TECHNOLOGY DEVELOPMENT FOR STRONG REDUCTION OF ENERGY CONSUMPTION AND CO2 EMISSION IN LIME AND CEMENT MANUFACTURE

TECHNOLOGY DEVELOPMENT FOR STRONG REDUCTION OF ENERGY CONSUMPTION AND CO2 EMISSION IN LIME AND CEMENT MANUFACTURE

The cement and lime industries are responsible for 8% of global CO2 emissions [1]. 35% of this CO2 share comes from fuel combustion to heat and decompose limestone to produce lime or “clinker” in an open atmosphere while the remaining 65% comes from limestone rock itself. Due to the new technology,...

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Main Authors: Villachica Carlos A., Villachica Joyce G.
Format: Article
Language:English
Published: VSB-Technical University of Ostrava 2017-09-01
Series:GeoScience Engineering
Subjects:
CO2 emission control
CO2 utilization
lime and cement manufacturing
carbonic fertilization
CO2 and microalgae growing
mechanochemical processing
Online Access:http://www.degruyter.com/view/j/gse.2017.63.issue-3/gse-2017-0011/gse-2017-0011.xml?format=INT
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spelling doaj-da188a3c66dc4e0ead6e23cfb14a3a142020-11-25T03:21:44ZengVSB-Technical University of OstravaGeoScience Engineering1802-54202017-09-016331710.1515/gse-2017-0011gse-2017-0011TECHNOLOGY DEVELOPMENT FOR STRONG REDUCTION OF ENERGY CONSUMPTION AND CO2 EMISSION IN LIME AND CEMENT MANUFACTUREVillachica Carlos A.0Villachica Joyce G.1Consulcont s.a.c. – Ciencia Activa, Dario Valdizan 118, Lima 31, PeruConsulcont s.a.c. – Ciencia Activa, Dario Valdizan 118, Lima 31, PeruThe cement and lime industries are responsible for 8% of global CO2 emissions [1]. 35% of this CO2 share comes from fuel combustion to heat and decompose limestone to produce lime or “clinker” in an open atmosphere while the remaining 65% comes from limestone rock itself. Due to the new technology, high grades of both lime and CO2 were obtained faster and at much lower than conventional temperatures and CO2 was fully captured and utilized when using an HEVA reactor for limestone calcination. Clinker, a precursor of cement, was partly obtained at lower temperature when starting from HEVA lime and fine quartz after mechanochemical pretreatment.http://www.degruyter.com/view/j/gse.2017.63.issue-3/gse-2017-0011/gse-2017-0011.xml?format=INTCO2 emission controlCO2 utilizationlime and cement manufacturingcarbonic fertilizationCO2 and microalgae growingmechanochemical processing
collection DOAJ
language English
format Article
sources DOAJ
author Villachica Carlos A.
Villachica Joyce G.
spellingShingle Villachica Carlos A.
Villachica Joyce G.
TECHNOLOGY DEVELOPMENT FOR STRONG REDUCTION OF ENERGY CONSUMPTION AND CO2 EMISSION IN LIME AND CEMENT MANUFACTURE
GeoScience Engineering
CO2 emission control
CO2 utilization
lime and cement manufacturing
carbonic fertilization
CO2 and microalgae growing
mechanochemical processing
author_facet Villachica Carlos A.
Villachica Joyce G.
author_sort Villachica Carlos A.
title TECHNOLOGY DEVELOPMENT FOR STRONG REDUCTION OF ENERGY CONSUMPTION AND CO2 EMISSION IN LIME AND CEMENT MANUFACTURE
title_short TECHNOLOGY DEVELOPMENT FOR STRONG REDUCTION OF ENERGY CONSUMPTION AND CO2 EMISSION IN LIME AND CEMENT MANUFACTURE
title_full TECHNOLOGY DEVELOPMENT FOR STRONG REDUCTION OF ENERGY CONSUMPTION AND CO2 EMISSION IN LIME AND CEMENT MANUFACTURE
title_fullStr TECHNOLOGY DEVELOPMENT FOR STRONG REDUCTION OF ENERGY CONSUMPTION AND CO2 EMISSION IN LIME AND CEMENT MANUFACTURE
title_full_unstemmed TECHNOLOGY DEVELOPMENT FOR STRONG REDUCTION OF ENERGY CONSUMPTION AND CO2 EMISSION IN LIME AND CEMENT MANUFACTURE
title_sort technology development for strong reduction of energy consumption and co2 emission in lime and cement manufacture
publisher VSB-Technical University of Ostrava
series GeoScience Engineering
issn 1802-5420
publishDate 2017-09-01
description The cement and lime industries are responsible for 8% of global CO2 emissions [1]. 35% of this CO2 share comes from fuel combustion to heat and decompose limestone to produce lime or “clinker” in an open atmosphere while the remaining 65% comes from limestone rock itself. Due to the new technology, high grades of both lime and CO2 were obtained faster and at much lower than conventional temperatures and CO2 was fully captured and utilized when using an HEVA reactor for limestone calcination. Clinker, a precursor of cement, was partly obtained at lower temperature when starting from HEVA lime and fine quartz after mechanochemical pretreatment.
topic CO2 emission control
CO2 utilization
lime and cement manufacturing
carbonic fertilization
CO2 and microalgae growing
mechanochemical processing
url http://www.degruyter.com/view/j/gse.2017.63.issue-3/gse-2017-0011/gse-2017-0011.xml?format=INT
work_keys_str_mv AT villachicacarlosa technologydevelopmentforstrongreductionofenergyconsumptionandco2emissioninlimeandcementmanufacture
AT villachicajoyceg technologydevelopmentforstrongreductionofenergyconsumptionandco2emissioninlimeandcementmanufacture
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