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    Electric bill

    First electric I’ll for a full month of just led lights. Normal was between 225 250 with out ac added on. After upgrading to led and adding an ac my bill is now 215 :-)

    #2
    Yeah I like the LED lights, my electric bill has not gone up much at all since I started my growing experience.

    Comment


      #3
      Nice! Definitely great! Mine is expensive like 250-300 but I like to have tons of light, helps my heat; but is expensive

      Comment


      • KingKush
        KingKush commented
        Editing a comment
        I'm sure you know plenty, it's obvious you have done some homework. But what are you trying to say?

        1000w bulbs can be efficient, if spread over a large enough area. I have 2000w covering 10ftx 10ft (100sq/ft) so that seems about right to me, but I could be wrong.

      • Inuart88
        Inuart88 commented
        Editing a comment
        Iam not sure of the specifics the only way to check for light saturation would be to have a Par meter since getting the ppf/ppfd would require way more equipment. Then you look at the footprint in your 10x10 space but one thing to remember just because you can see light in the corners LUMENS. Which is the measurement we see light in which is brightness. Which has been found to really have no correlation between plants. Just cuz you see light at the edges does not mean the density of that light is good. center under light may be 1400ppf but in a 4x4 box just for example 2ft from center may be 100ppf which is way under what a plant requires to grow but to the human eye the light looks at bright in the corner as it does in the middle. and 1000w per 5x5 box is right i would say so 2000w is more than adequate + if you add in reflecting walls you can increase PPF/PPFD by up to 20%. But HID lights will not be more efficent than LEDS because with an led u are getting between 1.5 umol - 2.5umol per watt of power and HIDS i believe fall around 1.6 or 1.7umol per watt. Also with the LED you can control the Spectrum of light to give the plant only the light it uses but with the HIDS you cannot control the spectrum and its giving off spectrum's the plants don't use and is missing other spectrum s like IR or UV.

        Sorry for long post was trying to give you an informed answer!

      • KingKush
        KingKush commented
        Editing a comment
        Inuart88
        Thanks that sounds good. There is some great information available from the members here, and you are spot on.

        I agree with you 100% and understand the concerns with such a large wattage, fortunately, with the help of this forum I have found a comfortable niche. It requires a few extra plants growing into those 'corners' you mention, but they still survive and bud onward.
        Thanks my friend, Growers Love

      #4
      Inuart88 Which led light are you using? I’ve only grown with hps but would like to upgrade to led..

      Comment


      • Jibblerjoe
        Jibblerjoe commented
        Editing a comment
        Look at cob led and quantum boards

      • Jibblerjoe
        Jibblerjoe commented
        Editing a comment
        Rapid led for diy hlg lighting for quantum boards. Both have assembled fixtures.

      • KingKush
        KingKush commented
        Editing a comment
        Jibblerjoe
        JibblerJoe likes the fat, sticky, frosty, big ladies, Take some notes, because I do!
        Always a pleasure!

      #5
      Any specific one you recommend? And thanks for your reply brother. I’m checking amazon any good ones you recommend from there..? I’m growing in a 2x4 tent. Currently just have two 150 watt hps I’m looking to upgrade..

      Comment


        #6
        This is my 3 Vero29 cob light. Click image for larger version

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ID:	209262 it's in a 2x4x5 tent. I got the parts from rapid and built my own frame. I did a few months of research check grow maus, greengenes, led gardener has a lot of info on leds. Chip on board leds and quantum boards. You can email these sites rapid led, hlg lighting, chilled led, they will answer questions.
        now back to what I slapped together. Got 3 Vero29s 3000k 90cri lots of red spectrum. Driven 2100mah dimmable. Later I picked up a hlg65 board 4000k for veg. Now I try to stagger my plants. Click image for larger version

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ID:	209264 the cobs have a fan aimed on em. Click image for larger version

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ID:	209263 now for the beauty. The a.c vents are in the first floor ceiling, this is in the basement Click image for larger version

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ID:	209266 and the room with tents Click image for larger version

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ID:	209265 fan in the doorway of the room helps.

