Gas to Liquids – Another Piece of the Puzzle

Gas to Liquids - Another Piece of the Puzzle

We have all seen pictures of oil wells both on land and platforms on the water where there is a constant flame burning off gases that contaminate the oil.

When you drill for oil you almost always get gas. If it is not considered cost effective to build a gas pipeline to transport the gas it is known as “Stranded Gas” and is flared off, wasting trillions of Btu’s of energy and releasing millions of tons of carbon into the atmosphere with absolutely no benefit.

Also in refining operations, there are gases released that are also flared off.

In many landfills you will see a tower used to flare off Methane generated by the continuous breakdown of organic materials.

One potential improvement to the world’s fuel pool could be the updating of the process used by Germany during World War II to alleviate its constant oil shortages. It was originally designed to convert coal to liquid fuels, however variations are capable of converting gases such as Natural Gas, Methane, Refinery Gases, and others to liquid fuels such as diesel and gasoline.

The use of Gas to Liquid Fuel Technology can help stretch our fossil fuel supplies and reduce CO2 released into the atmosphere.

More information available at: www.lcbamarketing.com

Post your comments, thoughts, ideas, and suggestions here.

Doctor Diesel

Copyright 2009 – William Richards

Nitrogen Enriched Gasolines – What Are They and What Do They Do

Nitrogen Enriched Gasolines – What Are They and What Do They Do

Shell Oil has recently begun advertising their Shell V-Power “Nitrogen Enriched” Gasoline.

Why would nitrogen improve the cleaning performance of gasoline detergent?

Here are some facts to consider:

1. The earth’s atmosphere is approximately 78% nitrogen
2. Nitrogen is an inert gas that is not combustible
3. Nitrogen atoms are larger than oxygen atoms
4. Nitrogen when combusted with fuel and Oxygen creates Nitrogen Oxides (NOx)
5. NOx when combined with Volatile Organic Compounds (VOC’s) creates petrochemical smog.

Shell claims that fusing (their term) nitrogen with their detergent creates a more stable, longer lasting detergent that will be more effective in preventing gunk (their term) deposits (my term) from building up on the valves and other combustion chamber areas.

It would seem to me that adding Nitrogen will make the combustion process less efficient and could possibly lower combustion temperatures. This would seem to be the opposite of the desired effect.

It would also seem that adding Nitrogen could raise the NOx emissions from the engine which would tend to increase smog production, again the opposite of the desired effect.

I definitely applaud the idea of raising detergent levels in all gasolines. This is a quick and inexpensive way to reduce emissions and improve fuel economy.

The whole Nitrogen thing is nothing other than another marketing ploy. Shell and many other refiners have attempted to convince the consumer that they are doing something unique and wonderful, when in reality they simply want to sell more and or charge more than their competitors.

Shell needs fewer “Cutesy” TV commercials and more science, or at least they should provide some documentation to support thier claims.

If you want to do the best thing for your gasoline powered vehicle, look for fuels containing “Top Tier” fuel additives used at the manufactures “Top Tier” levels or simply purchase and regularly use aftermarket “tank additives” that meet or exceed the “Top Tier’ requirements.

This together with proper maintenance will ensure peak performance and minimum emissions from your engine.

Please let me know what you think, post your comments, ideas, and suggestions here.

Diesel Doctor

Copyright 2009 – William Richards

Clean Coal – An Oxymoron or a Real Possibility?

Clean Coal – An Oxymoron or a Real Possibility?

Can coal be clean? We have all heard the condescending advertising, listened to the biased politicians, and been overwhelmed with huge amounts of conflicting “expert” opinion and research data from each side.

Let’s start with the basics, “What is coal?” Coal is a sedimentary rock made up mostly of carbon, with varying amounts of sulfur, oxygen, hydrogen, nitrogen, and lesser amounts of many contaminants including mercury and other poisonous compounds.

