Cannabis: A Unique Perspective

The article below was written by Jim Lauria posted to Linkedin. This is a great article on the potential future growth of the cannabis market and role ozone oxidation may play in this industry.

Original article link HERE

Cannabis: A Unique Perspective

The cannabis industry is riding sky-high and heading for the clouds as legalization expands and markets grow. Cannabis growers are also poised to lead agriculture in water use efficiency and gain an upper hand in long-term contests over access to precious water.

I have a unique perspective on cannabis. For one thing, I have been studying water use in the crop since researching my first article on the topic in 2017, and continuing through the current day. In fact, I recently co-authored an article for Ozone News with Tony Sacco of Spartan Environmental Technologies on the many uses of ozone in cannabis production and processing, and presented on the subject at the International Ozone Association’s 2021 U.S. conference.

But my unique perspective is much older, and much more unique. Back in the 1980s, I was an environmental engineer at one of the largest sugar mills in the world, which also operated the largest furnace in the Florida county where we were located. I would often get a call from the county asking for help burning caches of old documents. Imagine my surprise when one of those document destruction runs turned out to be a 6-ton load of confiscated marijuana that the county sheriff needed to destroy! Let’s just say that our stack emissions that day may well have set a record for the world’s biggest bong

In all seriousness, most states—including Florida—have legalized some form of cannabis use or decriminalized the drug, opening markets to many very sophisticated growers. The pressure to deliver the most crop per drop, especially in irrigated crop production areas like the West and parts of the South, make water too precious to apply to crops that can be rainfed, and will likely tip the balance toward high-value crops like cannabis. The water industry has much to learn from producers who have spent decades fine-tuning their water use efficiency and growing techniques—and a lot to gain from exploring how our technologies fit this top-dollar crop.

Booming Market

One of the biggest drivers behind cannabis’ inevitable domination of water resources is the staggering value of the crop. According to Grand View Research, the global market for legal marijuana was estimated at $9.6 billion in 2020 and is expected to expand at a compound annual growth rate of 26.7% from 2001 through 2028. Cannabis is already the largest crop in California—the state that produces one-third of the country’s vegetables and two-thirds of its fruit. At $11 to $17 billion per year and 60 to 70% of the nation’s pot sales, California’s cannabis crop dwarfs the number-two agricultural product, the state’s $6.7 billion milk and cheese industry.

You probably noticed the disparity between the Grand View figures and the California numbers. The difference is the illegal cannabis market. According to Ted Grantham, co-director of the cannabis program at the University of California, Berkeley, legal cannabis farms represent just 20 to 25% of the state’s total cannabis operations. That means there is a vast number of small, unregulated cannabis farms in the state, many of which are tapping water supplies illegally. What we don’t know is how many farms or how much water, though indications in rural counties in California’s Emerald Triangle are that water demand for cannabis is so high that it is affecting streams and residential wells. Though those operations are off-the-books, their water management tactics will also need to incorporate efficient water technologies, too.

Astronomical Returns

With such massive revenue numbers, it’s no surprise that cannabis cultivation generates huge returns on water—astronomical “crop per drop.” A study by the Denver University Law Review found that cannabis production in Colorado returned 22 cents to $6.67 per gallon of water used, and compared that to potatoes—another huge Colorado crop—which returned 2 to 3 cents per gallon.

Part of the disparity goes back to the value of the crop. Think of it—you’re comparing a crop that’s sold by the gram to a commodity that’s marketed in 10-pound bags…and wholesaled in 50-to-100-pound increments. In January 2021, cannabis flower wholesaled at $1,721 per pound in Colorado, according to MJBiz Daily, while 100 pounds of Colorado russet potatoes sold for $17.00 wholesale. That’s a 100x difference. Ten thousand percent.

With returns like that, cannabis producers will make a strong case for creating the highest and best economic use for irrigation water where they have the rights. And efficiency will likely stay on the high side of the range, or continue to improve, as cannabis production is increasingly driven inside controlled environments like greenhouses or high tunnels. Improved yields and quality from indoor production, along with neighbor complaints about unpleasant odor from outdoor grows, will cement indoor production as the preferred approach to cannabis cultivation.

There, too, cannabis is the new king. According to Agrilyst, cannabis yields $112 per square foot in value in the greenhouse, compared to $64 for indoor greens and $22 for indoor strawberries.

Technology Driven

As cannabis producers invest in indoor production—a substantial commitment—and the legal market demands the kind of quality and traceability that wine and food buyers do, cannabis growers will be held to Good Agricultural Practices and beyond. To comply with those demands and maximize their profits through increased efficiency, those growers will seek the best in water application, treatment and reuse technologies.

