| name | neqsim-reservoir-depletion-screening |
| version | 0.1.0 |
| description | Educational reservoir tank-depletion vs time screening with gas/oil and water-cut evolution. USE WHEN: a task needs a public, screening-level pressure-decline and production profile over time from a recoverable volume and offtake rate before detailed NeqSim SimpleReservoir or reservoir-engineering modelling. |
| last_verified | 2026-06-24 |
| requires | {"python_packages":[],"java_packages":[],"env":[],"network":[]} |
Reservoir Depletion Screening
Use this skill for a quick, public screening of how a reservoir develops with
time. Given a recoverable volume, an offtake rate, and an initial and
abandonment pressure, it produces a year-by-year profile of reservoir pressure,
cumulative production, recovery factor, water cut, and hydrocarbon/water rates.
It is intentionally simple and should guide users toward the validated NeqSim
SimpleReservoir tank model (runTransient) and the NeqSim MCP runReservoir
workflow for real depletion behaviour.
When to Use
- When a user wants a first look at how reservoir pressure declines over field life.
- When an early production/decline profile is needed before a reservoir model exists.
- When an agent needs an upstream "reservoir vs time" feed for a production-routing
or arrival-pressure screening chain.
Inputs
fluid_type: gas or oil.
initial_pressure_bara: reservoir pressure at start of production.
abandonment_pressure_bara: pressure at which production stops (screening).
recoverable_volume_sm3: recoverable hydrocarbon volume at standard conditions.
offtake_rate_sm3_per_day: constant screening offtake (hydrocarbon) rate.
years: number of years to simulate.
time_step_years: time-step size (default 1.0 year).
initial_water_cut_fraction: water cut at start (default 0).
water_cut_rise_per_year: linear water-cut rise per year (default 0).
Outputs
steps: per-step year, pressure_bara, cumulative_production_sm3,
recovery_factor, water_cut_fraction, hydrocarbon_rate_sm3_per_day,
water_rate_sm3_per_day, and depleted flag.
final_pressure_bara, final_recovery_factor.
plateau_years: years before production can no longer be sustained (or None).
years_to_abandonment: first year the reservoir reaches abandonment (or None).
depletion_warning: ok, watch, or high.
neqsim_available: whether the optional NeqSim package is importable.
assumptions: public assumptions and required follow-up.
Engineering Method
Reservoir pressure declines linearly with recovery factor between the initial
and abandonment pressure: P = Pi - (Pi - Pabn) * (Gp / Vrec). Cumulative
production Gp accrues at the constant offtake rate each step until the
recoverable volume is reached or the abandonment pressure is hit. Water cut
follows a supplied linear trend, and the water rate is derived from the
hydrocarbon rate and the water-cut fraction. The verdict is high once the
reservoir is depleted, watch past a configurable recovery-factor threshold,
otherwise ok.
This skill performs no PVT, aquifer, injection, or coning physics. It is a
transparent placeholder that must be replaced by a validated NeqSim reservoir
tank model for any quantitative use.
Python Usage Pattern
from reservoir_depletion_screening import ReservoirDepletionModel
model = ReservoirDepletionModel()
result = model.evaluate(
fluid_type="gas",
initial_pressure_bara=300.0,
abandonment_pressure_bara=80.0,
recoverable_volume_sm3=20.0e9,
offtake_rate_sm3_per_day=8.0e6,
years=15,
initial_water_cut_fraction=0.05,
water_cut_rise_per_year=0.03,
)
for step in result.steps:
print(step.year, step.pressure_bara, step.recovery_factor, step.water_cut_fraction)
print(result.depletion_warning)
Validated NeqSim Path
This screening is a placeholder. For real reservoir-vs-time behaviour use:
- NeqSim
SimpleReservoir with addGasProducer / addOilProducer /
addWaterInjector / addGasInjector and a runTransient(deltat) time loop.
- NeqSim MCP
runReservoir for an orchestrated reservoir tank simulation.
- The enterprise
well-production-routing-agent for live-data, IPR + tubing,
and Beggs & Brills arrival modelling.
Escalation
Escalate any watch or high verdict, and any quantitative use, to a validated
NeqSim reservoir model and qualified reservoir-engineering review.
Validation Checklist
Common Mistakes
| Symptom | Cause | Fix |
|---|
| Unrealistic result | Inputs outside the screening range | Keep inputs within the stated bounds |
| Misused for design | Screening output taken as final | Escalate to validated NeqSim models |
Limitations
- Educational screening only; not a validated design method.
- No confidential data or proprietary methods are included.
- Escalate any quantitative or design use to validated NeqSim workflows.
References