Conferencia Internacional de Producción y Uso Sostenible del Cemento y Hormigón

Conferencia Internacional de Producción y Uso Sostenible del Cemento y Hormigón

Considerations for the energy balance and preliminary design of an experimental LC3 Cement Pilot Plant

Resumen [ES]

Associated with cement manufacturing processes, large amounts of carbon dioxide (CO2) are released into the atmosphere, it is estimated that between 0.65 - 0.90 tons of CO2 are emitted per ton of cement manufactured. By 2050, the demand for this binder is expected to exceed 5,000 million tons, which would contribute to an increase of more than 3% of emissions.

However, the emissions can be reduced by using supplementary cementitious materials (SCM), in this sense the calcined clays have a great potential for the reduction of emissions in the manufacture of cement, has been studied in recent years’ low carbon cement or LC3, developed by a joint team of the University of Lausanne and the Central University of Las Villas. The main results are the expansion of production by achieving clinker substitutions of up to 50%.

In this sense, the Center for Research and Development of Technologies and Materials (CIDEM) in conjunction with the company IPIAC-NERY has committed to the development of a small pilot plant that makes the manufacture of limited quantities of LC3, which allows the study of the process by interacting different sources of raw materials.

In this paper some calculations were for designing a pilot plant, taking into account the balance of mass and energy necessary for its proper functioning, which in turn allows to specify the technology for the scaling of the production in any new industrial plant or adaptation of capacities installed

Resumen [EN]

Associated with cement manufacturing processes, large amounts of carbon dioxide (CO2) are released into the atmosphere, it is estimated that between 0.65 - 0.90 tons of CO2 are emitted per ton of cement manufactured. By 2050, the demand for this binder is expected to exceed 5,000 million tons, which would contribute to an increase of more than 3% of emissions.

However, the emissions can be reduced by using supplementary cementitious materials (SCM), in this sense the calcined clays have a great potential for the reduction of emissions in the manufacture of cement, has been studied in recent years’ low carbon cement or LC3, developed by a joint team of the University of Lausanne and the Central University of Las Villas. The main results are the expansion of production by achieving clinker substitutions of up to 50%.

In this sense, the Center for Research and Development of Technologies and Materials (CIDEM) in conjunction with the company IPIAC-NERY has committed to the development of a small pilot plant that makes the manufacture of limited quantities of LC3, which allows the study of the process by interacting different sources of raw materials.

In this paper some calculations were for designing a pilot plant, taking into account the balance of mass and energy necessary for its proper functioning, which in turn allows to specify the technology for the scaling of the production in any new industrial plant or adaptation of capacities installed

Sobre el ponente

Dr. Ing. Ivan Machado

Dr. Ing. Ivan Machado

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Información Práctica
No definido
30 minutos
No definido
Autores
Dr. Sc. Ing. Martirena
Dr. Ing. I. Moya
MSc F. Bacallao
Palabras clave
clay
energy
low carbon cement
mass