TBM Desanding Plant parts|tbm desanding

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On October 9, 2024, desanding plants were highlighted for their crucial role in the oil and gas industry. These plants play a pivotal role in the separation of fine particles from water, ensuring the efficiency and longevity of equipment. TBM desanding plants are particularly known for their use of gravity separation, hydrocyclones, and filtration systems to achieve optimal results. In this article, we will delve into the various parts that make up a TBM desanding plant and their functions in the desanding process.

Manage construction mud with KES Separation's shield tunneling desanding plant, also known as TBM or piling desanding plant. Ideal for various construction projects, this system ensures mud recycling, reduces costs, and minimizes environmental impact while enhancing drilling efficiency.

TBM Desanding Plant Overview

TBM desanding plants are essential components in the petroleum industry, especially during drilling operations. These plants are designed to remove sand, silt, and other fine particles from drilling mud or wastewater, preventing damage to downstream equipment and ensuring environmental compliance. The efficient operation of a TBM desanding plant relies on the seamless integration of various parts, each serving a specific purpose in the desanding process.

Hydrocyclones

Hydrocyclones are integral components of TBM desanding plants, responsible for the initial separation of solids from the water stream. These cyclonic separators utilize centrifugal force to separate particles based on their size and density. As water enters the hydrocyclone, it is forced to rotate rapidly, causing heavier particles to move towards the outer wall and exit through the underflow. Lighter particles, on the other hand, are carried towards the center and discharged as overflow. Hydrocyclones play a critical role in the efficient removal of sand and solids from the water, ensuring the downstream equipment is protected from abrasive wear.

Filtration Systems

In addition to hydrocyclones, filtration systems are employed in TBM desanding plants to further refine the water quality. Filtration units typically consist of various filter media, such as sand filters, cartridge filters, or multimedia filters, that trap remaining particles suspended in the water. These filters are designed to capture fine particulates that may have evaded the initial separation process, ensuring the water meets the required quality standards before being discharged or recycled. Filtration systems are essential in maintaining the efficiency of the desanding plant and minimizing the environmental impact of discharged water.

Gravity Separation

Gravity separation is another key aspect of TBM desanding plants, where the force of gravity is utilized to separate solids from the water stream. In gravity separation units, such as settling tanks or clarifiers, water containing suspended solids is allowed to stand still, allowing gravity to pull the heavier particles to the bottom of the tank. The clarified water is then collected from the top of the tank and further processed through hydrocyclones and filtration systems for additional purification. Gravity separation plays a crucial role in the primary removal of larger particles, facilitating the subsequent stages of the desanding process.

Control System

Desanding plants are employed to remove soil partcles in drilling muds and support slurries used in foundation engineering. They can be either water-bentonite, water-polymere, or water-cement and bentonite suspensions.

For screw conveyor design purposes, conveyed materials are classified in accordance with the code system shown in Table A. This system conforms to that of the Conveyor Equipment Manufacturers Association (CEMA) which ranks each material in 5 categories. Table B lists the codes for many materials that can be effectively conveyed by a screw conveyor.

TBM Desanding Plant parts|tbm desanding