We believe coal is primarily made up of plant material that has partially degraded, compressed and through this pressure and with time and other geologic forces been transformed into the many forms of what we refer to as coal. Some of these forms are Peat, Lignite, Bituminous, Anthracite, and Graphite.

The process of photosynthesis converts carbon dioxide into carbon, the conversion of the dead plant matter into coal sequesters the carbon in the ground. If we look at this in a very big picture sense, coal is the energy of the sun converted and stored. When the coal is burned, that carbon is released in the form of carbon dioxide. This could be a manageable cycle, however what is happening today, is that millions of years worth of this stored sunlight bound up in the form of carbon is being released in a relatively short period of time. This rapid release has overloaded the systems (the worldwide environments) ability to convert the carbon dioxide back into some stored form.

What can we do about this problem? First we must burn (or otherwise convert) this coal as cleanly and efficiently as possible. Large scale coal gasification and burning to create electricity will create fewer more easily managed source of pollution. These very large sources can be more easily forced to the use technology needed to clean the exhaust stream coming from such a facility.

Next we need to develop ways to reuse or store the Carbon Dioxide (CO2). There are ideas that would pump this material back into the earth either as part of oil pumping operations or into decommissioned mines.

I believe that we need to consider alternatives that would use some significant part of this CO2 to grow Algae as part of a closed loop energy system (See previous article on the Richards Cycle) or some other photosynthetic process that would convert the CO2 back into a safe storable (or reusable) form.

Coal can also be converted into high quality liquid fuel s (gasoline and diesel) through several processes. If we can create a more earth-friendly method of doing this, we could significantly reduce our dependence on and need for imported oil.

While this is not a permanent solution, it would definitely give us a cushion while we develop alternative energy forms and strategies.

Whether or not Coal can ever be Clean, I don’t know. What I am certain of is that we can develop much cleaner, safer, and eco-friendly methods to mine and use this high quality domestic energy source.

Please post your comments, thoughts, ideas, and suggestions.

For more information, please visit: http://www.lcbamarketing.com and click on Technical Articles.

Diesel Doctor

Copyright 2009© - William Richards

US EIA – Information on Gas and Diesel Pricing from the US EIA

US EIA – Energy Information Administration

The US Energy Information Administration provides daily information on regional, national, and worldwide inventories, pricing, and availability. You can view this information at: http://tonto.eia.doe.gov/oog/info/gdu/gasdiesel.asp

You can also view a copy of this webpage and other related information at: http://http://www.lcbamarketing.com/

We will be exploring what goes into the price of fuel at the pump over the next several weeks.

Check back every day.

Please post your comments, suggestions, and ideas here.

Diesel Doctor

Copyright 2009© - William Richards

Natural Gas as a Transportation Fuel – A Cautionary Note

Natural Gas as a Transportation Fuel – A Cautionary Note

Natural Gas is currently being promoted as a domestic clean, safe, and cheaper alternative to petroleum fuels.


Some thoughts for your consideration.


Natural Gas as domestic source of energy. The US currently imports approximately 16% of its natural gas. Some comes to us by pipeline and some in the form of LNG via ship. Increasing the use of natural gas to replace petroleum fuels simply shifts our imports from one product to another.


Currently the US uses approximately 22% of our natural gas to create electricity. This is a poor use of a valuable resource for a need that has many other fuel sources available. If this was replaced by wind, solar, nuclear, and a future renewable bio-source (see previous article: The Richards Cycle) you could eliminate our imports.


Natural Gas as a clean motor fuel. Compressed Natural Gas (CNG) and Liquefied Natural Gas (LNG) both reduce certain emissions however they are not as clean as some would have us believe. If you look the whole basket of emissions that come out of the exhaust on an internal combustion engine, a 2010 Selective Catalytic Reduction (SCR) Diesel engine actually is less polluting than an equivalent CNG or LNG engine.


