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growmorhydroponics
Dec 11, 2020
In Growmor Hydroponics Forum
Step 1. Find a suitable setup space (spare room, garage, etc) Step 2. Make your space light-tight Step 3. Choose how to configure your space (e.g. tent, entire room or cupboard within a room) Step 4. Get good light coverage in your setup Step 5. Set up suitable air exchange Step 1: Find A Space Here's what you should think about with every grow room setup: Is It Big Enough? Almost any space can be used as for grow room setup. You can either convert a whole room or cupboard into a grow room, or use a grow tent. Are You Near A Power Supply? For a one light or two light set up, a couple of normal double wall sockets will be fine. You can always use an extension lead if you need to. Are You Near A Water Source? You should never use unfiltered rain water - you never know what you're feeding plants. The best water you can use is pure, filtered water. Read more on the importance of water here. Will Noise Be An Issue? Lights, pumps and your fan can make some noise. Bear this in mind with your setup. What’s The Flooring Like? Don't grow straight onto carpeted floors. They hold moisture (spillages!) and harbor bugs and bacteria. You can put reflective sheeting down, or grow in a tent. Step 2: Create A Light Tight Environment If there’s a small window or natural light source in your grow room setup, block it off or light trap the area with Total Blackout Reflective Sheeting. Reflective sheeting does two great things. Firstly, it stops light escaping Secondly, it keeps natural light out of your setup. This way it doesn't interfere with your lighting cycle. Plants get confused and stressed if they're exposed to light on an inconsistent basis…like you would be if your room suddenly illuminated in the middle of the night! Plants get confused and stressed if they're exposed to light on an inconsistent basis…like you would be if your room suddenly illuminated in the middle of the night! There are several types of grow room sheeting - including Orca and Reflex Diamond. Read more about reflective sheeting here. The shinier the reflective sheeting, the better. Take a look at the above image - you can see just how shiny Orca is (right) compared to standard Mylar (left)! Step 3: Configure Your Setup Once you’ve found a suitable area, you need to work out how to configure your space. Option 1: Use an entire room setup Option 2: Create a room in a room (typically with a grow tent setup) Option 3: Convert an enclosed space (like a cupboard) Whichever option you choose, make sure the size of your area is suitable for the intensity of your grow lights. If your light isn't intense enough, plants will under perform. If it's too intense, you'll likely have heat problems and harm your plants. Option 1: Whole Room Setup In a large, empty room, one grow light won't be enough. You’ll need around 1 x grow light (lamp + ballast + reflector) for every 5 x 5 space as a minimum. However, in any large room, it'll be easier to control your climate if you fill it with tents. Option 2: Room In A Room Setup The best and cheapest way to create a grow room is with a grow tent. You’ll find it much easier to: Maintain the optimum climate (e.g. temperature, humidity) Prevent bug infestations and diseases Minimize light loss Protect the rest of the room from the heat and humidity in your tent The tent you need depends on what you’re growing, and what lights you’re using in your setup. If you have high intensity lights or taller growing plants, you’ll need bigger, taller tents. For mother plants, cuttings and seedlings, you’ll only need a small tent for your setup. Option 3: Convert An Enclosed Room Setup When you're planning on growing in a small space, you may encounter heat problems in your setup. To prevent this: Choose a high space (at least 5ft is good – ideally you want more) Ensure there’s a constant flow of new air in your setup If you don’t have much headroom, try using a smaller light like a T5 Grow Light because it’ll produce less heat. However, as T5 Grow Lights are designed for propagation, we'd suggest you find a bigger area. To get a constant flow of cool air: Use an extractor fan to take hot air away from the top of the area Make sure there are input holes (even better, with air input fan) to force new air in Step 4: Get The Right Light System There are lots of lights to choose from. You'll need at least one of them What's A Grow Light? A typical grow light (aka lighting system) is made up of: Ballast: for regulating and controlling the supply of energy needed to power the light Lamp: for actually generating the light Reflector: for guiding as much of the light produced down towards your plants You will definitely need a main grow light. To improve your quality of light, people often use supplement lighting, too. Main Grow Lights: In the past, growers often used a metal halide (MH) lamp during vegetative growth then switched to a sodium for flowering. Now, however, a lot of growers use a Dual Spectrum HPS (High Pressure Sodium) light throughout. Metal Halide: Great for vegetative growth (produce more blue light) Sodium: Great for flowering (produce more red light) Dual Spectrum HPS: For vegetative & flowering (produce blue & red light) LED's: For use throughout your grow (here's how to pick a good LED) (We stock led grow lights from a number of brands. Choose from Fluence, Gavita, Growers Choice and more.) Fluorescent Lights: For propagation, often used with a BAY6 Dual Use Propagation tent These grow lights mostly emit the wavelengths of light your plants use for growth, known as the PAR range (400nm - 700nm). Supplemental Grow Lights Supplemental grow lights are used to broaden your spectrum. They mostly emit wavelengths outside the PAR range - like UVA & UVB. Wavelengths outside the PAR range aren't used for growth, but they're known to enhance yield quality. Plasma: Tend to have more wavelengths outside the PAR range (read more