CannaWizard's (AMC) Lounge

cannawizard

Well-Known Member

Kingrow1

Well-Known Member
*IR is good for heat applications :) was gonna use a couple of those outdoors to keep my ladies cool during late fall..


--goodluck
I'll be using a oil filled electric radiator from De-Longhi, be costing me £50 and is the 3Kw version with timer and thermostat. This hopefully will keep my small flat heated 24hrs a day and in turn my grow which is inside my flat

In Canada they grow outdoors in big poly tunnels in two foot of snow with minimal heating, try giving your shed some thermal properties like insulation, rockwool or kingspan type stuff, this will keep the heat in longer and help the grow to achieve an even heat. Peace
 

Joedank

Well-Known Member
Those look like sum chunky ass colas in the paper bag nice +rep I was a little sad till I saw those! Blue dream is great, the real cut came from way up Oregon way grew her few seasons back round mendo way ... Nearly as good as old time moonshine! But I prefer to grow outdoors from seed just a vigour thing....
Looks like a fun trip be out that way myself in a few weeks...:hump:
 

cannawizard

Well-Known Member
Those look like sum chunky ass colas in the paper bag nice +rep I was a little sad till I saw those! Blue dream is great, the real cut came from way up Oregon way grew her few seasons back round mendo way ... Nearly as good as old time moonshine! But I prefer to grow outdoors from seed just a vigour thing....
Looks like a fun trip be out that way myself in a few weeks...:hump:
*correct. real cut came from Oregon :).. theres a lot of fake blue dream clones... most of the socal disp versions are fake /or molested hybrids :( ..got ibl moonshine beans.. 3 beans.. and im not ready to pop them.. hehe

--roadtrips are fun, as long as your not driving:)

..cheers
 

cannawizard

Well-Known Member
bongsmilieUVTOP Overview (**UV-b LED**)bongsmilie

UVTOP® is a series of deep ultraviolet light emitting diodes with peak emission wavelengths from 240nm to 355nm. The LEDs are hermetically sealed in metal-glass TO packages with a choice of UV-transparent optical windows for beam profiling.

Sensor Electronic Technology, Inc. (SETi) has made a milestone to overcome the short lifetime of 280nm UVLEDs with of over 10,000 hours on its UVTOP275 LEDs.

The lifetime demonstration has been performed on a statistically valid group of LEDs from several batches which are representative of UVTOP275 products; the LEDs were packaged in TO-39 metal-glass packages with flat windows and emit at a wavelength of 280nm ±5nm at an average power of 0.8mW after burn-in.

Lifetime analysis was performed to SETi standard procedure; driven with a current of 20mA DC at room temperature (approximately 23⁰C ambient) with no heatsink or thermal management. The LEDs were physically life tested to approximately 2,000 hours and L50 levels (50% of the LED’s original power) modelled from these tests.

So far, this lifetime has not been released in the UVTOP product specifications, however,SETi does expect its UVTOP275 LEDs to exhibit L50 lifetimes approaching 5,000 hours and is developing future products to meet extended lifetime specs.
 

cannawizard

Well-Known Member
***for all the 5.0.. 10.0... tube uvb bulb users :)





[FONT=Verdana, Arial, Helvetica, sans-serif][SIZE=+1]An Introduction to[/SIZE][/FONT]

[FONT=Verdana, Arial, Helvetica, sans-serif][SIZE=+2]UVB Fluorescent Tubes[/SIZE][/FONT]

[FONT=Verdana, Arial, Helvetica, sans-serif][SIZE=+1]How does a UVB Fluorescent Tube work?[/SIZE][/FONT]



[FONT=Verdana, Arial, Helvetica, sans-serif]All fluorescent tubes are sealed glass tubes containing an inert gas, usually argon, and a tiny drop of mercury. [/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif]
[/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif]The tube has two electrodes, one at each end, which are connected to an electrical circuit via a device known as a “controller” or “ballast”, which may be an older magnetic type with a starter tube, or a newer electronic device. The controller provides the initial kick-start for the lamp, then stabilises the current while the tube is alight. [/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif]Once lit, the current flowing through the electrodes vaporises the mercury in the tube and then excites the mercury atoms sufficiently to produce a steady flow of light, mostly ultraviolet, but with some blue and green visible light. [/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif]Everyday fluorescent lamps for human use are made of ordinary soda-lime glass which allows very little of that ultraviolet light through. They are also coated on the inside with fluorescent phosphor powder, which converts the energy from the ultraviolet light into visible light of a hue which depends upon its precise chemical makeup. [/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif]Lamps designed to emit ultraviolet light must therefore have less phosphor powder– so that less of the ultraviolet is converted into visible light – and must be made of glass which allows ultraviolet light through. Transparent fused silica “quartz” glass allows transmission of ultraviolet light, and is used for this reason, but it is expensive. [/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif]The UVB output of a fluorescent tube and the exact colour and intensity of visible light produced is thus determined by the precise quantity and blend of phosphors, and type of glass used. [/FONT]​