While I believe you can safely use CNG and LNG, it requires more training and much greater diligence on the part of drivers and operators vehicles and fueling stations. It is important to remember that it can take far longer to fuel LNG and particularly CNG fueled equipment. This long fueling cycle can lead to lack of attention and added expense in fueling equipment.


Natural Gas as cheaper alternative. Many people incorrectly try to compare a gallon of diesel to a gallon of LNG or a gallon of CNG. While the price per gallon of the LNG and CNG may appear to be cheaper, you need to consider the energy in the gallon. For example a gallon of diesel contains approximately 139,000 Btu’s of energy, while a gallon of LNG contains about 73,500 Btu’s, and CNG works to about 34,750. In short it takes about 4 times the space to store an equivalent amount of CNG as compared to diesel.


The other concerns with vehicles powered by CNG or LNG are that they are far more expensive to purchase, for example a school bus built to run on CNG can be $30,000.00 to $40,000.00 more than its diesel counterpart.



Also when you purchase a vehicle powered by CNG or LNG you locked into one supplier for all fuel system and some engine components for ever. There is virtually no secondary supplier compatibility. You limit the range and usefulness of the vehicle due to limited ability to refuel that vehicle away from its domicile. Lastly, you have to be concerned about the value of those vehicles when it comes time to trade or sell them. In many cases this limited resale market can make a used vehicle worthless.


There is an important and growing place for alternative fuel vehicles and equipment. It takes visionary leaders with long term commitment and very deep pockets to make a change to this type of equipment successful.

You can get more information on this and other fuel related subjects at: http://www.lcbamarketing.com and click on Fuel School Articles.

Please comment here and share your thoughts, ideas, and suggestions.


Diesel Doctor



Copyright 2009© - William Richards

E-Diesel – A Fuel for the Future?

E-Diesel – A Fuel for the Future?

Image Courtesy of University Of Illinois

E-Diesel is a blend of Ethanol and Diesel Fuel together with a multifunctional additive package. E-diesel is typically a 7% to 15 % blend of Ethanol in #2 diesel fuel together with 2% to 5% of additive. Early on it was referred to as “Oxygenated Diesel”, now however; most call it E-Diesel.

E-diesel is popular in Brazil as they produce a large amount of Ethanol from biomass left over from growing and processing sugar cane. Brazil has a limited supply of domestic crude oil and this has given them a huge incentive to develop alternative fuels and their government has stepped up to the plate to make it happen.

As a result Brazil is today an energy independent country, something we should aspire to become.

E-diesel has not been popular in the US, although it has been tested in some large fleets here with mixed results.

However the problems with Ultra-Low Sulfur Diesel, with Biodiesel being forced into our diesel and the recent very high price of fuel (now temporarily better) have made this technology worth another look.

E-diesel has a number of negative characteristics, it is hygroscopic (soaking up huge amounts of water if allowed to do so), Ethanol lowers the flash point of the diesel, Ethanol destroys lubricity in the fuel, and Ethanol makes the fuel less stable.

The pluses are that it improves cold weather characteristics, lowers CO and NOx, potentially (when derived from cellulosic biomass) lowers cost of the finished fuel, and increases the amount of non-petroleum renewable fuel available.

E-diesel using Ethanol produced from Bagass (the parts leftover from making sugar from sugar cane) is winner. Ethanol made from corn is a loser, the yield is very low, and it affects human and animal feedstocks.

The biggest winner is if you make diesel fuel from algae and use the biomass left over to produce Cellulosic Ethanol which can be burned in boiler, added to gasoline, or added to diesel. It is possible that Ethanol produced in this manner could cost as little as $1.00 per gallon.

The potential of producing a high quality cellulosic Ethanol from biomass is a game changer.

Ethanol in fuels presents significant problems in many areas. However these problems can be overcome or managed through changes in the way we handle fuels and blending, changes in equipment using these fuels, and though the use of properly formulated additive packages.

For more information please go to: http://www.lcbamarketing.com

Please comment with thoughts, ideas, and suggestions.

Diesel Doctor

Copyright 2009© - William Richards

Gasohol – Ethanol Blended Gasoline – How to Prevent Storage Problems

Gasohol – Ethanol Blended Gasoline – How to Prevent Storage Problems

Image Courtesy of JME Sales

One of the biggest problems with gasohol (Ethanol blended Gasoline) is that it is extremely hygroscopic (the ability to attract water molecules from the surrounding environment and to hold them either through absorption or adsorption.

E-10 Gasohol (Gasoline containing 10% Ethanol) can hold up to 3.8 teaspoons of water in solution in the fuel. This water can lead to corrosion, poor economy, drivability problems, and to phase separation leading to other much more serious problems.

To combat this hygroscopic problem it is vital that storage tanks be purged of all water before any fuel containing Ethanol is added. The use of dispersant additives to deal with any residual water is also beneficial.

Storage tanks will pick up water from condensation of moisture in the air due to the daily changes in temperature. A large storage tank can actually generate anywhere from several ounces to as much as a gallon of water per day. Normally this water would settle to the bottom of the tank; however the Ethanol will pick it up, blend with it, and hold it in suspension.

The addition of a Desiccant type filter in the vent system will dramatically reduce or eliminate this condensation. While this idea is relatively new in the US many other countries mandate the use of these filters to prevent water problems.

It is also vital to regularly check the storage tank with water finding paste to be certain that there is no separated water on the tank bottom. Another advantage to water finding paste is that it will begin to slightly change color or in some cases small colored dots will begin to appear on the paste. This indicates that the fuel mixture is approaching the saturation point where phase separation will happen.

Note: Many of the electronic monitoring systems used for tank water detection may not register properly with Ethanol blended fuels. Also we have seen many instances where the fuel tank sending unit becomes saturated with water and stops functioning properly. When this happens the device will show the last good reading indefinitely.

It should be expected that tanks containing Ethanol will require a significantly higher level of maintenance than those holding regular gasoline or diesel.

For more information on this and other fuel related issues visit: http://www.lcbamarketing.com

Diesel Doctor

Copyright 2009© - William Richards

Relying on Reliance – Rather than Relying on Ourselves

Relying on Reliance – Rather than Relying on Ourselves

Reliance Industries Ltd. an Indian company is preparing to startup its second huge refinery in Jamnagar in Western India. Reliance is already operating a 660,000 barrel per day (bpd) refinery there that together with the new 580,000 bpd unit creates the world’s largest refining complex, a 1.24 million barrel per day monster that is going to have a major effect on refined fuel prices around the world.

The new unit has been built strictly for exporting finished product, primarily gasoline, diesel and Jet A. This unit has been built specifically to produce fuel for the US market. It can meet all of the current and proposed fuel standards that the EPA has created.
Reliance has leased 935,000 barrels of storage space at Hess’s Port Reading terminal and has opened a trading office in Houston.

They will very quickly become a major force in the US marketplace. While in the short term this will likely drive prices at the pump down, the long term effect while be negative.
Over the last few years we have heard time and time again how much the major oil companies have been earning in profits, billions every quarter. However they have invested precious little of this windfall in infrastructure here or abroad.

The US cannot refine all the fuel we use, so others are doing it for us. In every way this is a bad idea and we will suffer for it later. The irresponsibility of not investing in refinery capacity, storage, pipelines, and other required projects is leading us into a mess our children and grandchildren will suffer for.

In eastern Canada, Irving Oil is making a 300,000 bpd expansion to its Saint John’s New Brunswick refinery to provide finished product for the northeastern US markets and now India will add 580,000 bpd to this amount. Again while this may temporarily lower pump prices, it is a strategic mistake to outsource the refining of our fuels.

We are sending more money overseas for no other reason than it is easier than dealing with our problems here.

Another part of the problem is the whole NIMBY (Not In My Back Yard) theory. We don’t build refineries because we don’t want to see or smell them.

Well it is time that we grow up, and either put new refineries where they won’t bother anyone or we need to figure out how to clean them up enough that we can live with them.

It is not bad enough that we have to import 2/3’s of our crude oil to support our addiction, and then we import another 10% of our total usage in the form of finished product. Apparently we don’t even want to make the money and have the jobs that we should get from refining it.

The idea that we in the US have so much money that we can afford to simply let someone else deal with our problems while sending them boatloads of money is shortsighted and frankly, stupid!

For more on this and other fuel related subjects go to: http://www.lcbamarketing.com and click on Fuel School Articles

Diesel Doctor

Copyright 2009© - William Richards

What Happens when Gasoline is Burned in an Engine

What happens when gasoline or other petroleum fuel is burned in an Engine?

Gasoline (or any petroleum fuel) is mostly carbon that when burned releases energy in the form of heat. This heat energy makes the engine run and allows it to do work.

The bad part of this process is that the carbon when burned is converted into Carbon Dioxide (CO2). Imagine that a gallon of gasoline weighs between 5.93 to 6.42 lbs (depending on type, temperature, blend and other factors) and as it is burned most of it is converted into CO2 weighing between 5 and 6 lbs per gallon.

If this CO2 was a visible solid, you would have to constantly plow the roads as it would build up like snow in a blizzard. But as it is an invisible gas that floats away, nobody pays any attention to it.

Now imagine that worldwide we burn 80,000,000+ barrels (3,486,000,000+ gallons) (Note: The US uses approximately 25,000,000+ barrels or 1,050,000,000+ gallons) of oil per day and 90% - 95% of that becomes CO2.

That’s 20,916,000,000+ lbs. (Twenty Billion, Nine Hundred Sixteen Million Pounds per Day) of CO2 per day, an incredible amount of carbon that we expect the atmosphere to magically absorb. Again if this was a visible solid, we would be buried in a matter of weeks.

Now, I am a proponent of diesel engines, if for no other reason that they are far more efficient than gasoline engines (30+%). If the portion of this fuel that is refined into gasoline was instead refined into diesel you would reduce that consumption by 30+%.

If you capture CO2 from the atmosphere or better yet from the source and use it to grow algae or other plants, you are using photosynthesis to sequester this carbon. If that biomass is then converted into a biofuel and burned in efficient manner you have formed a closed loop where you can nearly stop the increase of carbon released into the environment.

I believe that short of someone developing cold fusion, the development of algae oil biofuels is our best choice for continued use of liquid fuels. This technology could be made commercially viable in just a few years and produce a high quality oil that could be converted into diesel and other fuels for about $20.00 per barrel. Even if I am wrong by 100%, the cost would still be where the cost of crude is today (02/25/2009).

These are things we need to be thinking about. What’s your opinion?

Diesel Doctor

Copyright 2009©- William Richards

Fuel Storage Tank Maintenance - Keep It Clean

Keep It Clean - Fuel Storage Tank Maintenance

Most owners and operators of fuel storage tanks do not understand that maintenance is required to safely and successfully operate fuel storage tanks.

We constantly hear that customers have tanks that have never been cleaned and worse yet, that they believe that they never need to check to see if they have any problems.

This is made even worse by the information that some fuel suppliers tell their customers; for example that it OK to have some water at the bottom of the tank.

Well here is some real world information for everyone on this subject.

Fuel Storage Tanks all require regular maintenance. They are designed with the pickup tube 3" to 6" from the tank bottom so that small amounts of water, sediment and other contaminants have a space they can settle out so that they will not be drawn into the vehicle or equipment tanks as fuel is pumped out. This water and sediment material will accumulate over time and will cause problems if not removed periodically.

Some will tell you that 1/2" or 1" or even 2" of water is alright, and they are flat out wrong. Every time fuel is transferred into that tank it stirs up all that material and it may take as long as a day for it to settle out again. In the meantime every tank you dispense fuel into gets some of this material.