        Comment


          #7
          So far with a 600 watt led, 3 air pumps,1 fan, swamp cooler and the ventilation system. my bill has gone up by 45 bucks. Not to bad
          640 watt hlg quantum board
          320 watt diy chilled pucks x4
          300 watt mars hydro sp3000
          150 watt hlg quantum board
          100 watt spider farmer led x2
          organic soil with earth dust dry amendments
          Water only i don't check ph
          6 pot fabric autopots with GH trio nutes

          Comment


            #8
            Originally posted by Inuart88 View Post
            Iam not sure of the specifics the only way to check for light saturation would be to have a Par meter since getting the ppf/ppfd would require way more equipment. Then you look at the footprint in your 10x10 space but one thing to remember just because you can see light in the corners LUMENS. Which is the measurement we see light in which is brightness. Which has been found to really have no correlation between plants. Just cuz you see light at the edges does not mean the density of that light is good. center under light may be 1400ppf but in a 4x4 box just for example 2ft from center may be 100ppf which is way under what a plant requires to grow but to the human eye the light looks at bright in the corner as it does in the middle. and 1000w per 5x5 box is right i would say so 2000w is more than adequate + if you add in reflecting walls you can increase PPF/PPFD by up to 20%. But HID lights will not be more efficent than LEDS because with an led u are getting between 1.5 umol - 2.5umol per watt of power and HIDS i believe fall around 1.6 or 1.7umol per watt. Also with the LED you can control the Spectrum of light to give the plant only the light it uses but with the HIDS you cannot control the spectrum and its giving off spectrum's the plants don't use and is missing other spectrum s like IR or UV.

            Sorry for long post was trying to give you an informed answer!
            Long post, il show you long post ^.^

            LED is not automatically more efficient than gas discharge. At this stage, gas discharge is still more cost effective due to the high initial cost of LED fixtures with similar efficiency. There are only a handful of LED fixtures that actually have efficiency levels better than sodium discharge. Fluence is the only fixture to have measured higher than 2umol per watt. With flux levels comparable to HID. Although many fixtures provide efficiency values, these are theoreticle mathematic calculations based on single diode outputs. But not real world measurements. So they typically do not take into consideration the loss of energy and efficiency from heat and optical losses.

            With respect to light quality, it has been shown that although light spectrum has an effect on plant morphology. Light quantity is the leading factor for plant growth and leaf anatomy. This has been shown through many studies and is the same through many species of plants. Plants use all wavelengths of light between 400nm-700nm and the photosynthetic efficiency accross all wavelengths is practically the same. The difference in plant growth and anatomy from different light treatments, is not due to differences in photosynthetic efficiency. But due to radiation capture. The changes in leaf anatomy that promote the increase in radiation capture, usually from petiole length and leaf expansion. Is what mostly effects plant growth and anatomy.


            I write a little bit more here about the complexity of light design for horticulture.

            Originally posted by DANGERDAN View Post
            There are also other variables which can indirectly affect the potential for growth. For example as you know from my articles, light quantity is more important than light quality in multispectrum light. However monochromatic light has poor efficacy to plants. Even at the same flux levels compared to multispectrum light. This has nothing to do with photosynthetic efficiency and this is key to interpretation of light quality and plants. Plants photosynthetic response to different wavelengths of light is practicaly the same and the differences are insignificant. However plants do thrive better with multispectrum light sources. This has to do with radiation capture. Multispectrum light facilitates healthy morphology that increases radiation capture by factors such as stem and petiole elongation and leaf area index. The photosynthetic efficiency is unchanged, however the plants ability to capture light because of favoured mophology is improved. This is basically a result from blue light and the shade avoidance response.

            Let me really confuse the heck out of you. Ignore the following if you wish, im just rambling now. Theres actually much further complexities in the process of understanding what makes an efficient light source. It becomes easier to understand when you get to learn the biochemical reactions of photosynthesis in plants and light physics. So lets break it down.

            Electrical efficiency: Describes how much output energy is produced from input energy. Excess energy not produced for the wanted effect is a byproduct of inefficient conversion.

            Photon efficiency: How efficiently a photon of light is emitted per unit of energy (usually joules or watts)

            Energy efficiency: How efficiently energy is used to provide work or purpose.

            Lets talk about LED for a second. Blue diodes are more electrically efficient than Red diodes. But Red diodes have a higher energy efficiency so it can be better to use more Red than Blue. You might be wondering how the heck does that work ?. Well as you might know, as the wavelength of light gets shorter, energy density gets higher. This is why ionizing radiation is bad, because it contains enough energy to knock an electron off an atom.

