Enwere ọtụtụ ihe ị ga-atụle mgbe ị na-ahọrọ otu axial split case pump na impeller n'ụzọ ziri ezi. 

Nke mbụ, anyị kwesịrị ịma ebe ọ dị mkpa ka ebufe mmiri mmiri na ebe ọ na-erute. Nchikota nke isi na eruba chọrọ ka a na-akpọ ebe ọrụ. Ebe ọrụ metụtara kpọmkwem geometry impeller achọrọ. Ngwa nwere mgbapụta kwụ ọtọ ogologo (isi elu) chọrọ ndị na-eme ihe na-eme ka dayameta mpụta buru ibu karịa ngwa nwere mgbapụta kwụ ọtọ (pumping).

Another consideration that is directly related to impeller size is the expected solids content in the application. Many applications have a variety of solids in the pumped media. These solids can range from small abrasive debris such as sand or metal shavings to fine fibrous materials to large solids the size of a baseball or larger. The pump and impeller selected must be able to pass these solids while avoiding clogging and damage from wear. Additional consideration must also be given to the equipment downstream of the axial split case pump. While a pump can be selected to pass a specific type of solids, it cannot be assumed that the downstream piping, valves, and other process equipment will have the same solids handling capabilities. Knowing the expected solids content in the liquid is critical not only to selecting the right size pump and impeller, but also to selecting the impeller style that best suits the application.

Otu n'ime ihe ndị siri ike na-ejikarị eme ihe bụ impeller na-emeghe. A na-ejikarị ihe mgbochi a eme ihe na nsị na mmiri na-ekpofu mmiri ma nwee geometry nke na-agụnye akụkụ n'etiti agụba na akụkụ oghere chere ihu n'ọnụ ụzọ. Oghere dị n'etiti agụba na-enye ụzọ dị mma maka onye na-eme ihe iji mee ka ihe ndị na-abata na-abata site na oghere mmịpụta impeller na volute na n'ikpeazụ site na mgbapụta mgbapụta.

Nhọrọ ọzọ maka ijikwa ihe siri ike bụ vortex ma ọ bụ impeller recessed. Ụdị impeller a na-agbanye n'ime ihe mkpuchi (na-emepụta nnukwu oghere dị n'etiti onye na-emepụta ihe na ọdụ ụgbọ mmiri) ma na-eme ka mmiri na-emegharị site na vortices kere site na ntụgharị ngwa ngwa nke impeller. Ọ bụ ezie na usoro a adịghị arụ ọrụ nke ọma, ọ na-enye ọtụtụ uru maka nkwụsị siri ike. Uru ndị bụ isi bụ ohere buru ibu na obere ihe mgbochi na ụzọ siri ike.

Pumps used at high altitudes have their own set of solids handling considerations. Since these applications typically use smaller piping, the solids passage size of the entire system must be considered, not just the pump. Typically, the axial split case pump manufacturers offering high-pressure pumps will include a strainer at the inlet to prevent large solids from entering the pump. 

This is ideal for high-pressure applications where minimal solids are expected, but can cause clogging if enough solids accumulate around the screen surface.

There are many factors to consider when choosing the right axial split case pump and impeller, and understanding the various styles of pumps and impellers is often one of the most critical steps.