This is no longer the neighborhood supplier growing in a blacked-out basement.

Maintaining basic safety will demand sanitation. For sanitation-in-place maintenance of growing facilities and equipment, we are seeing significant interest in ozone-injecting sanitation carts and wall-mounted ozone sanitation systems, which allow growers to effectively sanitize without the need for (or dangers of) steaming hot water. Within drip irrigation or hydroponic water delivery systems, ozone and other sanitation agents can be injected to control biofilm, which can plug emitters and valves, as well as harbor pathogens.

Ozone or air can also be injected into irrigation water to aerate roots through systems like Mazzei AirJection, a process that has been proven by agronomists around the world to improve yield and quality in vegetables, fruits, and a wide range of commodities. As competition tightens and branded cannabis becomes as coveted as favorite wine labels, we can expect to see deep interest in yield and quality improvement techniques.

At the end of the irrigation line, ozone, advanced oxidation process (AOP) systems, and sophisticated filtration will be needed to permit the reuse and recycling of water, or treat wastewater for discharge.

My exploration of the applications for ozone in cannabis production have even pointed to opportunities for gaseous ozone in cleaning cannabis flower—at rates low enough to avoid damaging the product—or neutralizing odorous terpenes in air before exhausting it into the environment.

Further Research

On a state-by-state basis, cannabis offers tremendous opportunities for innovative water technologies. And many cannabis industry experts expect federal approval in the U.S. in the future, as we’ve seen in Canada. Federal approval will be important not just because it allows producers and buyers access to the banking system, or even interstate marketing of cannabis that will reward top growers. It will open the door to research and development across the country—and we can bet that some of the research will advance water efficiency and highlight the role of water technology in delivering high, profitable yields of safe product.

In the modern-day land rush that is the emerging legal cannabis industry, the crop is likely to find its way to the head of the line when it comes to high-efficiency, high-return use of water resources. The skill of the growers, the value of the crop and growing demand for top-quality, even branded cannabis, will follow in the footsteps of the wine industry. We in the water industry will be wise to teach cannabis growers about the remarkable tools we put at their disposal to help them improve quality and efficiency, and also to learn from the many innovators in cannabis production how careful water management can turn every drop of water into green.

More info on Ozone in Cannibis industry

Air Treatment

Heating, ventilating, and air conditioning (HVAC) systems have had ozone applied to them on a large scale, there are some major reasons behind this, such as:

                -The public has become growingly aware that indoor air quality (IAQ) can be can be improved

                -Heightened intolerance towards smoking along with the increased knowledge that common chemicals can negatively impact IAQ

                -Technological advancements within the ozone industry (particularly in ozone generators/monitors) make system controls more realistic

                -Payback economics: savings in energy along with other factors

The main industrial sectors to heavily invest in ozone air treatment are gaming institutions like casinos, bingo halls, and card rooms, as well as applications within the hospitality industry (restaurants, showrooms, bowling alleys). These areas have seen high returns investing in air quality, in large part due to the common chemicals in these areas that would lower overall air quality (ex: cigarettes being allowed in most gaming buildings). Many smaller projects have also been applicated to places like taverns, designated smoking areas and advanced technology facilities where complete-building air treatment is not deemed necessary.

Most voiced objections towards ozone are in reference to its overall safety. When using ozone in public areas, the concentrations must be kept below the harmful levels. Self-controlling systems, that combine advanced ozone generation with ozone monitoring systems make this increasingly possible. However, among cognizant agencies, we do see discernment as to what should be deemed the safe levels and suitable ozone concentration guidelines. For areas where people gather together, the US FDA has stated a limit of .05 ppm. HVAC systems are programmed with automatic controls to typically stay under concentrations of .03-.05 ppm. However, these concentrations are lower than what we see occur naturally in outdoor settings, in most regions. “For ozone injected into HVAC systems it is absolutely necessary to include ozone sensors to automatically control the ozone concentration in areas where the public congregate.”

2 Major Applications

                -Casinos: Gaming facilities are continually growing worldwide, and a majority of resorts are now including them. Smoking is typically found in high quantities in most casinos, and it is a major irritant for customers as well as employees. Ozone is incredibly effective in getting rid of the unpleasant smell caused by smoking, due to the variety of VOC’s that can be found in the smoke.

