The Barnett shale was considered to be a monster find at 2 to 5 MMcf/d

The first three wells by Petrohawk in the Bossier Elm Grove area were 16.7, 16.8 and 20.1 MMcf/d. Understand this! these wells have chokes. The volune is reduced by about 60% Do the math!

The first well (16.8) produced a average of 13.7 MMcf/d for the first thirty days.

Petrohawk hired a outside firm to access the amount of gas in that section.

Their findings were, if the gas was averaged thru the section there would be 170 BCF in that section.

How much is that? One well producing 15MMcf/d would take about 32 years to extract that much gas!

Of course they will use multible wells in each section. One well in that tight of a formation can't get to all of it.

They were very exicted to find the depth of the shale was about 250 feet.

What is the depth of the shale in South Caddo and North Desoto.
I'm hearing 1100 to 1400 thick!

For some strange reason the results for a number of wells are ready but have not yet posted results.

Did you here the one about the drillers are running out of money!

Both Cheasapeak and Petrohawk are offering stocks as I speak to fund the purchase additional land in the Haynesville shale.

If they don't have the money someone will!

30 to 60 days from now will be a new ball game!

Buck

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Do you really think so ? Too nice to be that other guy.
Now I am as lost as someone who just found out about the Haynesville Shale and wants to know how much their land is worth !
Spring Branch, ShaleGeologist or Les B:

You all appear to be knowledgable about the industry. I'm still trying to learn. Can any of you please explain what recoverable gas is and what a decline rate is? And can you explain it in such a manner that a dummy like myself can understand it? Any analogies or examples might be helpful.

I thank you for any information that you can provide.
OIl Neophyte, there are no dummies just good people like yourself trying to gain a better understanding.

A formation or reservoir like the Haynesville Shale has a volume of gas originally in place before any production occurs. For example a company estimates one section (1 square mile) of the HS contains 170 billion cubic feet of gas (Bcf). It is not possible to recover or produce the entire volume of gas so some gas is left behind. The recoverable gas or reserves are the portion that can be actually produced. Initially the O&G companies estimate how much they believe can be recovered. So in our example the company estimated it could recover 51 Bcf or 30% of the total original gas in place. These estimates can be revised up (or down) as more information is gathered.
Les B:

Thank you for taking the time to explain this to me. What I don't understand is this. If a section has 170 BCF and can only get out 51 BCF, then there is 119 BCF left in the ground. That is a lot of money being left down there.

Shouldn't they be able to get out at least 50% of the 170 BCF in the ground? One would figure that the pressure would be enough to push out the gas until the pressure evened out. I guess i look at it like this. I'm siphoning out of one 5 gallon gas can into another. When the gas can that I am siphoning into reaches 2.5 gallons, I cannot siphon any more into it. Doesn't oil and gas production work the same way?

Also, you had previous posted about decline curves. Is pressure, or loss thereoff, the reason that you see such a decline in the first year of production (65% I think you said).

Thanks.
its wise not to use real name on this site, but if it walks like a duck,etc..... then its the same ole Jim.
welcome back !
Jim Krow,
I know i am a dumbass, but you just referred to "tight gas sands". This is shale. Permeabilty in a shale is basically nothing, as you well know. Just my opinion.
Jim Krow (or whoever)),
Referring to your comment below mine., I knew you knew the deal, I just apparently missed your earlier post. Sorry. I know you know a lot about what you are talking about.
Oil Neophyte, as Jim K discusses the low porosity and permeability results in much lower recovery of the gas compared to traditional sandstone reservoirs. The 30% recovery level is probably conservative and I anticipate this number being higher (maybe as much as your 50%) as the companies learn more about the Haynesville Shale and develop better technology. Some gas is attached to the shale and is called the residual gas saturation. Continued high natural gas prices will definitely provide the incentive to maximize recovery.

There are several factors including loss of pressure that impact production decline. The initial production comes from the gas close to the fracture and does not have to travel far through the shale. As the well produces a longer period of time it is draining gas from a further distance from the fracture and has to travel through much more of the low permeability shale. There are others that are more knowledgeable than I on this topic.
O.K., you have all thoroughly confused me because I have no idea the difference between porosity and permiability.

What I still don't get is why can you only recover basically 1/3rd of the estimated gas in a section (51 bcf of 170 bcf). That means that there is still 2/3rds down in the ground. Why can't you get out at least 50%. Hasn't the oil industry by now built a huge Hoover Vaccum type machine that can just suck out the majority of the gas down there?

Like I previously posted, the O/G companies are leaving a lot of money down in the ground by extracting only about 1/3rd, more or less, of the gas that is down there.

Thanks for being patient with me and remember that I am a dummy when you reply, be sure use layman language.
Jim,

Thanks as usual for all of the helpful information that you bring to this site.
In layman's terms, porosity refers to the ability of the rock, lime, sandstone, etc to hold hydrocarbons. it is literally the pores in the rock. Permeability refers to the pores in the rock being connected to each other allowing the hydrocarbons to flow from one pore to the next, to the next, to the next and eventually to the well bore and up to the surface. Styrofoam would seem to be very porous, but because it lacks permeability, coffee cups don't leak.

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