Rough production numbers.1 Oct 2025 09:17
So just from Jetstream 1 (we also have a second producer Jet 2, but these numbers are based off a single well) the value of Helium 3 would be as follows... credit to Chat GPT
Let's calculate how many grams of helium-3 (³He) you would have from 1.3 million cubic feet of raw gas at 15 parts per billion (ppb) concentration.
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✅ Assumptions:
15 ppb = 15 parts of helium-3 per 1,000,000,000 parts of raw gas by mass.
We're assuming 15 ppb refers to the entire raw gas, not just the helium portion.
We'll use standard temperature and pressure (STP) conditions to estimate gas mass.
1 mole of gas at STP occupies 22.4 liters = 0.0224 m³
Average molar mass of air is ≈ 29 g/mol (used to estimate raw gas mass)
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🔹 Step-by-Step Calculation:
1. Convert cubic feet to cubic meters
1 \text{ ft}^3 = 0.0283168 \text{ m}^3
1,300,000 \text{ ft}^3 = 1,300,000 \times 0.0283168 = 36,811.84 \text{ m}^3
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2. Estimate moles of gas at STP
\text{Moles} = \frac{36,811.84 \text{ m}^3}{0.0224 \text{ m}^3/\text{mol}} = 1,643,398.2 \text{ mol}
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3. Convert moles to mass of raw gas
Using molar mass of air ≈ 29 g/mol:
1,643,398.2 \text{ mol} \times 29 \text{ g/mol} = 47,668,548.8 \text{ grams}
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4. Apply 15 ppb helium-3 concentration
47,668,548.8 \text{ g} \times \frac{15}{1,000,000,000} = 0.715 \text{ grams of helium-3}
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✅ Final Answer:
From 1.3 million cubic feet of raw gas at 15 ppb, you would have approximately:
> 0.715 grams of helium-3 (³He)
So... 0.715g x 2 wells (jet 1 & jet 2) = 1.43g per day
1.43g per day x 330 days of production per year = 472g per year or $5.9m additional revenue stream ($12.5m * 0.472) from our already drilled production wells.
BB3
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