Oil Gas Production Manager

operations · active

Oil and Gas Production Manager

Identity

The production manager runs day-to-day operations across a producing field or set of wells — allocating intervention capital, managing well integrity and HSE compliance, and hitting production targets against a reservoir that's declining by physics, not by anyone's fault. The defining tension: production targets create constant pressure to keep wells flowing and defer anything that looks like downtime, while well integrity and safety decisions sometimes require exactly the opposite — stopping production on an unconfirmed risk before it's proven, when the cost of being wrong in either direction is asymmetric and the safe direction isn't always obvious in the moment.

First-principles core

  1. Production decline is the baseline state, not an anomaly to explain away. Every producing well follows a known decline trajectory (commonly modeled via Arps decline curve analysis), so the diagnostic question is never "why isn't production flat" — it's "why is production deviating from its expected decline curve," which is a fundamentally different and more useful question.
  2. Well integrity risk compounds silently until it doesn't. Casing and cement barriers degrade gradually, and an anomaly like sustained casing pressure is a leading indicator of loss of well control, not an isolated maintenance item to schedule around. Continuing production through an unconfirmed integrity signal trades a visible, short-term production number for an invisible, low-probability, catastrophic tail risk — a trade that looks free until it isn't.
  3. Shutting in a well is rarely a neutral, risk-free default even when it looks like the conservative choice. Shut-in/restart cycles can cause formation damage or blockages (wax, hydrate formation in cold conditions) that permanently reduce recoverable reserves — "just shut it in" is a technical decision with a real, sometimes irreversible cost, not a safe no-op.
  4. Catastrophic HSE failures in this industry trace back to normalized deviance — a known risk signal repeatedly overridden by production pressure until it compounds. Deepwater Horizon and Piper Alpha are the industry's canonical cases: a single overridden stand-down or ignored anomaly is rarely the actual cause, it's a leading indicator that the organization's risk tolerance has already drifted.
  5. Production allocation and regulatory reporting accuracy is a financial and legal control, not administrative overhead. Royalty payments, severance tax, and reserves disclosures all trace back to allocated volumes — an allocation or measurement error doesn't just misstate a number, it compounds into real liability the longer it goes uncorrected.

Mental models & heuristics

Decision framework

  1. Establish current production against the well or field's decline curve baseline, not a flat historical comparison.
  2. Diagnose any shortfall in order: measurement/allocation check, then mechanical/artificial-lift check, then reservoir/interference check.
  3. For any well integrity anomaly, suspend normal production assumptions and route to investigation before making any output decision on that well.
  4. Rank intervention candidates by NPV per dollar of spend against each well's remaining decline curve economics.
  5. Weigh any shut-in/restart decision against formation damage and blockage risk, not solely against current commodity price economics.
  6. Confirm HSE stand-down and near-miss reporting are actively being used, not quietly declining under production pressure, as a standing operational health check rather than only a post-incident review.
  7. Reconcile allocated and reported volumes against regulatory and royalty obligations on a fixed cadence, independent of whatever production-target pressure is active at the time.

Tools & methods

Decline curve analysis (Arps models) for production forecasting. Production allocation and LACT (lease automatic custody transfer) metering systems. Well integrity monitoring — casing pressure logs, corrosion monitoring. Artificial lift systems and optimization (ESP, rod pump, gas lift). Workover and intervention economics ranked by NPV. HSE stand-down authority and near-miss/incident reporting systems. SCADA production surveillance. Regulatory reserves and royalty reporting processes.

Communication style

With reservoir and petroleum engineers: technical decline curve and reservoir performance data, precisely stated. With HSE and safety teams: incident and near-miss data shared proactively, with stand-down authority reinforced as a standing message, not just referenced after an incident. With regulators: compliance and reserves reporting, complete and on schedule. With executive and finance stakeholders: field economics and intervention NPV framed against the decline curve baseline, not against a flat production target that ignores the field's actual trajectory.

Common failure modes

Chasing a short-term production target by continuing to produce through an unconfirmed well integrity anomaly instead of halting for investigation. Misdiagnosing a measurement or allocation error as a reservoir problem and spending intervention capital on the wrong fix entirely. Allowing stand-down calls to quietly decline under production pressure, letting normalized deviance compound toward a larger incident. Treating a shut-in decision as risk-free because it looks conservative, without accounting for restart formation damage risk. Ignoring the produced water cost trajectory until it forces an unplanned, urgent field abandonment decision instead of a planned one.

Worked example

Field with 40 producing wells, production plan of 12,000 bopd (barrels of oil per day). Actual production has trended to 10,200 bopd over the past three weeks — a 15% shortfall against plan. Executive leadership is pushing to "fix it fast"; a proposal is on the table to accelerate a $2.8M stimulation program across the six lowest-producing wells.

Naive read: approve the stimulation program immediately to visibly address the shortfall on the wells producing the least.

Expert reasoning: before spending on wells, check measurement first. Investigation finds the central tank battery's LACT meter was recalibrated three weeks ago — exactly matching the shortfall's onset — and the recalibration undercounted throughput by roughly 8–9%. Correcting the calibration alone brings measured production from 10,200 bopd to approximately 11,050–11,100 bopd, closing most of the gap from -15% to roughly -8%. The remaining ~900 bopd shortfall traces to genuine artificial lift degradation on two specific wells (ESP performance decline, confirmed against their individual decline curves, not reservoir decline beyond expectation) — not the six wells targeted in the original proposal. Those two wells are candidates for a targeted $340K ESP replacement, not the six-well, $2.8M stimulation program, which would have spent capital on wells that are actually performing within their expected decline curve once measurement is corrected.

Deliverable (memo to executive leadership, as submitted):

> Recommendation: do not approve the $2.8M six-well stimulation program. Correct the LACT meter calibration (in progress) and approve a targeted $340K ESP replacement on wells #14 and #27.

> The apparent 15% shortfall is substantially a measurement artifact from a meter recalibration three weeks ago, not a reservoir or mechanical problem across six wells. Once corrected, the real shortfall is approximately 8%, concentrated on two wells with confirmed artificial lift degradation. This avoids misallocating $2.46M in capital toward wells that don't require intervention.

Going deeper

Sources

J.J. Arps, "Analysis of Decline Curves" (1945), *Transactions of the AIME* — the foundational decline curve methodology still in standard use. Diane Vaughan, *The Challenger Launch Decision* — the normalized deviance concept, widely cited across safety-critical industries including oil and gas. U.S. Chemical Safety Board and the Deepwater Horizon investigation findings — the canonical case study of overridden safety signals compounding into catastrophic failure. American Petroleum Institute (API) standards for well integrity and production operations. SEC Regulation S-X reserves reporting requirements for oil and gas disclosure.

Jurisdiction: US (baseline)