[FONT=Verdana, Arial, Helvetica, sans-serif]The overall output of the tube is also determined by the wattage of the tube, which varies with tube length. Fluorescent tubes are produced in standard lengths, each with a corresponding wattage; typical examples being:[/FONT]
  • [FONT=Verdana, Arial, Helvetica, sans-serif]18 inches : 15 watts[/FONT]​
  • [FONT=Verdana, Arial, Helvetica, sans-serif]24 inches : 18 or 20 watts[/FONT]​
  • [FONT=Verdana, Arial, Helvetica, sans-serif]36 inches : 30 watts[/FONT]​
  • [FONT=Verdana, Arial, Helvetica, sans-serif]48 inches : 40 watts[/FONT]​
[FONT=Verdana, Arial, Helvetica, sans-serif]Some manufacturers only produce tubes with a diameter of 1 inch - "T8" size tubes. Others offer a choice between "T8" tubes and thicker ones with a diameter of 1.5" - "T12" size tubes.[/FONT]​


[FONT=Verdana, Arial, Helvetica, sans-serif][SIZE=+1]The Output of UVB Fluorescent Tubes[/SIZE][/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif]All fluorescent tubes, unless fitted with a reflector of some type, emit light, including ultraviolet light, more or less evenly and symmetrically from their entire surface between the electrodes (situated about half an inch from the end of each tube). This radiation can be imagined as a cylinder, expanding and dissipating with increasing distance from the tube surface.[/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif]Manufacturers usually describe, for each product, the percentage of the total light output of the tube which is emitted as ultraviolet light. Hence a lamp may be described as producing "30% UVA and 5% UVB" and this would mean that the remaining 65% of output was emitted as visible light. This gives an indication of the balance between UVA, UVB and visible light but it does not indicate the intensity of ultraviolet illumination which can be expected; i.e., it does not distinguish between a dim, inefficient lamp and a bright, efficient one.[/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif]Our broadband UVB meters measure something different: the total UVB output in microwatts per square centimetre - the actual intensity of UVB illumination. As we have described earlier, this has advantages. [/FONT][FONT=Verdana, Arial, Helvetica, sans-serif]We can measure the amount of UVB available to a reptile at any given distance from the tube; we can plot the rate of decay of a tube over time; and we can compare two tubes of the same brand and wattage and see at a glance whether their output is the same. [/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif]We can also plot the shape and extent of the "cylinder" of radiation put out by a lamp, and use this to help decide upon placement of a tube within a vivarium.[/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif][SIZE=+1]Types of Fluorescent Tube[/SIZE][/FONT]​


[FONT=Verdana, Arial, Helvetica, sans-serif]The fluorescent tubes available for use in reptile vivaria fall into two categories: [/FONT]
  • [FONT=Verdana, Arial, Helvetica, sans-serif]Those designed to provide UVA plus UVB[/FONT][FONT=Verdana, Arial, Helvetica, sans-serif], to enable vitamin D3 synthesis in reptiles known to require it.[/FONT]
  • [FONT=Verdana, Arial, Helvetica, sans-serif]Those designed to simulate "daylight"[/FONT][FONT=Verdana, Arial, Helvetica, sans-serif], sometimes known as "full spectrum" lamps, emitting UVA but only very low levels of UVB.[/FONT]
[FONT=Verdana, Arial, Helvetica, sans-serif]We have limited our survey (with one exception) to lamps stated by their manufacturers to be for the provision of UVB for vitamin D3 synthesis by reptiles. The exception was a single new Exo Terra Repti Glo 2.0 Daylight Terrarium Lamp which was included in a set of sample lamps donated to the project, and which we tested out of curiosity.[/FONT]​


