Chorine Dioxide

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Roadblock

Roadblock

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Im currently battling a slime root rot issue in a rdwc system, I transplanted them into Coco and they not happy it looks like I might loose them all, you live and learn. Im thinking I introduced root issues because of one or all of 3 areas, the clones on going into the system may have already had some rot going on and it just bloomed in rdwc, it was a new system with one old pump in the mix and this pump could have been a bad bacteria beginning, the other is the rain water source water is not good and contains too much bad stuff although Im running another rwdc on the same water and they have no issues, all three conditions are synergistic making it so hard to fix once you have it thats why I transplanted, after scrubbing and cleaning for 24 hrs hosed of roots and put them back into clear 2ppm chlorine water the slime was everywhere after 12hrs, better to scrap it than try and deal with sick plants in one unit that just reinfect the system in no time, by the way I have chillers the temp is always around 68-70.

I come from coco and it didnt take long for root issues to show up in this new to me system, Im not done with rdwc and will go back to basics of hygiene which I now believe is critical in these systems, Im careful with things but if you have any weak links the rot and root issue will get you in a rdwc or dwc system, if you are lucky and have good water and no bugs more power to you if not you must be extreme in DWC .

First step for me is eliminating the source water by installing a human grade drinking water 2 filter system with a 60ltr a minute UV sterilizer all my water will come through this first.

Scrub everything super clean.

My reservoir and system holds a 1000ltrs , Im going fill it with the UV water then treat with a sanitizer to pick up anything missed , aerate heavy for a day to defuse out the sanitizer then load up system with Bennes and put clean plants in and I think from then on I should be good.

While doing the research I came across Chlorine Dioxide it appears to be the best chemical sanitizer you can use Ive seen it mentioned as Oxine by some growers but its also on the market in tablet form for water tanks , Im going to use this instead of chlorine pool shock, it appears to have way better sanitizing and way less residue and it seems to be the only cleaner that will clear biofilm from inside pipes.

Here is very good article on using it.

Horticultural operations are facing increasing pressure to solve sanitation issues related to water treatment. Some of the pressure is external originating from government regulations and consumer preferences. Most of the pressure, however, is internal and includes better disease management, integrating capture of irrigation runoff with recycling opportunities, elimination of biofilm and algae control.

The list of available water treatment technologies is a short one. When the unusual demands of horticultural production and post-production practices are considered, the list of technologies that offers effective solutions becomes even shorter. Chlorination, ultraviolet light, chlorine dioxide, ozone, copper and peroxide comprise the list most growers are considering. This article will present a technology review of chlorine dioxide and discuss its potential to solve sanitation issues in greenhouses and nurseries.

Biofilm, Sanitation’s Epicenter

Biofilm is a living complex of organic and inorganic components that becomes established on surfaces that are in regular contact with water. Such surfaces include pressurized irrigation lines, non-pressurized recirculation system return lines, holding tanks, mixing tanks, containment vessels and so on. Largely comprised of highly adaptive bacteria, biofilm layers attach themselves to hard surfaces and then grow, becoming thicker and quite established over time.

In horticultural operations such as greenhouses and nurseries, common fertilizer injection actually serves as an accelerant to biofilm growth. Most growers are quite familiar with the presence of biofilm in their fertilizer lines. The layer of slimy growth is seen whenever a line is cut into for repair. Biofilm growth is not restricted to fertilizer lines, however, and is also common in clear water lines, although usually by a slightly less dramatic presence.

An interesting relationship exists between the bacterial complexes making up biofilm and algae. The relationship is a synergistic one; what one needs the other provides. In fact, they work so well together that biofilm is able to provide algae with sufficient energy to substitute for algae’s need for sunlight. Any grower who has scratched his or her head after cutting into an underground pipe and found it lined with green, algae-laden biofilm in the absence of sunlight has personally experienced this phenomenon. Consider this a highly evolved organic system, one that has survived the test of time.

It’s no wonder most water treatment technologies are not capable of breaking biofilm down. The photo at left shows sections of PVC pipe cut longitudinally to show the inner surface; top–new line, middle–clear water line showing tan colored biofilm contamination, bottom–fertilizer line showing algae and biofilm complex.