            Because shorter wavelengths contain higher density of energy, it goes without saying that more energy is required to generate photons of shorter wavelength. Even though a light source could have equal electrical efficiency at all wavelengths.
            Shorter wavelengths will produce fewer photons than longer wavelengths because they require more energy. For example with a LED light source, which for this example is 100% electrically efficient, a source producing light at 350nm at 100 watts produces 380umol of light. But a source at 650nm produces 550umol. Even though they are both 100% electrically efficient, they produce differing amounts of photons. This is because as previously said, shorter wavelengths require more energy to produce an equivalent photon of longer wavelengths

            So you would be correct to assume, well why is blue still not better?, it has a higher energy density. The reason is from something called the stokes shift. So a 450nm photon of light contains about 2.7ev of energy compared to a 650nm photon of light of around 1.9ev. Plants can only absorb energy at a specific density. If you look at photosystems they have a special pair of chlorophyll at the center, where all light energy is concentrated to. P680 and p700. Which average to about 1.78ev of energy it can absorb. So when a Red photon of light at 650nm reaches this center, it looses 0.12ev of energy as heat through photochemical quenching. But when a blue photon at 450nm reaches the center it looses 0.92ev of energy. And as we have worked out, plants do not utilize this excess energy and goes to waste.

            So although blue at 450nm can have identicle electrical efficiency, red at 650nm can be more energy efficient as it can produce more photons for the same amount of energy. So red at 650nm has a higher photon efficiency than blue at 450nm. Electrical effciency, Photon efficiency and energy efficiency.

            Now you may remember in my articles that light quantitiy is more important than light quality. This is still the case when referring to light efficacy for plants. Again more complexities in the interpretation of the meanings of light efficacy. Light quality with respect to photosynthetic efficiency has been shown to have very little difference in plant growth. Indicating that the differences of the photosynthetic efficiency with different wavelengths of light is insignificant and more focus should be placed on light quantity rather than light quality. However. Plant morphology to light, changes the radiation capture efficiency, which earlier studies neglected when assesing plant photosynthetic efficiency. Plant morphology that increases radiation caputure by increasing aspects such as leaf area index, has increased photosynthetic capacity with the same photosynthetic efficiency. However the extent of this is again, insignificant with typical light sources.
            Written Articles:
            Light Metric Systems
            Using Light Efficiently
            The Light Cycle Debate
            Environment Conditions
            Grow Light Technologies
            How To Compare Grow Lights
            To Defoliate Or Not To Defoliate
            Having A Light Source Too Close

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            Comment


            • Redwasp
              Redwasp commented
              Editing a comment
              I love this. "Just the facts Ma'am" for those old fucks like me who get the reference. I love all scientific proof. Post as long as you can. Ill read it. Have books and books on such subjects. Modern farming is all about feelings, feel for the earth, watching whats going on, BUT I ALWAYS WANT TO KNOW WHY.

            #9
            Oh please show me an led that can penetrate deeper than a good hps/mh. Havent seen it yet.

            Comment


            • DrPhoton
              DrPhoton commented
              Editing a comment
              👍

              Dont get me wrong, LED has its place. But fixture cost per umol and electric cost per umol, gas discharge still dominates.

            • alltatup
              alltatup commented
              Editing a comment
              Yes, I hear you. I thought about converting my ballast to LED but now I realize that it would not save me money.

            • Jibblerjoe
              Jibblerjoe commented
              Editing a comment
              They don't penetrate deeper. But with reflectors they get close. They use less power and put out very little heat. There fore less electric used to keep the conditions in sweet spot. More expensive to acquire less money to power and maintain.

            #10
            Yes. Never tried a "commercial grade" led for cost. At this point just dont see the point of dropping that kind of money. But willing to try as i love to test things. Maybe ill try Soon.

            Comment


            • DrPhoton
              DrPhoton commented
              Editing a comment
              When i can recover the cost of the fixture in just a few years i will. But at this stage it would take years to recover your initial investment.

            • Redwasp
              Redwasp commented
              Editing a comment
              Yea I was looking at them yesterday after we talked. I run my lights on solar so would never ever recoup the cost. I just want to see if they work better. But for $2k plus for one im rethinking that experiment.

            • Jibblerjoe
              Jibblerjoe commented
              Editing a comment
              Check out chilled led.

            #11
            I just cant see spending $2500 plus for a light to save electricity. For that price you can install solar panels, all the wiring, and a huge battery backup so you never pay for electricity again. But im tempted to get one just to run an experiment to see if they can do better.

            Comment


            • alltatup
              alltatup commented
              Editing a comment
              I did install solar panels, and that has helped the bill a lot.

            • DrPhoton
              DrPhoton commented
              Editing a comment
              I think california lightworks make a nice fixture for around $1000. So not bad.

            • Jibblerjoe
              Jibblerjoe commented
              Editing a comment
              I have 350 invested. Light runs 22 hrs on. Bill was 230 this month , last month 157, ac for house been on all month. 83 to 95 all month and humid. 240 in cobs 99 for veg board. 2x4 tent filling out.
              Last edited by Jibblerjoe; 06-02-2018, 08:33 AM.

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