Engineering and technologies Dorr-Oliver FluoSolids® Systems The Dorr-Oliver FluoSolids® technology makes Technip a leading provider of fluid bed systems Technip profile Technip is a world leader in project management, engineering and construction for the energy industry. With a workforce of 40,000 around the world, we constantly offer the best solutions and most innovative technologies to our clients to meet the world’s energy challenges. We operate in three main businesses: Subsea Offshore Onshore In subsea hydrocarbon development, Technip’s activities include the design, manufacture and installation of rigid and flexible subsea pipelines and umbilicals. Thanks to its portfolio of technologies and industrial and operational assets, Technip offers a unique vertically integrated model in the industry. In the Offshore business segment Technip performs engineering, procurement, construction, installation, commissioning and the refurbishment/upgrading of offshore facilities for the oil and gas industry. Technip covers the full range of onshore facilities for the oil and gas chain, petrochemicals and other energy industries (nuclear, renewables including biofuels and offshore wind). It holds many proprietary cuttingedge technologies and is the leader in the design and construction of LNG and gas treatment plants as well as ethylene, hydrogen and syngas units. The Group has 3 flexible pipe manufacturing plants, 4 umbilical production units, 9 logistics and pipeline assembly bases, and 1 construction yard. Technip’s worldwide leadership is supported by a modern fleet of vessels for subsea construction, pipelay development (rigid and flexible pipes using S-Lay, J-Lay or Reeled technology) and heavy lift applications. 2 Technip provides these services for fixed platforms in shallow water with conventional sub-structures and self-installing platforms such as the TPG 500 and for deepwater facilities including Spar, semi-submersible, TLP, FPSO and FLNG units. Technip is a world leader in floatover installation of topsides and its R&D effort is focused technology transfer for local content and new frontier areas such as ultra-deepwater and the Arctic. Technip is also one of the key actors in refining and petrochemical units, and has developed a leadership position in the fertilizer industry. Moreover, the Group is very active in non-energy activities such as mining and metals, life sciences, buildings and infrastructures. Dorr-Oliver FluoSolids® Systems Technology history 50 t/d Arseno-pyrite roaster, Australia 88 t/d Arseno-pyrite roaster, Australia The Dorr-Oliver FluoSolids® technology makes Technip a leading provider of fluid bed systems, with nearly 1,000 reference projects. The technology was developed over a 70-year period with a wide range of applications in the metallurgical, chemical and waste processing industries. It started with Dorr-Oliver in 1943 with the first commercial installation in 1947. Then in 1997, Dorr-Oliver sold its know-how and assets related to fluidized bed systems and equipment, known by the trademark FluoSolids® to Kinetics Technology International (KTI). In 2000, KTI merged with Technip, who has continued to develop the FluoSolids® technology in order to offer modern fluidized bed systems for roasting, calcining, incineration, and a host of other applications to customers worldwide. In 2012, Technip Stone & Webster Process Technology was created and is the exclusive provider of FluoSolids technology. More than 310 roaster systems for metallurgical applications, as well as sulfur dioxide and sulfuric acid manufacture More than 100 calcining systems More than 270 drying systems More than 90 fluid bed solids preheaters and calcine coolers More than 200 incineration systems, both municipal and industrial Main features Chemical and thermal efficiency Simple start-up and shut-down Uniform solids temperature in the bed Variable solids retention time Vertical, cylindrical design for efficient space utilization Low operating cost No internal moving parts Long refractory life Low maintenance costs Simple controls 1,650 t/d Phosphate rock calciner, Morocco Dorr-Oliver FluoSolids® Systems 3 Roasting systems The world's first commercial fluidized bed roasting system was a FluoSolids® unit designed to treat gold-bearing sulfide ore. The technology continued to develop under Dorr-Oliver and now Technip to include a vast array of roasting process applications and reactor designs. Roaster with slurry feed Roasting applications 2 x 3850 MTPD nickel ore roasters, Koniambo, New Caledonia Commercial FluoSolids® roasters have been designed and supplied to implement the following processes: Two-stage roasting of refractory gold ore using pure oxygen (Freeport process) CFB roasting of refractory gold ore Two-stage roasting of gold-bearing arseno-pyrite concentrates for arsenic and sulfur removal Partial roasting of copper and nickel sulfides for sulfur control in smelting Dead roasting of pyrite, pyrrhotite, zinc, nickel and other sulfides Sulfation roasting of Cu and Cu/Co sulfides (RLE processes) Reduction roasting of iron ores and nickel laterite ores Chlorination roasting of copper ores (TORCO process) Operating Advantages Ease of operation High reliability Low operating and maintenance costs Flexible designs for various roasting applications Features of a FluoSolids® roaster system Nearly 1,000 units installed worldwide 4 Dorr-Oliver FluoSolids® Systems FluoSolids® roaster systems incorporate the right combination of design features, specific to the application. Each roaster system is tailored to the specific process requirements and solids handling characteristics. FluoSolids® systems have incorporated the following design features: Cyclone, bag filter and hot ESP dust collection Direct quench and fluid bed calcine coolers with heat recovery Fluidized feed distributors for bone dry feed Slinger-belt feeders for filter cake feed Slurry distributors and in-bed slurry injection Direct in-bed injection of liquid, gas and solid fuels In-bed steam coils for temperature control and heat recovery Exhaust gas waste heat boilers Calcining systems The multi-compartment FluoSolids® reactor usually consists of a reaction bed and one or more heat exchange beds for heat recovery. Multi-compartment calciner In a typical 3-stage unit as illustrated here, hot gases from the main calcining compartment are used to dry and preheat calciner feed. Fuel is directly injected into the reaction compartment, where temperature and atmosphere are closely controlled. Finally, heat is recovered from hot product solids and used to preheat the fluidizing air. Auxiliary vessels, such as fluid bed spray coolers or indirect coolers may be used to further cool product solids for ease of handling. Applications Multi-compartment FluoSolids® reactors have been successfully employed in the following applications: Limestone calcining Calcium and magnesium sulfite decomposition Foundry sand calcining Ilmenite roasting Phosphate rock calcining Fireclay calcining Lime mud calcining and pelletization Alumina and bauxite calcination Iron ore preheating Iron ore reduction (hematite to magnetite) Manganese oxide reduction 4 x 1,500 t/d Phosphate rock calciner, USA Dorr-Oliver FluoSolids® Systems 5 Combustion systems Technip is a world leader in FluoSolids® combustion technology with more than 200 installations worldwide, spanning the municipal, refining, petrochemical, food, pharmaceutical and pulp/paper industry sectors. Combustion system Combuster, USA Features The fluid bed with its homogeneous temperature, high turbulence and long residence time performs exceptionally well for the combustion of sludges, waste oils, waste chemicals, solid wastes and other hazardous wastes. Total systems are available from feed to stack including ash dewatering and heat recovery. All combustion systems are designed to specific application and process requirements and solids handling characteristics. FluoSolids® systems for the municipal and industrial waste sectors have these integrated features designed into each plant: Efficient combustion with low excess air Lower temperature operations for equivalent combustion results Reduced air emissions Flexibility of operation Simplicity of control Lower staffing requirements Lower maintenance and operating costs Lower total system capital costs Applications Technip is the world's most qualified supplier of fluidized bed waste combustion systems. Installation capacity ranges from 2 to 200 million BTU per hour feed input. Municipal sludges - primary, secondary Petroleum wastes Pharmaceutical sludge Pulp and paper deinking sludge Automobile manufacturing waste Food wastes Livestock waste Chemical process waste 6 Dorr-Oliver FluoSolids® Systems Circulating fluid bed (CFB) systems As gas velocities increase, more fluidized solids are carried upward in the reactor and the boundary between the bed and freeboard zones becomes less distinct. Circulating fluid bed A dense phase of coarse solids is created in the lower zone of the reactor followed by a dilute phase of upwardly moving particles in the upper zone. A majority of the solids exit the reactor with the exhaust gases and are collected and re-circulated via a cyclone. Advantages Improved reaction kinetics Greater range of gas turndown capability Higher throughput per unit area Additional capabilities Fluid bed dryers Technip can design and supply fluid bed dryers for a multitude of applications. Dryer systems can be configured for direct heating, indirect heating with bed coils, or as a dryer-cooler combination. Applications have included: Limestone and Dolomite Phosphate Rock Potash Sulfide concentrates Sand and Flux Slag Alumina Coal and Coke Uranium Ore Plastics and Chemicals Catalyst 4,500 t/d CFB gold ore roaster in Mali, West Africa Heat recovery & gas cleaning High temperature exhaust gases provide the possibility of heat recovery. Technip has provided heat recovery systems of flue gas to air, flue gas to water and flue gas to steam via water tube or fire tube waste heat boilers. Every fluid bed produces a carry-over of solids and gaseous products in the gas stream. Technip designs proprietary cyclones and venturi scrubbers for solids recovery and emission control. Dorr-Oliver has also provided multiple component custom-designed emission trains to meet the most stringent environmental air regulations. A plumeless stack appearance can also be obtained using flue gas heat recovery. Special exothermic applications have coils in the fluid bed for steam generation. Pilot scale testing Technip routinely conducts pilot plant testing of fluid bed processes to support equipment design, scale-up, and process guarantees. This testing offers the following advantages: Determine process feasibility Optimize product quality Define gaseous emissions Prove destruction and removal efficiency Establish design parameters for commercial design 120 t/h sand dryer system, Sweden Refinery waste incinerator, USA Dorr-Oliver FluoSolids® Systems 7 HEADQUARTERS Technip 89 avenue de la Grande Armée 75773 Paris Cedex 16 France Phone: +33 (0)1 47 78 24 00 CONTACTS USA Brent SCHIER Technip Stone & Webster Process Technology 1430 Enclave Parkway Houston, Texas 77077 USA Phone: +1 281 848 5234 Fax: +1 281 575 6653 e-mail: [email protected] Kevin O’MALLEY / Eric ECCLESTON Technip Stone & Webster Process Technology 555 West Arrow Highway Claremont, California 91711 USA Phone: + 909 447 3600 Fax: + 909 447 3704 e-mail: [email protected] e-mail: eeccleston@technip,com BRAZIL Valfredo SANTOS / Lorena DIDIER Technip Rua da Glória, 178 20241-180 Glória Rio de Janeiro - RJ – Brazil Tel:. +55 (21) 2139 7000 Fax: +55 (21) 2139 8452 e-mail: [email protected] e-mail: [email protected] www.technip.com This document is the property of Technip and is not intended to be a binding contractual document. Any information contained herein shall not result in any binding obligation on the part of Technip, or any of its affiliates, and is provided for information purposes only. Technip - Group Communications - November 2014 - Photo credits: Technip - Page 2: Harry Gruyaert & Jean Gaumy / Magnum Photos.
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