here) CDM: Have lot of wavelengths outside the PAR range, but more wavelengths inside the PAR range than Plasma lights. With the right reflector and bulbs, you can sometimes use a CDM as a main grow light. (read more here) You don’t have to use a supplemental grow light, but you'll get far better results if you do. Choosing A Grow Light When choosing a light, you need to be realistic about: The light’s power consumption rate (and your budget) The light output (read more here) How much space is available in your setup (your grow space will need to support the light) Top Tip: Run Lights at Night a lot of growers have their lights on during the night and their lights off during the day. Why? Because it’s cheaper: On economy 7 tariffs, the cost of electricity is less during the night. Lights produce heat, and night times are cooler - it costs less to maintain the right temperature To make checks and carry out tasks in your grow room during the day when the lights are most likely to be switched off, we recommend using an Active Eye Head Lamp. Step 4: Set Up An Air Exchange System As a beginner, the easiest way to control your climate is with an air exchange system. Why? Plants constantly consume CO2 and release moisture. Your lights produce heat. You’ll need to replace stale, CO2 depleted, hot, moist air with fresh, CO2 rich air. How? What you need will depend on: Your lights The size of your grow space The time of year (more air needs to be extracted during summer months) As a general rule, the more lights you have, the better your air exchange system needs to be. Extractor Fans Extractor fans draw air out of your grow room. To work out how many you need in your setup: STEP 1 Multiply your tent's L x W x H The answer is how much space is covered by your grow lights example:In a XL BAY6 Tent: 1.2m x 1.2m x 2m = 2.88m3 2.88m3 is the total area covered by your lights. STEP 2 Multiply this by 60 That'll tell you how much air to extract every hour. example:In a XL BAY6 Tent: 2.88m3 x 60 = 172.8m3 A 100mm (4") RVK100 would do the trick! STEP 3 To be really precise, you can: Add 20% for a warm attic Add 20% if using a carbon filter Minus 15% in a cool basement Add 20% for long ducting Minus 25 - 30% for air cooled lighting Something else to consider is that south facing grow room setups are hotter than north facing rooms. You may want to increase the size of your extractor fan in south facing rooms. If in doubt, it's best to over spec than under spec. To be on the safe side, use a fan speed controller. They'll speed fans up or slow them down, depending on how hot your room is. Extractor fans are normally on for 24 hours a day when used with carbon filters (for odour removal). Smaller extractor fans are typically quite quiet, but larger ones tend to produce some noise. If noise is an issue for you, use an EC fan. Intake Fans Remember air needs to enter the room as well as leave it. If you have a small grow room setup with only 1 x 600W light, it will normally be OK to use a series of vents to draw air in. In a larger room setups, you will need an air intake fan. Your input fan should be 15 - 20% less powerful than your extractor fan. If you're using an intake fan and extraction fan, they ideally need to be positioned in opposite corners of the growing area. Basic Grow Room Safety Grow light systems are very safe. They only need a few hundred watts – like a lot of household electrical items. You just need to apply common sense. Here are a few tips: Use cable ties when necessary to keep wiring neat and out of the way Ensure ballasts and other electrical devices don’t come into contact with water unless specifically designed to do so - e.g. nutrient heaters and water pumps. From time to time check all installations, connections and wiring. Make sure equipment is not accessible to children or animals. Read instructions and safety information where applicable, especially where aggressive liquids are concerned. Consider installing a fire extinguisher that has been specifically designed for a grow room. Always uncoil extensions and don't coil up the reflector cables - otherwise, they can get hot and even burn
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growmorhydroponics
Dec 11, 2020
In Growmor Hydroponics Forum
There are three major factors you have to consider before picking an LED system for your indoor grow operation: 1. What are you growing? Depending on their species and variety, plants have varying light requirements. Generally, full-spectrum light is essential for photosynthesis. But even for this purpose, blue and red lights seem to be most important. And plants from dry, sunny areas like the Mediterranean will need more intense light than those originating from sub-tropical or temperate regions. Low-light plants like lettuce and herbs will need 25 watts per square feet, while high light plants like tomatoes will need at least 50 watts. These are just ball-park figures. Different varieties will have their unique requirements. 2. How large is your indoor grow project? This pretty much self-explanatory. The larger your grow area, the more LED bulbs or panels you will require. There are a lot of options to choose from. Depending on the shape and size of your grow area, you can pick from LED tubes, panels, bars, bulbs, 3. What type of LEDs do you need? There are two options: full spectrum lights, and separate vegging and blooming lights. Full spectrum lights are all-around products that can provide adequate lighting for a plant throughout its life cycles. But in some situations, you might be opting for a more focused approach. For example, your system may be having separate growing areas for the growing period and flowering periods. In such conditions, you can opt for a vegging LED light for the growth stage, and blooming LEDs for the flowering stage. Many good quality full spectrum lights these days come with programmable settings. With these, you can opt for veg or blooming light settings depending on the age of your plant.
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growmorhydroponics
Dec 11, 2020
In Growmor Hydroponics Forum
Which is better, LED or high-pressure sodium? Kind LED is busting these 5 myths about grow lights to help you grow the optimum yield. An article by Herb and Kind LED. On a quest for the best lights for growing cannabis? Between fluorescent, LEDs, and high-pressure sodium (HPS), the great wide world of grow lights can get confusing. Can you really increase yields and grow quality cannabis with energy-saving lights? Kind LED say you can. Here are 5 truths about growing bigger yields with LED vs HPS grow lights. HPS lights have been associated with high yields for a long time. But, there’s a reason why some of the largest commercial grow operations have made the switch to LED. A 600w HPS light can produce up to 150 to 300 grams in optimal growing environments, which is 0.5 grams per watt or less. LEDs, however, can produce as high as 1 to 1.5 grams per watt. All the while, LEDs use less energy to produce the equivalent HPS wattage. For example, Kind’s K3XL600 lights have an actual wattage of 320. Yet, they produce an equal light quality to that of a 600-watt HPS. In the past decade, technological advancements have led to massive improvements in LED lighting systems. Kind LED products showcase some of these advancements perfectly. Kind utilizes high-quality lenses that hyper-focus lights from all spectrums onto your canopy. This means that photons are beamed directly to the plants. Low-quality LED lights, however, don’t have this same focused effect. This is one reason to opt for improved design and trusted materials prior to investing in expensive lighting systems. Some products, like Kind’s, will provide light that is more focused and usable to the plants. This gives growers the ability to get the greatest possible crop yield. Think that LEDs cause fluffy buds? Think again. Some strains naturally produce a fluffy but structure, but poor quality lights can also play a role. When combined with optimal soil or hydroponic mediums, Kind’s LED systems have a reputation for coaxing out heavenly terpenes and producing impressive flowers. According to Kind, terpene levels typically run about 2% on average in cannabis flowers. But, Kind lights have been able to increase this number to as high as 3.78 using the X series. That’s almost double the amount. Not only does this provide more flavor, but terpenes have ample synergistic benefits with cannabinoids like THC and CBD, including improved pain-relieving effects. Truly high-quality products are rich in terpenoid aromas and robust flavors. Growing with Kind’s LED lights can easily turn an average crop into top-shelf flower. Many growers look to wattage as the ultimate tell-all for a good grow light. However, wattage alone doesn’t tell the whole story. In order for a plant to reap the maximum benefit from a light, light waves need to be in the right spectrum and of the right quality for the plant to absorb. When looking for lights, make sure to check out the PAR value. PAR stands for photosynthetically active radiation. That’s a fancy term for light that is actually available for the plant to use. Yet, to truly judge the efficacy of PAR, the spectrum of the light needs to be taken into account. HPS lights consistently have lower PAR values than LED lights. Kind LED grow lights are designed to produce the perfect spectrum for your plants. They also have extremely high PAR readings. This means that the plant is able to access a wide diversity of light wavelengths and is able to put the light to use. This design easily distinguishes Kind lights from other types of LEDs. With LEDs, quality and design make all of the difference. Not all light manufacturers use this type of high-quality lens technology. This means that some light will be lost through improper dispersal with traditional LEDS. Light simply won’t make it to the plants. Kind’s technology prevents this problem, facilitating better yields. Seeking to enhance the effects of your CO2? Unfortunately, CO2 only works well with HPS when it is used in a closed-loop system. Plants need CO2 in order to convert light into energy. Yet, the effectiveness of CO2 is closely tied to temperature. When using high-intensity discharge lights (HIDs), grow room temperature needs to remain between 72 and 78 degrees. However, the optimal temperature for CO2 is 82 to 86 degrees. Kind’s LED Bar Lights are a great option for both small and large-scale grow rooms. All of Kind’s lights can withstand the cranked-up heat and will enable you to get the most out of your CO2. Optimized CO2 allows plants to make better use of their energy, leading to larger yields and a healthier crop.
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