A moderate power plant grows light specifically created for indoor multi-layer planting and priceless herbs, flowers, and other plants are the SW Interlighting. It has outstanding heat removal efficiency, a low thermal efficiency, and superb, healthy lighting homogeneity even when multiple lights are lit. For illuminating the lower dark area of the high wire crop in greenhouses, the Muizlux SW Series is an SW interlighting solution. A single connection may handle a lengthy series of luminaires thanks to the flexible lighting system’s ultra-low inrush performance and low current demand.

When applying top lighting to high wire crops, much of the light is absorbed by the top of the canopy. By adding SW deeper into the canopy, light can now reach leaves that are still photosynthetically active, ultimately increasing plant yield.

The SW interlighting system comes with an easy plug-and-play connector and just a few cables and accessories. The primary power connection can connect multiple lighting modules, saving time, materials, and installation costs, and greatly reducing the total installation cost. Only a few wires and supplies are included with the interlighting system, along with a simple plug-and-play connector. Multiple lighting modules can be connected via the primary power connection, saving time, money, and labor expenses while also significantly lowering the project’s overall installation costs. Thanks to flexible cable connections, the whole system can be easily lifted one meter at a time, again saving time and trouble.  With the sidewards light distribution pattern, the leaves can optimally transform the light into growing more yield.

The use of Muizlux LED production modules in multi-layer cultivation offers the following benefits: higher product quality and uniformity, more controlled cultivation management, and energy savings of up to 75%. LED lighting is perfect for illumination in regulated situations due to its low heat dissipation and even light distribution.

Key advantages:

Well-designed, quality-controlled, and reliable; an effective heat management system; outstanding electro-optical conversion efficiency; greater durability. Boost production. Key advantages Select the most energy-efficient SW interlighting module for your circumstance to reduce your energy expenses while increasing productivity by applying the correct light at the right area with system effectiveness of up to 3.3 mol/J. Lower installation costs are made possible by daisy-chaining and plug-and-play architecture. Reduce your energy expenditures by selecting the most effective SW interlighting module for your area; Easy to install and maintain. Action by applying the correct light at the right location with system effectiveness of up to 3.3 mol/J. Lower installation costs are made possible by daisy-chaining and plug-and-play architecture. Simple to install and keep up.

Principal benefit:

high-quality plant production that is steady and under control, a light formulation for various plants, suited to plants with a variety of productive traits, Low heat dissipation for usage in climate-controlled spaces, ways to plant in several tiers, 75 percent or more energy savings over fluorescent lighting.

Growers in a variety of industries benefit from Muizlux LED tube plant light’s special features. The goods are most appropriate for, Fruit and veggies including peppers, tomatoes, and cucumbers. Green leafy vegetables and herbs, such as basil and lettuce and Berries fruit. Flower cultivation includes annuals, perennials, and potted plants. Propagation of veggies and flowers.

How is this SW Interlighting controlled?

The MUIZLUX control system, which can only be loaded on a PC, tablet, or smartphone, allows for simple management and control. Its installation, The component, which is simple to install on existing installations and doesn’t require extra anchoring clips, is available in four different lengths: 60 cm, 90 cm, 120 cm, and 150 cm.

The method for dissipating heat: 

Muizlux LED production modules to produce extremely little heat to plants because of the benefits of Lighting technologies and an efficient heat removal design.

Advanced manufacturing resilience and fully completed design, A spectrum that has been scientifically tailored to enhance photosynthesis, growth, and yield

superior consistency of illumination across the plant canopy. The Spectrum is optimized for all stages of plant development and manufacturing. The contribution of SW Interlighting is being researched in the spring greenhouse tomato, Vine crops, particularly tomatoes and cucumbers, are among the best places for electric illumination in horticulture. Many growers don’t use supplemental lighting throughout the spring and summer since bad lighting doesn’t limit growers as much as it does in the winter. On the other hand, LED lighting options are becoming efficacious and affordable, and they can be safely fitted within the canopy without damaging the plants. In the lower portions of the crop canopy, where leaves are more likely to be shadowed, this opens up new opportunities for utilizing extra lighting. This study aims to investigate the effects of extra intra-canopy irradiation on the goal of this study is to examine the morphological and photosynthetic effects of extra intra-canopy light on greenhouse tomato production in the spring and summer.

Regardless of lighting position + source, additional illumination triggered early fruit production and boosted node number, fruit number (FN), and total fruit fresh weight (FW) for both cultivars throughout the winter to summer production process compared to supplemental controls. Additionally, there were no differences in productivity between the two extra lighting schedules. Fruit bioenergy was efficiently converted from electricity using SW Interlighting.

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According to the power generation metrics, the electrical conversion efficiency SW Interlighting into fruit bioenergy was 75% higher than that of HPS-OHL. As a consequence, using SW Interlighting towers resulted in a 403 percent lower lighting cost per average fruit cultivated under HPS-OHL lights. Despite the fact that LED-ICL did not enhance productivity, it did result in significant energy savings for lighting without reducing fruit yield.

Conclusion:

With the advent of SW Interlighting for hydroponic vine crops is changing. During periods of low light throughout the year, intra-canopy SW Interlighting offers more options for improved productivity and quality.