Common fouling removal practice includes taking the heat exchangers off-line and removing the tube bundle from the shell to clean the tubes. Fouling removal techniques are broadly classified in two categories, chemical and mechanical cleaning. Chemical cleaning is attempts to dissolve the fouling deposits by means of a chemical reaction with a specially engineered cleaning fluid. The potential for corrosion damage to the tubes themselves, the need for special handling of hazardous chemicals and the use of a complex procedure greatly limit the application of chemical cleaning techniques to 2%-5% of worldwide heat exchangers. Mechanical cleaning is the most widespread technique employed by the industry. In this approach, the deposits are removed by means of high-pressure water and steam deployed by lances and water guns. Currently, most of the global cleaning, revert to hand held water jet cleaning systems where human operators handle a water gun that blasts water at a pressure of 10,000 psi and volumes of 10 gallons per minute. This kind of manual water jetting involves a high number of injuries (the pressure required to penetrate the surface of the skin is just 100 psi two orders of magnitude less than the industry standard for cleaning).
In an attempt to enhance the safety levels of the water blast cleaning personnel, a number of automated bundle blasting systems have emerged. These systems are remotely operated so that the personnel can stay at a safe distance from the water jet. These systems are highly expensive, and they are still limited with respect to fouling removal.
Available water blasting systems can only remove fouling from the external part of the bundle leaving the internal part of the shell uncleaned achieving a maximum of 50% clean. In contrast with state-of- the-art systems that blast water from the outside of the bundle, ShellSideJet is able to clean deep inside the exchanger.
During ShellSideJet, we target to enhance our current system’s automation capabilities, allowing our operators to deploy ShellJeTT in a robotic mode. ShellSideJet is poised to have a tremendous impact in both economic and environmental terms; it will enable the oil refining industry to reduce operational costs by $2.46bn per year while reducing CO2 emissions by thousands of tonnes per year. Over a 5-year period after ShellSideJet's market launch we aim to increase our revenue and generate jobs. In Period 2, we have successfully validated ShellSideJet and demonstrated the system to industry.