Chlorine Dioxide’s Potential

Chlorine dioxide is widely viewed as one of, if not the most effective, sanitizing agents created by man. A decade ago when the Hart Senate building in Washington, D.C. was infested with anthrax, it was chlorine dioxide that was used to disinfest the building. In that application, the building was gassed with chlorine dioxide. In horticulture it is injected via its liquid state into irrigation lines.

One property of chlorine dioxide that provides a large part of its potential is it is a gas that is very soluble in water. On-site generator technology allows for the production of a stock concentrate in the 2,000 to 3,000 ppm range. This stock solution is then injected into irrigation systems to a final, hose-end concentration below 1.0 ppm that results in excellent water sanitation.

Connected to this solubility characteristic is that as a gas dissolved in water, chlorine dioxide is free to diffuse or move within its solution. Due to this property, its molecules are free to move about within an irrigation line. They capitalize on this freedom of movement by penetrating biofilm layers and killing the complex right down to its attachment sites along the hard surface it has colonized. With the exception of ozone, no other sanitizing technology has the ability to diffuse this effectively.

Connecting The Dots

Once it is understood that biofilm flourishes in horticultural operations, it encourages algae and it is capable of sustaining disease organisms, including waterborne plant pathogens, we can associate value to its control. Connecting these dots along the sanitation and disease control continuum allows our industry to hone in on how to eliminate the problems and improve operational sanitation significantly. Imagine the corner of a subirrigation bench with algae and crop debris. It can be assumed that such contamination is also capable of harboring plant pathogens, particularly those that are waterborne, as well as insects such as fungus gnats and shore flies.

Greenhouse Vegetable Production

A large greenhouse tomato, pepper and cucumber operation in California (pictured at right) injects chlorine dioxide into its irrigation water and post-harvest water network to sanitize various production and post-production systems. First, constant injection to achieve a residual of 0.25 to 0.50 ppm in the irrigation water has removed pre-existing biofilm in the lines and prevents its re-establishment. A secondary benefit of this application is elimination of drip-emitter clogging resulting from organic matter deposition associated with biofilm growth and sloughing.

Algae control is another secondary benefit as the trough irrigation system is significantly cleaner with respect to algae buildup than prior to treatment. Because control is a function of continual contact between treated water and the surfaces, complete elimination of algae is dependent on the physical design of the irrigation system. Design flaws that include dead legs in irrigation runs and areas where both effective contact and regular contact time are not achieved need to be identified. These stubborn areas within an irrigation system next need to be managed with an additional effort that often involves periodic treatment with a higher dose of chemical. Such design flaws should be eliminated as irrigation systems are expanded within an operation. Once again, connecting the dots is allowing us to better understand the problems in order to solve them.

Once the tomatoes are harvested, they literally are dumped into an underground water network that floats them to the grading and packing area. Once in this area the tomatoes are transferred to a water bath containing chlorine dioxide for surface sanitation as they are cleaned, graded and packed. Tomatoes are received in a packing area via an underground water system and are raised into a chlorine dioxide solution as they float through the sanitizing and cleaning process.

Another advantage that chlorine dioxide offers with regard to vegetable and other edible crop sanitation is that because of its gaseous nature, any molecules not consumed in surface sanitation escape to the air and eliminate the need to rinse the product with water to remove any residual chemical. This avoids the issue of ensuring that rinse water, in itself, is free of microbial organisms and not re-contaminating the product. Freshly harvested produce is passed through a field-level hydro-cooler. Chilled water removes field heat, rinses soil and debris and also provides initial surface sanitizing of produce on its way to a packing shed. The water in this system is treated with chlorine dioxide.

Outdoor Nursery Production

An outdoor nursery in California recently switched to chlorine dioxide injection with a main objective of improving drip emitter performance. With year-round production and an irrigation system that captures runoff in a surface pond for reuse, clogging of drip emitters due to biofilm accumulation was a major problem. Pictured above are two drip emitters (left–new emitter; right–biofilm clogged emitter). Note the pyramidal accumulation of algae and biofilm clogging the emitter tip causing failure.

