Happy “Milestone” Birthday IX POWER Founder and CEO John R. “Grizz” Deal

We don’t often make a big deal out of birthdays here at IX Power, but there wouldn’t be a IX Power and we wouldn’t all be working together if it weren’t for John R. (Grizz) Deal.

Grizz’s  birthday is January 23, and he’s turning a big corner.  We won’t bring up exactly how old the Texas A & M grad is, but let’s just say that he is the same age as First Lady Michelle Obama and he now qualifies for his AARP card … wink, wink.

Grizz Deal loves dog sledding and any sport in the snow!

Grizz loves dog sledding and any sport in the snow! Here he is in Breckenridge, Colorado.

Grizz’s eternal “can do” spirit – which was evident well before his Boy Scout days (he is a 2nd generation Eagle Scout) – plus his energy, and unquenchable natural curiosity have been the keys to his success, whether while roughing it in the wilds of Philmont, New Mexico, or starting and building innovative companies.

The most notable of these were spin-outs from Los Alamos National Laboratory: LizardTech (data compression software), Hyperion Power Generation (small nuclear power reactors), and now IX Power (solutions for produced water from oil & gas). But the backbone of the success of his unique life has been that he truly cares about the humanitarian mission behind each endeavor. He really, truly, cares that there are people, mainly outside the U.S., that do not have clean water to drink, nor power for their homes and hospitals. This concern has been what has driven him on in his quest to create products that will have a positive impact on people’s daily living conditions, even when up against incorporate challenges to provide those game-changing products and services.  

So happy birthday John R. Grizz Deal – climber of mountains, chaser of dreams, builder of businesses … keep on keeping on, there’s another XX years ahead …

For a bio on Grizz, Click Here.

The dogs are fun, but his first love is his jeep!





Use of Produced Water to help reduce the global food shortage.

Annually, the oil and gas industry around the globe produces at least 70 billion barrels of what is known as “Produced Water.” This water is incredibly contaminated and some of the contaminants can cause disease and birth defects—in addition to damaging local and regional ecology.

In many locations the water is contaminated from the "Produced Water" brought up by the oil & gas and mining industries. Some companies are responsibly cleaning up or disposing of their Produced Water, but others are not.

In many locations water is contaminated or non-existent. Converting produced water to clean, safe water creates an entire new stream of “found water.”

Yet, this water can be cleaned and turned into Found Water: water that is pure enough to be used for agriculture, livestock, and human use.

Why go to that effort?  Because increasingly we need every drop of clean water we can wring out from every source possible.  Read previous post on water.

Water = Food 

You see, we don’t just need water to drink, or bathe. We also need it to run power plants for electricity, and to grow food. Most people don’t think about that one: how much water is required to grow food?  Let’s look at the impact, and the amount of water needed to grow food and keep us alive.  

Essentially, every calorie of food requires a litre of water to produce it.  So on average, we require between 2,000 and 3,000 litres of water per person to sustain our daily food requirements. Here are some examples.

To grow or breed ….
•1 pound of chicken meat:  it takes 500 gallons of water (1,893 litres)
•1 hamburger: it takes 4,000 to 18,000 gallons of water  depending on various factors  (15,142 litres to 68137 litres)
•1 cup of coffee: it takes 35 gallons of water   (132 litres)
•1 pound of wheat: 110-250 gallons of water (416 to 946 litres)
Another interesting fact:  Wheat consumes about 790 billion cubic meters of water annually, which constitutes 12 % of the global water use for crop production.
So – we need a lot of water on this planet, just to grow our food.
Food InSecurity is coming – in fact it’s already here
Food Security is getting more and more attention lately. U.S. President Obama has started trying to address the issue and the United Nations has been concerned for some time now. Why? Because …     
We can turn Food Insecurity into Food Security by turning Produced Water into Clean Found Water.

We can turn Food Insecurity into Food Security by turning Produced Water into Clean Found Water.

•We will have 2.5 billion extra mouths to feed by 2050
•Finding the extra water each year will not be an easy task, given that it is more than double what is currently used in irrigation
•We will not be able to produce all the food, feed and fiber required in 2050 unless we improve the way we manage water, and that management of water includes better management of the 70 billion barrels of “Produced Water” from the oil and gas industry.
So exactly what is “Produced Water?”  This is water trapped in underground formations and brought to the surface along with the oil or gas. Produced water contains chemical characteristics of the formation and the hydrocarbons present. It may include water from the reservoir, water injected into the formation, and chemicals added during the production and treatment processes. Major constituents of concern are salt, oil and grease, various other natural inorganic and organic compounds, chemical additives used in drilling, and naturally occurring radioactive material (NORM).

