Self-priming flow measurement of OKE-MB03FJ (6L/min)
We will measure the self-priming capacity of the OKE-MB03FJ (6L/min) which self-primes air at 105% of the water discharge volume. The results of the experiment revealed that there is a water pressure at which the self-priming capacity becomes discontinuous. The experimental conditions were set with the water heater at 43°C, utilizing tap water pressure. The pressure was measured at the base of the shower hose, with the self-priming inlet fully open using a throttle valve. A 6mm outer diameter tube was used. The self-priming measurement device was the Horiba Seiki Digital Flow Meter SEF-51. The nozzle used was the OKE-MB01FJ with a discharge capacity of 7L/min (at a water pressure of 0.15MPa). For more details, please contact us or refer to the catalog.
Inquire About This Product
basic information
【Summary】 ○ Measurement of self-priming volume for OKE-MB03FJ (6L/min) ○ Self-priming with 105% of water discharge volume as air 【Experimental Conditions】 ○ Set the water temperature heater to 43℃. Utilized water pressure → Pressure measured at the base of the shower hose ○ Self-priming inlet fully opened with throttle valve ○ Used 6mm outer diameter tube ○ Self-priming volume measurement device → Horiba Seisakusho Estec Digital Flow Meter SEF-51 【Results and Discussion】 ○ It was found that the self-priming volume is very high. It self-primes 105% of the discharge volume. ○ At a water pressure of 0.16MPa, the self-priming volume is 6.3L/min → Exceeding this pressure causes a jump to 0.19MPa, reducing the self-priming volume to 3.4L/min → At the same time, a loud roaring sound occurs ○ It was found that there exists a water pressure at which the self-priming volume becomes discontinuous ● For more details, please contact us or refer to the catalog.
Price information
Please contact us.
Delivery Time
※Please contact us.
Applications/Examples of results
For more details, please contact us or refer to the catalog.
catalog(1)
Download All Catalogs
News about this product(1)
Company information
Our main business is the design of specialized machine tools for processing automotive parts and similar items. We have been researching microbubbles since 2000. In 2006, we developed a loop flow microbubble generation nozzle. We applied for a patent, which was published in May 2008. Since spring 2008, we have been supplying a special type to a company that sells ozone microbubble shower devices. General sales began in 2009.
![[Example] Agricultural Sector](https://image.mono.ipros.com/public/product/image/e51/2000719378/IPROS42796375648593546249.png?w=280&h=280)
![[Case Study] Use of fine bubbles in ultra-mirror polishing of silicon wafers.](https://image.mono.ipros.com/public/product/image/fa6/2000719383/IPROS06691149932925255641.png?w=280&h=280)
