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Extensive research and practice in plant supplementary lighting have shown that photosynthesis is a rapid, second-level reaction process and does not require continuous illumination throughout.
The PulseEco Tissue Culture Light, developed by GMY, is based on this principle. By precisely aligning with the rhythm of photosynthesis, it achieves energy conservation and reduced power consumption.
Dark reaction phase: the lamp switches off, lowering power use and avoiding unnecessary waste.
Light reaction phase: the lamp automatically provides appropriate intensity to meet photosynthetic needs and support healthy seedling growth.
In tissue culture trials with orchids, potatoes, chrysanthemums, Anoectochilus, and Dendrobium, the PulseEco solution reduced energy consumption by more than 50%, while maintaining or even improving seedling growth performance. This demonstrates the realization of “saving energy without reducing growth capacity.”
High Energy Efficiency: Smart regulation of the photosynthetic rhythm enables energy savings of over 50%.
High Light Efficiency: Delivers more effective photons per unit of power, improving light utilization.
Optimized Spectrum: Spectrum tailored to both photosynthetic and morphogenetic requirements, supporting healthy growth.
Operational Reliability: Ensures stable lighting performance for long-duration operation, suitable for tissue culture environments.
Wide Applicability: Covers a broad range of tissue culture crops, including flowers and vegetables, and is easy to deploy or replace.
Experimental Validation
In orchid tissue culture trials, the PulseEco Tissue Culture Light reduced energy consumption by up to 58% compared with conventional tissue culture lamps.
Key growth indicators—including plant height, leaf number, leaf length, and leaf width—were consistent with the control group. Seedlings showed compact morphology, green leaves, and healthy growth.
1.Energy Saving: Monthly lighting consumption per bottle was only 0.09 kWh with PulseEco, compared to 0.23 kWh with conventional solutions, saving more than half. Reduced lighting energy also lowered environmental control costs.
2.Cost Benefits: At an electricity cost of 1 RMB/kWh, a 500 m² culture room could save approximately 150,000 RMB annually.
3.Stable Growth: Key growth indicators (plant height, leaf number, fresh weight) matched conventional solutions, while root length was even longer (5.2 cm vs. 4.2 cm).
Equal quality, half the energy, with almost no difference in growth performance.
In potato tissue culture trials, the PulseEco Tissue Culture Light reduced energy consumption by about 50%.
Seedlings displayed similar plant height and leaf size to the control group, with robust morphology and normal leaf coloration, without etiolation or chlorosis.
1.Energy Saving: Monthly lighting consumption per bottle was only 0.08 kWh with PulseEco, compared to 0.16 kWh with conventional solutions, saving more than half. Reduced lighting energy also lowered environmental control costs.
2.Cost Benefits: At an electricity cost of 1 RMB/kWh, a 500 m² culture room could save approximately 150,000 RMB annually.
3.Stable Growth: Key growth indicators (plant height, stem diameter, fresh weight, internode number) were consistent with conventional solutions.
Equal quality, half the energy, with almost no difference in growth performance.
Extensive research and practice in plant supplementary lighting have shown that photosynthesis is a rapid, second-level reaction process and does not require continuous illumination throughout.
The PulseEco Tissue Culture Light, developed by GMY, is based on this principle. By precisely aligning with the rhythm of photosynthesis, it achieves energy conservation and reduced power consumption.
Dark reaction phase: the lamp switches off, lowering power use and avoiding unnecessary waste.
Light reaction phase: the lamp automatically provides appropriate intensity to meet photosynthetic needs and support healthy seedling growth.
In tissue culture trials with orchids, potatoes, chrysanthemums, Anoectochilus, and Dendrobium, the PulseEco solution reduced energy consumption by more than 50%, while maintaining or even improving seedling growth performance. This demonstrates the realization of “saving energy without reducing growth capacity.”
High Energy Efficiency: Smart regulation of the photosynthetic rhythm enables energy savings of over 50%.
High Light Efficiency: Delivers more effective photons per unit of power, improving light utilization.
Optimized Spectrum: Spectrum tailored to both photosynthetic and morphogenetic requirements, supporting healthy growth.
Operational Reliability: Ensures stable lighting performance for long-duration operation, suitable for tissue culture environments.
Wide Applicability: Covers a broad range of tissue culture crops, including flowers and vegetables, and is easy to deploy or replace.
Experimental Validation
In orchid tissue culture trials, the PulseEco Tissue Culture Light reduced energy consumption by up to 58% compared with conventional tissue culture lamps.
Key growth indicators—including plant height, leaf number, leaf length, and leaf width—were consistent with the control group. Seedlings showed compact morphology, green leaves, and healthy growth.
1.Energy Saving: Monthly lighting consumption per bottle was only 0.09 kWh with PulseEco, compared to 0.23 kWh with conventional solutions, saving more than half. Reduced lighting energy also lowered environmental control costs.
2.Cost Benefits: At an electricity cost of 1 RMB/kWh, a 500 m² culture room could save approximately 150,000 RMB annually.
3.Stable Growth: Key growth indicators (plant height, leaf number, fresh weight) matched conventional solutions, while root length was even longer (5.2 cm vs. 4.2 cm).
Equal quality, half the energy, with almost no difference in growth performance.
In potato tissue culture trials, the PulseEco Tissue Culture Light reduced energy consumption by about 50%.
Seedlings displayed similar plant height and leaf size to the control group, with robust morphology and normal leaf coloration, without etiolation or chlorosis.
1.Energy Saving: Monthly lighting consumption per bottle was only 0.08 kWh with PulseEco, compared to 0.16 kWh with conventional solutions, saving more than half. Reduced lighting energy also lowered environmental control costs.
2.Cost Benefits: At an electricity cost of 1 RMB/kWh, a 500 m² culture room could save approximately 150,000 RMB annually.
3.Stable Growth: Key growth indicators (plant height, stem diameter, fresh weight, internode number) were consistent with conventional solutions.
Equal quality, half the energy, with almost no difference in growth performance.
