Kenton has introduced its cutting-edge RG and PG Climate Simulation Chambers, designed to support a wide range of scientific and agricultural applications. These chambers offer precise control over environmental conditions, making them ideal for biological tissue research, cell culture, seed germination, plant cultivation, and even breeding small animals and insects.
The chambers are equipped with advanced features to simulate day-night light intensity changes and climate conditions, enabling multi-stage, step-by-step programming for long-term cultivation experiments.
Key Innovations:
ALLCOLD™ Refrigeration Technology:
Utilizes R290 eco-friendly refrigerant for efficient cooling.
Features automatic defrosting and multi-layer safety protection for continuous operation.
ALLSENS™ Control System:
Employs a programmable microcomputer PID control for precise temperature and humidity regulation.Prevents temperature overshoots and ensures uniform and stable conditions within the chamber.
ALLFLOW™ Airflow Circulation System:
Maintains continuous temperature and humidity stability, creating an ideal environment for sample cultivation.
PG Layer-Illuminated Growth Box Highlights:
The PG model introduces a revolutionary lighting system with multi-dimensional LED illumination from layers, sides, and the door, ensuring even light distribution throughout the chamber. A new controller allows light intensity to be finely tuned by adjusting the current, a significant improvement over traditional lamp-switching methods. Additionally, researchers can combine different light spectra to meet specific experimental needs.
Kenton's Climate Simulation Chambers cater to researchers seeking reliable, environmentally friendly, and energy-efficient solutions. For inquiries, the company offers one-on-one technical support and customized guidance to ensure optimal performance.
For more information, contact Kenton and explore how their innovative products can advance your research and cultivation projects.
RG, PG Climate Simulation Chamber product image: