Nozzles to use when converting oil furnaces to used oil

Every time that summertime is on its conclusion, there are things to be done. And of late, our nearby piece yard has been overflowing with old oil-consuming heaters. While other occupants are supplanting oil burners with modern heat pumps, brainy manufacturers and tradesmen are reusing the old hardware. And albeit huge numbers of these machines are completely working, almost certainly a considerable lot of it ends up at the landfill. Other people convert oil furnaces to used oil. So what nozzle should you use for this? There are several types of nozzles around the globe with different uses. And the most appropriate for the said conversion is the Siphon Nozzle. Learn more about it!

Made out of 416 stainless steel and metal stem, Siphon Air Atomizing Nozzle delivers fine, strong cone splash output by consuming low air. Innovation works by blending air and fuel, which are independently directed to the nozzle. Power of air pressure blends with fuel inside the nozzle chamber to make matching whirl of air and fuel that meets through the opening. 

A nozzle is a tool intended to control the bearing or qualities of a liquid stream – particularly to build speed, as it exits or enters an encased chamber or pipe. It is regularly a pipe or container of different cross-sectional parts. And it very well may be utilized to coordinate or change the progression of a liquid – fluid or gas. Nozzles are as often as possible used to control the pace of stream, speed, bearing, mass, shape, and additionally the weight of the flow that rises out of them. In a nozzle, the speed of liquid increments to the point of its pressure energy. 

Innovative Nozzles Perfect for Used-oil Applications

If you are looking for the best brand of nozzle perfect for your used-oil operation, Hago Manufacturing Co, Inc. is recommended. They are the leader in the progression of oil nozzle innovation. They have presented a nozzle for the ignition of waste oil and other variable waste oil items – the Siphon Air Atomizing Nozzle. 

Hago Siphon Nozzle is perfect for applications that require the best spray particles at lower air forces. Utilizing low air consumption, Hago Siphon Nozzle creates a strong cone splash design that is very fine. This nozzle is intended for the ignition of fuel oils and pre-warmed fuel oils. 

It is made out of solid materials, for example, 416 Stainless Steel and a Brass Stem. Hago Siphon Nozzles is a phenomenal choice for applications where the fills are unreasonably thick for direct pressure atomizing nozzles. 

The Siphon Nozzles

HAGO’s cutting edge innovation works by blending air and fuel, which are independently and accurately steered to the nozzle. The power of air pressure blends with the fuel inside the nozzle chamber to make a uniform twirl of air and fuel that joins through the opening giving fine atomization. 


Hago Siphon Nozzles are perfect for applications requiring the best splash at low air pressure. Ordinary applications incorporate the ignition of waste oil and other reused oil items. These nozzles can likewise be utilized in lamp fuel warming applications. The Siphon nozzle creates an incredibly fine strong splash design. This can be cultivated utilizing low air pressures and low ignition air extending the application potential outcomes. This air atomizing spout is perfect for #1, #2 and #4 fuel oil applications and furthermore has the capacity of atomizing pre-warmed #5 and #6 oils. The nozzle additionally functions admirably in applications where the fuel being used is unreasonably thick for direct pressure atomizing nozzle to atomize appropriately. Indeed, if an adequate air source is joined with the nozzle, you can accomplish even better atomization and higher ignition efficiencies. As designed, this innovation works by blending air and fuel, which are independently and unequivocally steered to the nozzle.

The energy of the air force personally blends the air and fuel in an accuracy blending chamber inside the nozzle. This makes a uniform twirl of air and fuel as the blend is constrained through the opening. The subsequent strong splash pattern is finely atomized for productive burning. Given the structure and nature of air atomizing spouts, stream rates, splash edges and level of atomization can be influenced and changed by varieties inside the application. Air velocity and lift will likewise affect spray points and stream rate.