In many places, the oil and gas industry is trying to do the responsible thing and dispose of its “produced water” in a manner that will not affect the local groundwater or sources of water. Companies pay an enormous amount of money to transport that water away from local communities or pay to clean it up. Dealing with produced water is one of the most expensive problems the oil and gas industry, along with the mining and manufacturing industries, faces today. Unfortunately, in other places, less responsible companies just dump it and subject the local community’s inhabitants to very hazardous substances.

 Produced water from oil & gas and mining work can be cleaned up and turned into "Found Water" to grow crops.  New technology such as IX Power's OrganiClear can make it easier and more affordable to clean up produced water so it can be re-used to solve the Food Insecurity problem.

Produced water from oil & gas and mining work can be cleaned up and turned into “Found Water” to grow crops. New technology such as IX Power’s OrganiClear can make it easier and more affordable to clean up produced water so it can be re-used to solve the Food Insecurity problem.

So, we need water for many things, and we certainly need it to produce food. Industry creates a lot of produced water.  Let’s clean it up and use it!  How? With new technology such as IX Power’s OrganiClear™ which removes the most dangerous parts (the BTEX:  organic hydrocarbon compounds) without leaving another waste stream behind to deal with. We invite you to read about IX Power’s OrganiClear by clicking here.  But, we also want to know about other technologies that can be used in the fight to clean up produced water. It’s a big problem and we need everyone working on it…!

The next time you eat a meal, stop and think how much water it took to grow it!



Saturday, March 22 is World Water Day!

At IX Power we believe that the first and most essential obstacle that must be overcome in order to improve life on Earth is the lack of clean water. We are devoted to finding methods for cleaning dirty produced water – some of the most potentially harmful water that can be found – and turning it into clean water for use in irrigation, by livestock, and even for consumption by mankind.  It’s possible, with technology such as that we are currently working on and hope to introduce to you soon.

Holding place

Holding place

In the interim, please take a moment or several, on Saturday, March 22 to observe World Water Day – it will remind you just how important this resource is for everyone, everywhere!

Thanks to the art department at IX Power, we have some attractive graphics that will provide you with a view of the worldwide water picture for freshwater and surface water.  It’s interesting information!


IX Power advocates turning produced water into fresh water.

Only 1% of all the water on the planet is freshwater. This pie chart illustrates how that 1% is divided up.




IX Power advocates turning produced water into freshwater.

This chart further breaks down how the fresh surface water on the planet is categorized. Graphics courtesy of IX Power Art Department.

5 star recommendation for Dr. Swan’s book on history of derivatives

Dr. Ned Swan, U.K. Managing Director and International General Counsel

Dr. Edward Swan, IX Power

Dr. Edward Swan, IX Power

at IX Power Ltd recently earned a FIVE STAR review on Amazon for his book  “Building the Global Market, a 4000 Year History of Derivatives.”  Ned has written a number of books and journal articles; no small feat especially when you consider his unique life balancing act as a professor, attorney, business leader and devoted father.  

Check it out for yourself at Amazon.com.


Derivatives trading is now the world’s biggest business, with an estimated daily turnover of over US$2.5 trillion and an annual growth rate of around 14 per cent. Derivatives markets have ancient origins, and a long and complex history of trading and regulation. This work examines the history of derivative contracts, their assignability and the regulation of derivatives markets from ancient Mesopotamia to the present day. Dr. Swan concludes with an analysis of future regulatory prospects and of the implications of the historical data for derivatives trade and regulation.

New OrganiClear™ Technology for Cleaning Produced Water from Hydraulic Fracturing (Fracking) and other Oil & Gas processes to be presented at 28th Annual WaterReuse Symposium by IX Power Clean Water CEO John “Grizz” Deal

The water industry will get its first official and public introduction to OrganiClear on Sunday afternoon, September 15, 2013 at the 28th Annual WaterReuse Symposium in Denver, Colorado in the U.S. IX Power Clean Water CEO John R. Grizz Deal will present the new technology, which originated at Los Alamos National Laboratory, the University of Texas, and New Mexico Tech. It has been hailed as the most effective proven technology to filter and destroy toxic organic hydrocarbons, such as the notorious BTEX compounds, in “produced water” without creating an additional waste stream. Held in Denver September 15 – 18, the WaterReuse Symposium is the leading event in the U.S. for presenting the latest innovations in water reuse and desalination. More information about the event can be found at http://www.watereuse.org/symposium28.

