Industry News

In the installation, commissioning, maintenance and upkeep of industrial fluid systems (such as pumps, valves, pipelines, heat exchangers and other equipment), the flushing plan is a core process to remove impurities (weld slag, rust, dust, oil stains) in the system and ensure the safe operation of equipment. This article focuses on the most commonly used plans in the industrial field: Plan 1, Plan 11, Plan 53A, and Plan 53B, and elaborates on them from dimensions such as applicable scenarios, core principles, operation procedures, key parameters, and precautions, balancing technical professionalism and practical guidance to meet the application needs of pumps, valves, seals and other equipment.

In chemical plants, refineries, and pharma facilities, it’s no exaggeration to say that 8 out of 10 pump failures—from minor leaks to full shutdowns or even safety incidents—trace back to one thing: a poorly chosen mechanical seal flushing plan.

Having worked in chemical plants for more than ten years, I have seen too many cases of midnight rush repairs and production shutdowns for rectification due to wrong pump selection. Especially for API OH3 vertical chemical process pumps, many people think: "It's just a pump; as long as the flow rate is sufficient and the head meets the standard, it's fine." But the reality is that the operating conditions are much more complex. Today, combining the mistakes I've made and the problems I've helped customers solve, I'll talk about how to choose a truly reliable API OH3 pump for your factory.

In harsh working conditions such as petrochemical and high-temperature fluid transfer, the stability of OH centrifugal pumps (compliant with API 610 standards) is crucial. As a core mounting method, centerline mounting is widely used in heavy-duty OH2/OH3 pump models. What makes this design unique?

If you work in industries like chemical, petrochemical, power, or water treatment, you’ve probably heard of the OH6 centrifugal pump. It’s not a new device, but a classic industrial pump designed in accordance with API 610 standards—featuring reliable structure and easy maintenance, it’s particularly suitable for continuous transfer tasks involving medium-high pressure and medium flow.

Centrifugal pumps are one of the most commonly used equipment in fluid transfer. Although there are many types, as long as you grasp several key dimensions, you can quickly determine which application a pump is suitable for. Based on five core standards—working pressure, impeller water intake method, pump casing joint form, pump shaft position, and impeller discharge method—this article helps you clarify the characteristics and typical application scenarios of different types of centrifugal pumps.