Constant inspection of drip lines and replacement of clogged emitters had grown into a full-time responsibility for one employee of this nursery. Chlorine dioxide treatment has eliminated the problem with minimal attention now being required to maintain the drip lines.

Greenhouse Ornamental Production

The ranks of greenhouse growers using, trialing and considering chlorine dioxide includes those with the following objectives:

– Elimination of biofilm from irrigation lines and holding tanks

– Elimination of drip emitter clogging

– Significant reduction of algae

– Treat irrigation water for disease control

– Treat captured runoff water for re use

Pictured above is a boom irrigation system applying chlorine dioxide treated water in a vegetative propagation greenhouse.

In the months and seasons ahead this group of growers will be the source of additional educational articles as it learns how to harness the potential of chlorine dioxide.
 
cemchris

cemchris

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I've only ever used it for cleaning grow areas when dealing with stuff like PM. Never used it as injection or for feed water. Interested to see how it turns out for you.
 
Roadblock

Roadblock

37
18
Yeah I wont be injecting just using the tablets it sounds great and better than chlorine so will give it a try, I just want a very clean system to begin a new grow in, Ive used physan but dont like the soap suds in the reservoir it seems to bubble up no mater how much you rinse it and refill and I cant afford the rainwater its a limited supply out here.

Im going to use these tablets.

Cheers
 
Kraken.headz

Kraken.headz

211
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I'm a huge fan of Clo2 for cleaning an area. It wrecks microbial life at such low concentrations, and leaves no residue (depending on how you apply)
 
Roadblock

Roadblock

37
18
I'm a huge fan of Clo2 for cleaning an area. It wrecks microbial life at such low concentrations, and leaves no residue (depending on how you apply)

I will be using it for this as well the more I read up on it the better its gets, apparently its like 250% better killing at lower rates than Chlorine and it kills very quickly.

Here is a way to use the tablets .

Chlorine dioxide is an oxidizing chemical compound. It is different from chlorine solutions, which are being used in many areas around the world. The biggest advantage is that chlorine dioxide is highly water soluble even at cold temperatures, where chlorine works during the particular range of temperatures effectively. Chlorine dioxide does not hydrolyze during water treatment and remains stable for longtime.

Chlorine dioxide is being used for a long time for water purification and is effective against a number of pathogens. It reduces also bad smell occurring from ammonia based products. Chlorine dioxide tablets are very effective solution to transport them and use them during the travelling season. These tablets are the right choice to use to disinfectant the utensils, vehicles, furniture during outbreaks of viral or bacterial nature. Chlorine dioxide tablets are very economical solutions to be used in poverty ridden areas e.g. to fight cholera, Ebola, Influenza etc. They should be part and parcel of each household and hospitals.

Chlorine dioxide tablets are water soluble, hence they can added to water simple and wait for 30 minutes, hence they are ready to be used as disinfectant or water is ready for drinking.

How to use chlorine dioxide tablets: some examples as follows:

1. Drinking water
0.5 gm chlorine dioxide tablet (4% ) should be dissolved in 1 liter of water ( 20mg/liter). Add it to 99 liters of water ( 0.2mg/liter) to disinfect water for drinking.
0.5 gm chlorine dioxide tablet (2% ) dissolve in 1 liter of water ( 10mg/liter). Add it to 49 liters of water ( 0.2mg/liter) to disinfect water for drinking.
(The tablet can be thrown direct in 20-30 liters water tank to get purify water)

2. Surface disinfectant
2 mg to 5 mg / liter can be used as surface disinfection.
4 gm Chlorine dioxide Tablet (12%) can be dissolved in 1 liter to get 480 mg / liter. 1liter in 99 liters water to get 4.8 mg/liter ( 1 liter disinfection solution with 4,8 mg/ liter) = 10ml in 990ml water). This can be used to disinfect the surfaces e.g. in hospitals, clinics, vehicles etc. One can rinse the utensils or medical instruments like thermometers. In laboratories, one can disinfect the surfaces of tables, chairs, floors etc.. One can soak the cotton piece and use it to disinfect the areas. This disinfectant is so potent hat it can kill anthrax spores also.

We recommend you to use gloves and mouth masks during working for spraying.
 

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