Tag Archives: Lights
Grow Lights in hydroponics gardening
Along with water, hydroponics plant nutrients, Co2 and oxygen, grow lights is the key basic component, required by plants to live. Providing additional light is necessary for indoor gardening. Furthermore, light should resemble the sunlight as much as possible. In order to achieve that goal several types of lights are used: incandescent, fluorescent, high intensity discharge or HID lamps and sulfur lights. While there are many other types of lighting, only the mentioned above are recommended for indoor gardening. The major concern with other types of lights is that they do not produce light in the appropriate spectrum, required by plants.
Though typical widely used incandescent lamps fit any ordinary light socket, this type of lighting is considered to be the least effective in lighting your garden in comparison with other types of lighting. Incandescent lights produce light in the red spectrum; that is why such lamps are commonly covered with a blue coating in order to increase the amount of blue spectrum in the produced light. In general, incandescent lights are considered to be poor options for indoor gardening needs.
In comparison with incandescent lamps, fluorescent lights produce more light with lower energy consumption. However, the light, produced by fluorescent lamps, is not intensive enough and cannot penetrate more than 6” – 8”. Light, produced by fluorescent lamps, is usually simply insufficient to provide normal growing of plants, vegetables and flowers. The only application, where it is possible to use fluorescent light, is growing seedlings, cuttings, or some particular plants with low light requirements, such as orchids.
Choosing Grow Lights for Hydroponics Gardening – Grow lights Types
Plants use light to convert it into energy during the process, called photosynthesis. Growth of the plant is directly dependant on the amount of light received. By the way, the amount and type of light depend on the particular plant and its stage of development. So, a good grow lamp is the one, which is chosen in accordance with the light requirements of the particular plant.
Light is essential for health of your indoor plants, but choosing a proper grow light may be challenging and always requires thorough considerations. Grow light fluorescent offers the benefits of high effectiveness, no heat generation and full spectrum of light. For comparison, incandescent bulbs also produce a lot of light, but at the same time they generate a lot of heat, which is not always beneficial for indoor plants.
Each stage of plant development requires a particular light. When the plant is in its growing stage during which stem, branches and leaves develop, it is the best timing to use metal halide lamps for they produce blue spectrum light. However, when plant forms flowers and fruits, it is better to use high-pressure sodium or HPS lamps, which provide red light spectrum.
The only downside of MH and LPS lights is the heat generated by them. Heat is not good for plants and soil. To prevent overheating, special cooling fans may be required.
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Grow Lights in hydroponics gardening – High Pressure Sodium (HPS) grow light
Along with water, hydroponics plant nutrients, CO2 and oxygen, grow lights is the key basic component, required by plants to live. Providing additional light is necessary for indoor gardening. Furthermore, light should resemble the sunlight as much as possible. The major concern with other types of lights is that they do not produce light in the appropriate spectrum, required by plants.
Being the most efficient bulbs, HPS bulbs are commonly used by gardeners. Producing light in red and yellow spectrum, light generated by high pressure sodium lamps resembles the natural sunlight during autumn. Due to this peculiarity, HPS light is the best for promoting plants blooming. However, some plants may react negatively to this type of light, growing with oblong stem, etc. To address that issue, new HPS bulbs with color correction have been developed. For example, Son Argo feature properly balanced light spectrum, which suits perfectly for the needs of indoor gardening.
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High pressure sodium grow lamps are made of a semi-transparent ceramic arc tube, filled with a mixture of sodium, mercury, and xenon. The arc tube is placed into the protective outer glass shield, similarly to metal halide bulbs. The power ranges of HPS bulbs vary from 35w to 1000w, while the most popular are 250w, 400w, 600w and 1000w.
HPS bulbs are more durable in comparison with MH bulbs: they can be replaced once every 24 months. Though HPS grow lights lose their brightness slowly, in order to keep the brightness at the steady level, it is still recommended to replace the bulb within the specified period.
Basic Indoor hydroponics Gardening Guide – Indoor Grow Lights Fluorescent tubes, Hps and MH
Inexpensive and readily available in hardware stores and be utilized with regular light sockets. Producing less heat or none at all compared to full-size fluorescent grow lights.
Not just because of its small size and low heat output; compact fluorescent lights also produce the widest range of color spectrums to any type of lighting. It is ideal for shelf gardening due to their low heat output making the use of multiple shelves on top of each other possible. Compact fluorescent lights can be used with seedlings and small plants in a well designed hydroponic system indoor garden.
Common Problems with Compact Fluorescent Light Bulbs
Problems with compact fluorescent light bulbs like inefficiency and poor light penetration are common. Several compact fluorescent bulbs maybe used and consume energy as that of one HPS bulb, but do not produce the same useable light for the hydroponic indoor garden.
Optimizing Fluorescent Grow Lights
With the disadvantages of comparative inefficiency compared to HID lights, several things maybe done to counteract this.
Properly matching lights to the corresponding growth cycle.
Increasing Watt ratings increases light penetration
One cheap and easy way to maximize energy consumption is by the use of reflectors. Compact fluorescent lights have a 360 degree of distribution but only 90 degrees of it can be practically used. Reflectors direct the light to corners in order to maximize the light produced.