[FONT=Verdana, Arial, Helvetica, sans-serif]The "daylight" or "full spectrum" lights are not designed to enable vitamin D3 synthesis. However, several manufacturers suggest the use of these in conjunction with UVB-emitting tubes in order to improve the overall lighting quality inside the vivarium, increasing the UVA levels and the colour balance of the light.[/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif]This certainly does have this effect. This can also be achieved with incandescent light, including some of the so-called "basking lamps" with improved colour balance. If heat as well as light is required at a basking spot, incandescent lamps may be a good alternative since fluorescent tubes produce very little heat.[/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif][SIZE=+1]What are Fluorescent Tubes most suitable for?[/SIZE][/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif]Tubes supply a diffuse "glow" with low intensity visible light, very little heat, and a fairly uniform UVB gradient, resembling natural UVB "in the shade" on a sunny day. There are many species which appear to live in semi-shade in the wild, and rarely bask in sunshine, for which this type of gentle UVB illumination is ideal. [/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif]This type of set-up has also proven adequate for generations of sun-loving reptiles, as long as good quality tubes with high UVB output are used, but more recent innovations such as mercury vapour lamps have made other alternatives possible for sun-worshipping species in larger enclosures.[/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif]Fluorescent tubes are ideal for providing UVB to all species in small vivaria, however, since they produce little heat and are thus unlikely to cause overheating or disrupt the temperature gradient produced by the heat source in a small vivarium. [/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif]Since they are not particularly bright light sources, fluorescent tubes can be situated directly above a reptile at fairly close range without, apparently, causing distressing glare. However, some do emit high UVB at close range and traces of UVC (1-3 uW/cm²) can be detected at the surface of all tubes tested, hence a safe minimum distance of maybe 3 - 4 inches would seem advisable.[/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif]The diffuse glow from a fluorescent tube is not focused into a beam, and hence does not project a great distance from the lamp. To achieve UVB coverage over a wide area, it is advisable to use the longest tube which will comfortably fit inside the vivarium. Reflectors may be used to direct the beam further into the vivarium and increase the effective output, for species with higher UVB requirements.[/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif]Since fluorescent tubes produce very little heat, all reptiles which need warmth above room temperature will need, in addition, a heater of some type. Species known to bask, in the wild, in full sunshine will usually benefit from extra visible light as well. For these, an incandescent basking lamp may be the answer.[/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif][SIZE=+1]Types of Ballast[/SIZE][/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif]It is important to match the tube with a ballast of the correct wattage, or the tube may fail to operate correctly or have its life shortened.[/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif]There are several dif[/FONT][FONT=Verdana, Arial, Helvetica, sans-serif]ferent types of ballast available in a range of wattages. There is some evidence from tests conducted in the USA that the type of ballast used, and even the brand used, has a significant effect upon the output of a tube.[/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif]We are conducting our own tests on some of the brands commonly used here in the UK and hope to report our findings shortly.[/FONT]​




[FONT=Verdana, Arial, Helvetica, sans-serif]In the UK, most keepers use older style magnetic ballasts familiar to aquarists. Examples include:[/FONT]
  • [FONT=Verdana, Arial, Helvetica, sans-serif]Arcadia Fluorescent Lighting Controller[/FONT]​
  • [FONT=Verdana, Arial, Helvetica, sans-serif]Interpet Convertagear Aquarium Lighting Starter Unit[/FONT]​
  • [FONT=Verdana, Arial, Helvetica, sans-serif]Rolf C. Hagen (UK) Ltd Glomat 1 Fluorescent Lighting Control Unit.[/FONT]​
  • [FONT=Verdana, Arial, Helvetica, sans-serif]These are particularly convenient for use with short tubes in small vivaria.[/FONT]​
[FONT=Verdana, Arial, Helvetica, sans-serif]The ballast box, placed outside of the vivarium, is supplied with cable connectors with end caps which fit over the terminals of the fluorescent tube. The tube is then suspended over the vivarium, or held in place under the vivarium roof by tube clips.[/FONT] [FONT=Verdana, Arial, Helvetica, sans-serif]Although there are ballasts of this type available for all lengths of tube, keepers using longer tubes sometimes use conventional household fluorescent tube holders of the correct length and wattage. These have built-in ballast/starter units and may be affixed to the ceiling of larger enclosures, or suspended on chains or cables. The ballasts in some of these fixtures are electronic, rather than magnetic.[/FONT]​


[FONT=Verdana, Arial, Helvetica, sans-serif]Electronic ballasts[/FONT][FONT=Verdana, Arial, Helvetica, sans-serif] of the "aquarium" type with end caps are not yet in widespread use. Arcadia have recently brought out an electronic model, the Arcadia Electronic Controller, which operates two T8 fluorescent tubes. The Glomat 2 Double Fluorescent Lighting Control Unit is another new twin T8 tube electronic ballast, this time from Rolf C. Hagen (UK) Ltd. [/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif]Electronic ballasts are claimed to have several advantages over magnetic ones, including increased energy efficiency (as they produce less heat as a by-product) and reduced flicker as the 50Hz "strobe" effect typical of AC current is not generated by the tube, as it is when magnetic ballasts are used.[/FONT]​