Application and Features of Hago Siphon Nozzles

  • Typical applications for Waste oil burners, lamp oil radiators 
  • Operates well with most waste oils 
  • Multiple fuel-grade capacities 
  • Lower CFM blower prerequisites 
  • Low air pressure abilities 
  • Excellent atomization 
  • Efficient ignition results 

Nozzles: For Steam Application

Nozzle is a channel by coursing through which the speed of liquid increments to the detriment of pressure drops. On the off chance that the liquid is steam, at that point the nozzle is known as Steam nozzle. 

The progression of steam through nozzle might be taken as an adiabatic extension. The steam possesses an extremely high speed toward the part of the bargain, and the enthalpy diminishes as extension happens. Friction appears between the steam and the sides of the nozzle. Heat is delivered as the consequence of the protection from the stream. The wonder of supersaturation happens in the steam course through the nozzle. This is a direct result of the time slack in the buildup of the steam during the development. 

The zone of such duct having least cross-segment is known as the throat. A liquid is known as compressible if its thickness changes with the adjustment in pressure achieved by the stream. In the event that the thickness changes a little or does not change, the liquid is said to be incompressible. In average, the gases, and vapors are compressible, though fluids are incompressible. 

Types of Steam Nozzles

Convergent Nozzles


In this nozzle, the cross-sectional areas diminish constantly from its passage to exit. It is utilized for a situation where the backpressure is equivalent to or more than the critical pressure proportion. 

Divergent Nozzles


The cross-sectional region of the unique nozzle increases consistently from its passage to exit. It is utilized for a situation where the back pressure is less than the critical pressure proportion.

Convergent – Divergent Nozzles


In this condition, the cross-sectional region first diminishes from its passage to the exit. And after that, it increases from the passage to the exit. This case is utilized for the situation where the back weight is less than the basic pressure. Additionally, in the present-day application, it is broadly utilized in numerous sorts of steam turbines. 

Impact of Friction on Nozzles 

  1. Entropy is expanded. 
  2. Accessible energy reduces. 
  3. The velocity of the stream at the throat reduces.
  4. The volume of flowing steam is diminished. 
  5. Throat zone that needs to release a given mass of steam is expanded. 

Nozzles: Industrial Application

Axial Flat Fan Nozzle

These are one of the most widely recognized spouts being used today and are accessible in numerous materials and various spray points. The pattern formulated by this kind of nozzle is gathering the liquid in a slender line. The effect of this spray is high when contrasted with full or empty cone splash designs. The bead sizes created by this sort of nozzle are bigger than cone nozzle, albeit fine droplet flat fans can be delivered by some air atomizing level fan nozzle. 

Axial Stream Full Cone Nozzle 

This type of nozzle has incredible exceptional uniform fluid dissemination over the entire round impact region. The liquid circulation, splash edges and droplet sizes stay predictable. The high accuracy of appropriation is accomplished by situating the fluid channel to the central point of the whirl chamber of the nozzle. Axial Stream Full Cone Nozzle is accessible with various shower points and in many stream rates.

Hollow Cone Nozzle

 It produces a particularly fine, atomized fluid stream, with spray patterns described by a ring-molded impact section. These nozzles are perfect for spray applications, for example, gas cooling, circulating air through, dust control, and splash drying. Every single other factor being equivalent, hollow cone spouts produce the smallest normal droplet sizes of any absolutely water-driven nozzles. 

Compressed Air Nozzles 

It essentially decreases compressed air utilization and clamor, contrasted with open nozzles planes. With expanded pressure in the work spot to both diminish clamor and air use. 

Pneumatic Atomizers 

It serves to stir up pressurized air or gas together with a fluid provided under pressure to the nozzle, by utilizing the gravity fluid falling framework under the gravitational power. They give the best reachable fluid item atomization with the plausibility of delivering very fine beads having a minimal distance across of around 10 microns. 

Bottom Line

It is essential to know the various sorts of the nozzle and their capacities, in light of the fact that picking an inappropriate shower nozzle can be an expensive error. Inappropriate nozzle determination can be costly if re-splashing is required or execution is diminished. The expense of supplanting nozzles is minor contrasted with the outcomes of poor performance. The nozzles you select will decide the measure of chemical covered to a zone, consistency of the application and inclusion of the substance on the objective surface. 



You May Also Like