                -Dubai International Airport: Odds are this is the largest ozonated HVAC system in the world, with the air treatment being applicated to all of the buildings. The airport has over 300 ozone sensor/controllers along with VOC sensor/controllers. There are many ozone generators spread throughout the HVAC ductwork, treating virtually all of the interior spaces. Preliminary findings from the Dubai International Airport were passengers and employees noted a pleasant air smell, as well as improved air quality. The airport also cut costs by spending less on maintenance, mainly because they no longer had to replace carbon filters.

More information on ozone and Air Treatment, can be found here.

Sources: Rip Rice, from the IOA

OXS Injection Systems for Aquaculture and Hydroponics

OXS Water Treatment System

In the above image you can see an OXS-10 Ozone Water System. Ozone is an incredibly efficient component when it comes to aquaculture and hydroponics. In reference to hydroponics, the use of ozone can help in oxygenating root zones, as well as disinfecting and enhancing the hydroponic water quality. For aquaculture, ozone is used to improve water quality, reduce pathogens, and increase efficiency of the water treatment systems. We created a video going through the functions of the OXS-10, to see the video, Please Click Here! You can also Click Here to see more information, as well as purchasing options, for the OXS Ozone Water System.


Aquaculture is the breeding, rearing, and harvesting of fish, shellfish, algae, and other organisms in all types of water environments. 2 of the main applications we see ozone used in aquaculture is for fish farming and ozonated ice. Ozone works great for fish farming because it keeps the water cleaner, and therefore, the fish healthier. Healthier fish can eat more feed and grow bigger/faster. After fish are harvested, they are usually put on ice. By dissolving ozone into water and quickly freezing the water, ozone is essentially trapped within the ice. Locking ozone into the ice and setting the fish on top of the ice allows for the ozone to be slowly released and increases the shelf life for the fish.


One of the definitions of hydroponics is as follows, “Hydroponics is a technology for growing plants in nutrient solutions (water and fertilizers) with or without the use of artificial medium (ex., sand, gravel, vermiculite, rockwool) to provide mechanical support. Liquid hydroponic systems have no other supporting medium for the plant roots: aggregate systems have a solid medium of support.”

Hydroponics Benefits

  • Water Conservation
  • Produce Higher Yields
  • Less Labor Requirements
  • No Soil Needs
  • High Quality Foods

How Does Ozone Enhance Hydroponics?

Ozone allows us to disinfect water before it is used in a hydroponic system and gives us more control over the pathogens and algae that are present. Because of ozone’s efficiency in disinfection it is great for destroying bacteria, virus, and fungi, as well as eliminating microbes, algae and pathogens. It also gives us the ability to increase oxygen levels in the plants which can aid in increasing crop yields. Using ozone for disinfection saves money on chemical fertilizer, and can even get rid of unwanted smells inside of greenhouses.

Contact Us Today to speak with an industry expert on how we can help you!


OXS Ozone Water System

Overview of the OXS Ozone Water System


OXS Ozone Water Systems will dissolve ozone into water for point of use applications, or water treatment applications where dissolved ozone in water is required. The OXS System is capable of producing up to 100 g/hr of ozone from oxygen with an integrated oxygen concentrator and ozone generator, the OXS Injection Systems also introduce this ozone into water at 100 GPM. For more information on the OXS Ozone Water System, Please Click Here.

How It Works

Main Features

  • One touch ON/OFF switch
  • Ambient ozone safety sensor integrated in central controller
  • CPVC piping is used for maximum ozone resistance
  • Stainless steel ozone compatible pump
  • Ozone produced from oxygen at high concentration
  • Great mass transfer of ozone into water
  • Capable of high dissolved ozone levels
  • Compact design

For more information, as well as purchasing options for the OXS Ozone Water System, Please Click Here.

Product Spotlight: BOSEAN BH-60 Fixed Ozone Monitor

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Product Overview

The BH-60 Fixed Ozone Detector uses an advanced catalytic gas sensor, which can translate the ozone concentration in the air to the digital signal output. The BH-60 has a range of 0-20 ppm and a resolution of 1 ppm, making it great for detecting ozone in refineries, chemical plants, boiler rooms, painting plants, and other industrial settings where ozone is present. When it comes to industrial, fixed-mount ozone detectors, the BH-60’s $360 price tag sets it well below most competitors. The display on the BH-60 is incredibly easy to read and help maximize the usability for this sensor

Main Features

-Aluminum outer shell

-Economic pricing

-4-20mA Output currency

Ease of Use

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For more information, as well as purchasing options for the BH-60, Please Click Here!

The manual for the BH-60 Fixed Ozone Sensor can be found Here.