[FONT=Verdana, Arial, Helvetica, sans-serif]New products currently emerging abroad include dimmable ballasts, heralding an era in which keepers may be able to create an artificial "dawn" and "sunset". (Fluorescent tubes on the ballasts currently available in the UK cannot be dimmed.)[/FONT]​


[FONT=Verdana, Arial, Helvetica, sans-serif][SIZE=+1]Important Safety Precautions[/SIZE][/FONT]​



[FONT=Verdana, Arial, Helvetica, sans-serif]Ultraviolet light is hazardous.[/FONT][FONT=Verdana, Arial, Helvetica, sans-serif] Excessive exposure is harmful to human eyes and skin, and excessive exposure is likely to be harmful to reptiles as well.[/FONT]
  • [FONT=Verdana, Arial, Helvetica, sans-serif]Always follow the manufacturers instructions, in particular take note of all safety warnings and follow minimum recommended distances. [/FONT]​
  • [FONT=Verdana, Arial, Helvetica, sans-serif]Always use eye protection when checking UVB lamps.[/FONT]​
  • [FONT=Verdana, Arial, Helvetica, sans-serif]We would strongly recommend that even “sun-worshipping” desert reptiles are never exposed to levels of UVB higher than that found in natural sunlight.[/FONT]​
  • [FONT=Verdana, Arial, Helvetica, sans-serif]All reptiles must be able to shelter from UVB light; a UVB gradient, similar to the heat gradient with which we are familiar, is necessary in the vivarium. [/FONT]​
  • [FONT=Verdana, Arial, Helvetica, sans-serif]We would also recommend that where possible, lights of any type, including UVB lamps, be positioned overhead in the vivarium, so that reptiles are never forced to endure unwanted glare. [/FONT]​
  • [FONT=Verdana, Arial, Helvetica, sans-serif]Always check basking temperatures underneath a mercury vapour lamp.[/FONT]​
2005 UVGuide.co.uk:peace:


***"


Ultraviolet (UV) emissions Fluorescent bulbs can damage paintings and textiles which have light-sensitive dyes and pigments. Strong colours will tend to fade on exposure to UV light. Ultraviolet light can also cause polymer degradation with a loss in mechanical strength and yellowing of colourless products. :eyesmoke:
 

cannawizard

Well-Known Member
Quote:

A researcher conducted a controlled experiment in a greenhouse. He lit a group of high potency plants similarly except with the addition of UVB light to some groups. He found that the percentage of THC increased in a direct ratio with the increase in UVB light. This research confirms the adage that high altitude plants are more potent than those grown at low altitudes.

If you look at old-world land races of cannabis, plants that have become adapted to the climate and latitude, the ratio of THC to CBD starts at 100 : 1 at the equator. At the 30th parallel (The Hindu-Kush Valley) the plants have a ratio of 50 : 50. At the 45th parallel the ratio is near 1 : 100. This corresponds roughly with the amount of UVB light received at these latitudes. There is much more UVB at the equator than the 45th parallel.

How can you get more UVB light to your plants? Certainly it's true that MH lamps emit more UVB light than HPS lamps. Still the amount that MH lamps emit is small. In fact, many manufacturers use UVB shielding glass to filter out most of the UVB that's produced. The UVB light the plant receives from an MH lamp does increase the plant's potency slightly at the cost of yield, but there are better ways to introduce UVB light into the grow room. They include reptile lights, which emit about 10% UVB, and tanning lamps.

View attachment 1785326
 

cannawizard

Well-Known Member
[SIZE=+1]UVB (280-320nm*)[/SIZE]

is found in natural sunlight. The atmosphere blocks wavelengths below 290nm so on the earth's surface, the UVB range is from 290 - 320nm. UVB is blocked almost completely by ordinary glass and by most plastics, so it does not pass through windows or the sides of glass vivaria. It is not provided by normal household lighting or most so-called "full spectrum" lights, but nowadays there is an ever improving and expanding range of lights that can supply UVB in the vivarium.

UVB may have other beneficial effects. It has been shown to stimulate the production of beta-endorphins in human skin, resulting in a sense of well-being. There is no reason to suppose this process occurs solely in humans.
 

mugan

Well-Known Member
lookin good canna, i missed the part of the thread where you said what kind of HYDRO setup there gonna end up it ???
 

mugan

Well-Known Member
ahh soil, its impossible to find a smart pot here , but i really been wanting to try one of those out.. maybe i can make one :) . well can't wait to see how they end up
 
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