Cleaning large industrial tanks is one of the most logistically challenging and resource intensive maintenance tasks facing process facilities. When tanks are tall, wide, and filled with chemical or product residue, traditional manual cleaning approaches are costly, time consuming, and often expose workers to hazardous conditions. Clean In Place (CIP) technology exists to solve exactly this problem, and when the tank dimensions are extraordinary, a custom engineered solution is essential.
Spray Nozzle Engineering was recently engaged by an engineering team in Western Australia to help design a custom CIP nozzle for a large scale tank cleaning application. The project is currently in its design phase, and the team has been impressed with the technical guidance and product knowledge Spray Nozzle Engineering has provided to support their planning.
Clean In Place (CIP) is a method of cleaning the interior surfaces of pipes, vessels, tanks, and associated equipment without disassembling the system. A CIP nozzle is the delivery mechanism, typically a specialised spray nozzle or rotating spray device, that distributes the cleaning chemical solution across all interior surfaces of a tank or vessel.
An effective CIP nozzle must be capable of delivering the chemical solution with sufficient force, coverage, and pattern to wet every surface inside the tank, including walls, the base, internal fittings, and the underside of the tank roof. In large tanks, this is a significant engineering challenge because the nozzle must project the solution over considerable distances while maintaining effective impact and coverage.
When correctly specified and installed, a CIP nozzle dramatically reduces the time, labour, chemical consumption, and water usage associated with tank cleaning, while also improving cleaning consistency and reducing the risk of cross-contamination between batches or products.
The Western Australian engineering team presented Spray Nozzle Engineering with a demanding application: a tank 15 metres in diameter and 30 metres in height. These are substantial dimensions that immediately rule out standard off-the-shelf CIP nozzles designed for smaller vessels.
For a tank of this scale, the CIP nozzle must be capable of:
The customer required a custom solution, one that could be precisely specified to suit the geometry and operating conditions of their tank, rather than an approximate fit from a standard product catalogue. This is exactly the type of application where Spray Nozzle Engineering's expertise in custom nozzle selection and application engineering adds the most value.
After reviewing the tank geometry, flow requirements, and cleaning objectives, Spray Nozzle
The BETE HydroWhirl Orbitor is a high-performance, motor-driven rotating tank cleaning nozzle engineered for large vessel cleaning applications. Unlike static spray balls that rely solely on liquid pressure and fixed spray patterns, the HydroWhirl Orbitor uses a self-contained gear-driven mechanism to rotate the spray jets in a full 360-degree pattern, both horizontally and vertically, achieving complete three-dimensional coverage of the tank interior.
Key performance features of the BETE HydroWhirl Orbitor that make it suited to this application include:
For a tank of 15 metres in diameter and 30 metres in height, the HydroWhirl Orbitor's ability to project high-impact jets across the full vessel geometry, combined with its thorough rotational coverage, makes it an ideal fit. The engineering team in Western Australia has been presented with detailed product data, performance specifications, and application guidance to support their design phase decision-making.
One of the most important roles that we provide for clients is during the design and specification phase of a project, before any equipment is purchased or installed. Getting the right CIP solution specified correctly from the outset prevents costly redesigns, inadequate cleaning performance, and unnecessary downtime later in the project lifecycle.
In this case, the client expressed that they were satisfied with the level of technical information provided and are confident that the BETE HydroWhirl Orbitor will suit their application as they progress through the design phase toward procurement and installation.
This kind of early-stage engagement is something SNE actively encourages. A well-specified CIP system is a long-term asset. Investing time in getting the selection right during design pays dividends throughout the operational life of the tank.
For process facilities handling chemicals, food and beverage products, pharmaceuticals, or any product where contamination or residue build-up is a concern, effective tank cleaning is not optional, it is a regulatory, safety, and quality requirement. CIP systems are the gold standard for achieving thorough, repeatable cleaning without the risks and inefficiencies of manual methods.
For large tanks in particular, a CIP system pays for itself quickly by reducing the labour, downtime, and chemical costs associated with cleaning operations that would otherwise require manual intervention or scaffolding.
Every tank cleaning application is different. Tank geometry, chemical compatibility, flow rates, operating pressures, and cleaning objectives all vary between facilities and applications. Spray Nozzle Engineering's expertise lies in understanding these variables and identifying the right nozzle and system configuration to meet each client's specific requirements.
Whether you are in the design phase of a new facility, upgrading an existing CIP system, or dealing with a tank cleaning challenge that standard products have failed to solve, our team is ready to help. We work with leading global nozzle manufacturers including BETE to source and specify products that perform in real-world industrial conditions.