Pollution, quality and yield, and cost: This is a current concern for large-scale cannabis producers. These concerns have recently driven the largest producers to establish their own futures in mixed greenhouses. The cannabis industry leans toward these preferences around consumer preferences and government regulations. Because marijuana is primarily smoked, regulations tend to focus on potential lung pollution and target almost all pesticides, microorganisms, heavy metals and mycotoxins that may be found in plants. The skills required to grow in strict state laboratory testing to protect consumers require the right tools; the hybrid greenhouse model combines traditional greenhouse technology with indoor planting protection.
One of the biggest concerns of cannabis growers is the outside air pollutants and pests. No genetically modified cannabis plants can fight these people who kill crops, and the lack of pesticides means that entire crops can be destroyed from common airborne elements. Unlike traditional greenhouses that rely on the continuous movement of outside air, the latest hybrid greenhouses are closed-loop airflow systems that virtually eliminate airborne mold and microorganisms. The construction of the hybrid greenhouse should be more closed, so that the IPM can be concentrated around the air purification device and the periphery of the building, rather than the entire structure. Today, air circulation is a more complicated discussion, and the design revolves around a large air channel designed on the base, so the heating / cooling air originates at the root height and is easier to clean as part of the floor. Then, from there, divide the airflow plan into two layers above the initial root level. Rotating and cleaning air in the next two stages of air has exceeded ordinary horizontal fans, and has developed into large carbon filter air fans, sometimes vertical, movable air, and increased ozone, UV-C and dehumidification Filtration unit to control microorganisms and environment.
Hybrid greenhouses are just beginning to break the traditional theory that indoor quality and yield are high. Both indoor and mixed greenhouses can control the environment in almost exactly the same way, but it is difficult to say that natural sunlight is detrimental to the quality of plants. If temperature, pressure, humidity and nutrients are equal, then adding sunlight with the aid of auxiliary light may be the best combination to fully realize the potential of plants. For this reason, many hybrid greenhouses are called indoor greenhouses with glass roofs. Moreover, as LED lighting explores a more complete spectrum, the ability to control sunlight and auxiliary light together will only add another tool to the grower’s arsenal to achieve higher results. In addition, with the development of shading and sealing technology, it is now easy to achieve complete darkness in the greenhouse and eliminate the last nail in indoor operations. This nail claims to be a superior style. Even though the cannabis world embraces the use of more economical outdoor and ordinary greenhouse products to produce oil, since most pollutants are removed anyway, mixed greenhouses account for more of the harvest and cleaner extractable materials throughout the year ’s growth cycle Dominant position, less workload and less wear.
Maximum yield-product display, technical guidance and garden harvesting information sources for the growing business.
To be fair, there are various ways to grow, but if done correctly, the upfront and operating costs of a hybrid greenhouse will be lower than indoor facilities. The latest hybrid greenhouse has more than 20 feet of side walls to increase airflow, and the cost of materials (mainly steel, glass, or aluminum and polycarbonate) is less than building a similarly sized warehouse, not to mention the different zone names than the lights Industry. Due to the three-layer airflow, the choices of cooling and heating are different, and it is more suitable for air purification and airflow, which is the opposite of pure cooling to offset the indoor heat. In addition to reducing alternating current, hybrid greenhouses mainly attribute energy savings to the use of natural sunlight, which will greatly reduce the demand for lighting energy. Since sunlight is a natural disinfectant and is not friendly to most molds, the comprehensive management of pests and diseases will also change, thereby reducing the need for plant treatment, which may damage growth at various stages and reduce costs.
Investors and operators are increasingly exploring the relationship between the upfront costs and long-term benefits of hybrid greenhouses in order to obtain more consistent crops with fewer operations.
Source from: MAXIMUM YIELD
