, thus improving the consistency of experimental results.
Technical Specifications:
Host Specifications:
1.1 Power Supply: 220-240 VAC 50/60Hz 15A; Microwave Frequency: Professional microwave source/2450MHz; Total Installation Power: 2600W
1.2 Microwave Output Power: 0~1600W, automatically continuously adjustable.
1.3 Microwave Output Characteristics: Non-pulse continuous automatic frequency conversion control, 0~100% automatic output.
1.4 Microwave Cavity: 52L, full stainless steel cavity, corrosion-resistant, heat-resistant (optional Teflon coating).
1.5 Self-locking buffer explosion-proof furnace door, capable of automatically releasing lateral pressure shock in case of danger, ensuring the personal safety of the operators and the intactness of the furnace door structure.
1.6 Exhaust and Cooling System: The furnace cavity is equipped with a high-power exhaust system, allowing various reactions to be carried out continuously for long periods under a well-ventilated, safe, and easily observable environment; the furnace cavity ventilation uses acid-resistant, high-volume centrifugal fans with an exhaust volume of not less than 5m³/min; the cavity features wind cooling to continuously cool the reaction tank, with real-time temperature and pressure displays.
Control System Parameters:
2.1 Control Method: Touch screen design, 7-inch large display, long-distance direct reading of reaction process, real-time display of closed reaction vessel temperature and pressure, and real-time display of temperature-pressure curves.
2.2 Temperature Control Range: Room temperature to 300℃; Temperature Control Accuracy: ±0.5℃
2.3 Temperature Control System: Utilizes contact temperature control method, ensuring precise temperature control with no errors, employing high-precision platinum resistance temperature sensors; real-time detection, control, and display of the temperature and curve inside the microwave digestion reactor.
2.4 Pressure Control System: Utilizes a non-contact pressure control method, ensuring precise pressure control without error, and features real-time detection, control, and display of the pressure inside the microwave digestion reactor.
2.5 Turntable Design: Continuous rotation in the same direction at 360°, ensuring even microwave distribution and the same microwave environment for each sample, thereby guaranteeing consistency of experimental results.
Reactor Vessel Specifications:
Outer container made of imported PEEK aerospace material; inner container material: PTFE; inner container reaction volume: 55ml (standard) and 100ml (optional).
