![]() ![]() Then install doppler-env in your local development environment or add it to the list of dev specific dependencies: pip install doppler-envįirst, define the DOPPLER_ENV environment variable in your IDE, editor, or terminal to trigger the injection of secrets: export DOPPLER_ENV = 1 Then authorize the Doppler CLI to retrieve secrets from your workplace by running: doppler login SetupĮnsure you have installed the Doppler CLI locally and have created a Doppler Project. Thanks to Python's Site configuration hook via a path configuration file, we can replicate the doppler run workflow by fetching the secrets via the Doppler CLI (recommended) or API and injecting into your Python application process prior to your code by being executed. At Doppler, we go to great lengths to prevent secrets ending up on developer's machines so downloading secrets to a. The Doppler CLI provides the easiest method of injecting secrets into your application: doppler run - python app.pyīut when debugging with P圜harm or Visual Studio Code, a vendor-specific Python entry-point is used, preventing the Doppler CLI from acting as the application runner. Well testing : multiphase flow meter would replace the mobile test separator for well testing.The doppler-env package automates the injection of Doppler secrets as environment variables into any Python application and works in the terminal, P圜harm, and Visual Studio Code. This device would tremendously improve reservoir management of subsea development, especially when subsea water injection wells are used for water drive recovery. Subsea flow meters would allow the operators to get a continuous flow measurement without interrupting or diverting the production. ![]() This technique is expensive and cannot provide a continuous measurement of each well stream. Offshore subsea : the sole current way to evaluate the well stream is to divert the production through a test separator on the host platform, this technique either interrupts the production of the surrounding wells or forces the operators to lay a test line parallel to the main production pipeline. Offshore topside : In replacement of test separators to reduce the volume and the weight of a topside. European certification - Test of feasibility of the flowmeter on the Trecate Field Such a tool may be instaled in the field through different scenarios : - Onshore : attached to the wellhead or at a wellhead manifold of a remote area which does not alllow or justify the installation of a test separator (environment restriction due to the impact of such an installation on the landscape, unmanned operation required, economics.). Manufacturing of several sets of microwave sensors - Test with the IFP loop in Solaize. Reengineering of the flowmeter to industrial standards and AGIP specifications to allow demonstration on TREACATE site. Continuous measurement of the well stream will bring to both reservoir engineers and exploitation engineers a powerful data acquisition tool which allows them to improve reservoir management and, as a consequence, profitability of the field. This device will allow a continuous measurement of the three phases without diverting or interrupting the production. The accuracy of measurement has to reach the oil companies' requirements. The aim of the project is to demonstrate that the flow measurement of the three phases (Oil, Water and Gas) in a multiphase conduit is possible through the use of the microwave imaging technique and ultrasonic Doppler effect. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |