Abstract
Due to the unique corrosion potential and safety hazards of carbon dioxide (CO), tubing leakage of CO in a CO injection well may occur and lead to undesired consequences to environment, human being and facility. As a result, quick detection of any carbon dioxide leakage and accurate identification of leakage location are extremely beneficial to obtain critical information to fix the leakage in a prompt manner, prevent incidents / injury / casualty, and achieve high standards of operational safety. Annular pressure monitoring has been identified as an effective and reliable approach for detecting tubing and casing leakage of fluids (including hazardous gas like CO) in a well. Accurate prediction of annular pressure change associated with the leakage will certainly help the operation. In an effort to assess annular pressure characteristics and thus improve understanding of tubing leakage, a multiphase dynamic modeling approach has been applied to simulate the carbon dioxide, completion brine and formation water’s flow and associated heat transfer processes along wellbore, tubing and annulus in carbon dioxide injection wells designed for carbon capture and sequestration (CCS) [1] projects. Two operational scenarios – one for routine CO injection and another for well shut-in – have been considered in the investigation. Key parameters that may have significant impacts on the process have been investigated. On the basis of the investigation, a novel approach has been proposed in the paper for quickly detecting the leakage of carbon dioxide in a CO injection well. Two simple equations have been developed to pinpoint the leakage location by means of real-time measurement and monitoring of the change in annular pressure. Recommendations based on a series of dynamic simulation results have been provided and can be readily incorporated into detailed operating procedures to enhance carbon dioxide injection wells’ operational safety.
Highlights
All well operations inherently carry an element of risk
Carbon dioxide (CO2) injection wells for carbon capture and sequestration (CCS) projects [1] may encounter additional and unique risks not normally experienced in conventional oil and gas field operations – potential exposure to CO2 at undesired high concentrations, which may lead to irreversible damage to environment, injury and cause casualty to human beings and animals
As has been shown so far in the present paper, depending on the leakage location, the tubing leak would potentially lead to an increase in the annular pressure at around 600 psi to 2000+ psi under the conditions investigated, all over a very short time period
Summary
Carbon dioxide (CO2) injection wells for carbon capture and sequestration (CCS) projects [1] may encounter additional and unique risks not normally experienced in conventional oil and gas field operations – potential exposure to CO2 at undesired high concentrations, which may lead to irreversible damage to environment, injury and cause casualty to human beings and animals. At normal atmospheric concentrations (around 0.037%) CO2 is nontoxic; as concentrations rise, adverse effects on the human body become progressively more noticeable and debilitating. Pulmonary (respiratory) and neurological functions are able to tolerate CO2 concentrations up to 1.5% for several hours without any ill effects. That level impairment of functions is progressive as the CO2 concentration continues to rise and length of exposure increases. Under an unfortunate circumstance of CO2 leakage, the CO2 concentration may reach and progress further beyond the limits in a short time
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