A $40 billion per annum problem for the oil and gas industry, the handling, cleaning and disposal of produced water is gaining more attention from environmental regulators in the U.S. and other oil and gas producing countries every year. Produced water is a term to describe the polluted water extracted from the earth along with oil and gas. The water produced may include water from the fossil fuel reservoir, water injected into the formation (including the high pressure water used to fracture the rock formation—“fracking”), and chemicals added during production and well treatment processes.

The OrganiClear machine cleans water of its organic hydrocarbons to the point that it can be safely used for agriculture and livestock and, with additional processes, can also be used for community water systems.IX_PCW_Logo_Sept12

“OrganiClear will change how the world manages produced water from the oil & gas industry, mining industry, and in manufacturing,” explains Deal. “As part of an operation’s water treatment train, OrganiClear not only separates the dangerous organic hydrocarbons, it destroys them while creating no additional waste stream. While other existing processes for cleaning produced water leave piles of toxic consumables that then must also be disposed of, OrganiClear effectively “eats” the toxins leaving nothing behind for additional handling.”

The major constituents of produced water are salt, oil, grease, and various other natural inorganic and organic compounds, chemical additives used in drilling and fracking, and naturally occurring radioactive material (NORM).

BTEX is one set of compounds of organic hydrocarbons of major concern. BTEX is an acronym that stands for Benzene, Toluene, Ethylbenzene, and Xylenes, which are all closely related. These compounds are soluble in water so produced water from the extraction of crude oil is always contaminated with these compounds.

Unfortunately, BTEX is extremely toxic and dangerous to humans, animals, crops, and natural vegetation. Benzene is carcinogenic while Toluene, Ethylbenzene, and Xylenes have harmful effects on the central nervous system. Frequently found together, the BTEX compounds can cause illness, birth defects, eventual death—and even immediate death if highly concentrated.

Thus far, the oil and gas industry worldwide has generally dealt with produced water by subsurface disposal, disposal on the surface (in ponds), and by cleaning it to a degree that it can be re-used in oil and gas extraction processes. Some operations have cleaned it to the point that it can be used for irrigation, although without the OrganiClear technology, that process is costly and damaging to the environment. Given the high cost of organics elimination, some oil and gas operators are forced to release their produced water untreated where it pollutes aquifers, rivers, and the ocean. OrganiClear solves this important problem.

“This is a global environmental issue,” said Deal, “because for each barrel of oil recovered, 5 to 40 times as much water is produced, creating the adage that ‘oil recovery is really water recovery with a bit of oil thrown in.’ Worldwide, the volume of produced water generated each year exceeds 70 billion barrels (1 bbl = 42 U.S. gallons.

Produced water accounts for 98% of the waste products in the oil & gas industry. Each year in order to comply with local, state, provincial, and federal environmental laws, oil and gas companies spend an estimated $40 billion cleaning and/or disposing of produced water. Costs include transportation, pre-treatment, re-injection, and desalination, and vary widely depending upon the water’s properties, volume, and geographic location. Typical handling costs range from $2 to $10 per barrel of water, and can run as high as $15 per barrel. The cost to eliminate “everything but TDS*” using OrganiClear in produced water ranges from $0.28 to $0.50 per barrel.

“So, why not clean it for beneficial use or recycle it for reuse?” notes Deal. “When millions of people around the globe suffer from water and subsequent food scarcity, we need to clean as much produced water as possible and turn it into “found” water. OrganiClear can make a huge difference: for industry, for the environment, and humankind. The oil and gas industry wants to do the right thing with its produced water. OrganiClear helps them in that effort.”

IX Power Clean Water (pronounced Nine Power), is based in Albuquerque, New Mexico and is one of the IX Power Companies, a group that focuses on bringing game-changing safe power and clean water innovations to market. The companies also have offices in Washington, D.C.; London, England; and Moscow, Russia. Before starting the IX Power group of companies, Deal was the CEO of Hyperion Power Generation for four years. He co-founded Hyperion Power, the first modern SMR company to approach the U.S. Nuclear Regulatory Commission with its SMR concept, along with the IX Power Leadership Team: Dr. Otis (Pete) Peterson, Dr. Robert Libutti, Randall Wilson, and Deborah Deal-Blackwell. The objective of Hyperion Power was to introduce a mass-produced, self-contained 25MWe nuclear power reactor that was factory assembled and safe and compact enough to be shipped on the back of a truck. Now known as a design in the Generation IV (GenIV) class of reactors, the Hyperion reactor was designed to bring safe, emission-free clean nuclear power to industry and remote communities.

 *Costs to reduce Total Dissolved Solids, TDS, vary widely given TDS quantities and discharge limits.