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Contenuto archiviato il 2024-06-18

A Method for On-Line Cleaning of Heat Exchangers to Significantly Increase Energy Efficiency in the Oil, Gas, Power & Chemical Process Sectors

Obiettivo

Fouling of heat exchangers in refining industry crude oil preheat trains is a chronic operating problem that reduces heat transfer and energy recovery in these systems costing the industry $4.5 billion per annum. Eight percent of industrial plant operating costs may be attributed to heat exchanger fouling. Despite enormous costs associated with fouling, the industry relies on off-line cleaning because there are no on-line systems capable of operating under high temperature, low velocity conditions with chemically reactive fluids. The cost of taking plant off-line inevitably means that the heat exchanger operates at significantly less than peak efficiency. Our proposed solution is to develop an innovative projectile based on-line cleaning and injection system that will work under the required operating conditions to mitigate foulant build-up throughout the heat exchanger. Achieving our objectives will require research to formulate accurate correlations of foulant deposition rate as a function of geometry and operating conditions, the development of a composite projectile material to achieve the required mechanical properties and chemical stability as well as a projectile trajectory control system to deliver a uniform distribution of projectiles over the heat exchanger tube-face. Furthermore; ensuring that projectiles are propelled through the heat exchanger tubes in a low velocity regime will require us to devise a means to temporarily increase flow velocity through selected heat exchanger tubes. Research will concentrate on characterizing foulant deposition mechanism, structure and rate, projectile tribology as well as gaining a detailed understanding of heat exchanger fluid flow and its control. The proposed solution will provide the industry with significant energy savings of over 10% and reduce the CO2 foot print across a wide range of industrial sectors.

Invito a presentare proposte

FP7-ENERGY-2008-1
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Meccanismo di finanziamento

CP - Collaborative project (generic)

Coordinatore

THE UK INTELLIGENT SYSTEMS RESEARCH INSTITUTE LIMITED
Contributo UE
€ 736 007,00
Indirizzo
PERA BUSINESS PARK NOTTINGHAM ROAD
LE13 0PB MELTON MOWBRAY
Regno Unito

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Regione
East Midlands (England) Leicestershire, Rutland and Northamptonshire Leicestershire CC and Rutland
Tipo di attività
Private for-profit entities (excluding Higher or Secondary Education Establishments)
Contatto amministrativo
Andrew Dean (Mr.)
Collegamenti
Costo totale
Nessun dato

Partecipanti (4)