If you have a steel tank that water is corroding your tank from the inside out and putting rust particles into your fuel. We often find above ground tanks only a few years old that have rusted from the inside to the point of leaking from water and sludge in the tank.

Many customers have electronic monitoring systems that provide constant readings showing fuel level, water level, and leak detection. Some of these customers will see 1/2" or a few gallons of water on these system and ignore it because they have been told it is not important.

One problem we see time and again is that the sensors on these monitoring systems fail and they don't tell you when they fail, they just go on showing the last reading forever. This goes on until they start pumping water into their equipment at which point someone checks the tank with a stick and water finding paste only find that they actually have several inches of water.

We have told all of our customers for many years that even though you have spent several thousand dollars for a state of the art monitoring system, you still need to have some one check every tank at least once a month with a stick and water finding paste.

And this rule should be written next to the monitor and maybe next to where you store the measuring stick: "The Only Acceptable Amount of Water in Any Fuel Storage Tank is ZERO (0)".

For those of your with in-ground steel tanks, these tanks have Sacrificial Anodes attached to them. These Anodes take the weak electrical current generated by the tank and pass it into the ground through them. This prevents the tank metal from corroding, however the Anode "Sacrifices" itself in this process. The Anode is used up over a period of time. When the Anode is "used up" the tank begins to corrode often very quickly. Tank owners should periodically check these Anodes and Replace them as necessary. In many states this is part of the required maintenance and testing procedures, however you should know this and check to be certain it has been properly done.

Caps, Sumps, and Vents should all be checked for integrity and to see that they are doing their intended job.

Fuel Storage is a vital link in getting clean fresh fuel safely and efficiently into vehicles and equipment. You have a big investment in the tank, its installation, and in the fuel in it. It only makes sense to properly maintain and protect this investment.

Today we have new challenges with Ultra-Low Sulfur Diesel (ULSD), Biodiesel, Gasohol, Conventional Gasoline, and Reformulated Gasoline containing any amount of Ethanol. These fuel products hold much higher levels of water and are much more corrosive than fuels we have traditionally dealt with. They require much higher levels of monitoring and maintenance to have a safe and trouble free delivery system.

We are happy to offer analysis and suggestions on how to operate and maintain your systems.

Please post your comments or questions here.

Diesel Doctor

Accidental Mixing of Gasoline and Diesel

Accidental Mixing of Gasoline and Diesel

Recently a customer of ours had a problem where their fuel supplier mistakenly unloaded 3000 gallons of ULSD#2 into their unleaded gasoline tank that contained about 700 gallons of gas.

When this happens there is very little that you can do beyond having the tank completely pumped out and then replacing the fuel.

Diesel in gasoline will generally cause the engine to either not start at all of run very poorly.

There is no acceptable amount of diesel in gasoline, although the engine will likely run if the amount of diesel is only 1 or 2% of total.

Gasoline in diesel is an equally serious problem. Even very small amounts (1%) can affect the flash point of the fuel significantly. This lowering of the fuels flash point can have catastrophic effects on the engine as it affects the fuels ignition and can also strip the lubricating ability of the diesel fuel, quickly damaging pumps and injectors.

In the past truck drivers would sometimes add a small amount of gasoline to their diesel fuel to try and prevent gelling. Many of these drivers feel that at long as the engine kept running it must be a good idea. It has never been a good idea for the reasons mentioned above and the fact that the engine kept running does not take into account increased wear and failures that happened days, weeks, or months later.

The addition of Ethanol to most gasoline available today simply makes using any amount of gasoline in diesel a very dangerous proposition.

In general, you should have this contaminated fuel taken away by a company licensed to handle it.

If you ever get gas in your diesel or diesel in your gas, the safest thing is to immediately without running the engine, have the tank drained and then replace with the correct fresh fuel.

Please let us know what you think and any experiences you may have had.

Diesel Doctor