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STET Triboelectrostatic separation has been used for the commercial beneficiation of coal combustion fly ash to produce a low carbon product for use as a cement replacement in concrete for nearly 20 years….
Descarregar PDFF. Hrach, S. Gasiorowski, H.Guicherd
ST equips & Tecnologies LLC (STET), 101 Hampton avinguda, Needham MA 02494 EUA
CONFERENCE: Vietbuild Ho Chi Minh City – juny 2015
PARAULES CLAU: Triboelectrostatic, Beneficiation, Dry Fly Ash, Carbon Separation ABSTRACT
STET Triboelectrostatic separation has been used for the commercial beneficiation of coal combustion fly ash to produce a low carbon product for use as a cement replacement in concrete for nearly twenty years. With 18 separators in 12 coal-fired power plants across the world, ST equips & Tecnologia LLC (STET) patented electrostatic separator has been used to produce over 15 Million tonnes of low carbon product.
To date, commercial beneficiation of fly ash has been performed exclusively on dry “run of station” ash. STET’s electrostatic beneficiation technology reduces the carbon content of coal fly ash, producing consistent, low carbon ash for use as a substitute for cement. Fly ash with carbon levels up to 25% have been used to produce ash with a controlled carbon level of 2 ± 0.5%. A carbon-rich product is simultaneously produced to recover the fuel value of the carbon.
INTRODUCCIÓ
L'Associació Americana de carbó cendra (ACAA) enquesta anual de producció i ús de cendres de carbó que entre els informes 1966 i 2011, sobre 2.3 billion short tons of fly ash have been produced by coal-fired utility boilers.1 Of this amount, aproximadament 625 milions de tones s'han utilitzat junts, principalment per a la producció de ciment i formigó. No obstant això, the remaining 1.7+ billion tons are primarily found in landfills or filled ponded impoundments. While utilization rates for freshly generated fly ash have increased considerably over recent years, with current rates near 45%, aproximadament 40 million tons of fly ash continues to be disposed of annually. While utilization rates in Europe have been much higher than in the US, considerable volumes of fly ash have also been stored in landfills and impoundments in some European countries. An excessive amount of unburned carbon in fly ash is the most common problem. The American Association of State Highway and Transportation Officials (AASHTO) and European Standards (EN 450 Category A) require that the amount of unburned carbon in fly ash, measured by loss on ignition (LOI) not exceed 5% by weight. No obstant això, starting in the mid-1990s, installation of mandated NOx control equipment at coal-fired power plants increased the carbon (LOI) content of much of the previously marketable fly ash. Further requirements to reduce NOx and other power plant emissions have resulted in the contamination of fly ash with ammonia. As a consequence, while understanding the benefits of using fly ash in concrete continues to increase, the availability of suitable quality fly ash is decreasing. Processes to economically beneficiate off-quality fly ash are thus also of increasing interest to the power and concrete industries. STET has pioneered such processes for both carbon and ammonia removal from fly ash.
TECHNOLOGY OVERVIEW – FLY ASH CARBON SEPARATION
In the STET carbon separator (Figura 1), the material is fed into the thin gap between two parallel planar electrodes. The particles are triboelectrically charged by interparticle
contacte. The positively charged carbon and the negatively charged mineral (in freshly generated ash that has not been wetted and dried) són atrets a davant elèctrodes. The particles are then swept up by a continuous moving belt and conveyed in opposite directions. El cinturó mou les partícules adjacents a cada elèctrode cap a extrems oposats del separador. L'alta velocitat del cinturó també permet rendiments molt alts, fins a 36 tones per hora en un únic separador. Del buit, high voltage field, countercurrent flow, vigorous particle-particle agitation and self-cleaning action of the belt on the electrodes are the critical features of the STET separator. Controlant diversos paràmetres del procés, Com la velocitat del cinturó, the feed point, i la taxa d'alimentació, el procés STET produeix cendres de mosca LOI baixes a un contingut de carboni inferior a 1.5 a 4.5% from feed fly ashes ranging in LOI from 4% per sobre 25%.
Figa. 1 STET Separator
El disseny de separador és relativament senzilla i la compacta. Una màquina destinada a processar 36 tones per hora és aproximadament 9 m (30 peus.) llarg, 1.5 m (5 peus.) àmplia, i 2.75 m (9 peus.) alta. El cinturó i rodets associats són les úniques parts en moviment. Els elèctrodes són estacionaris i formada per un material durable adequadament. The belt is made of nonconductive plastic. Tracta de consum d'energia del separador 1 quilowatts-hora per tona de material processat amb la major part de la potència consumida per dos motors que condueixen el cinturó.
El procés és totalment sec, requires no additional materials other than the fly ash and produces no wastewater or air emissions. The recovered materials consist of fly ash reduced in carbon content to levels suitable for use as a pozzolanic admixture in concrete, and a high carbon fraction useful as fuel. La utilització d'ambdós fluxos de productes proporciona un 100% Solució als problemes d'eliminació de cendres volants.
RECOVERED FUEL VALUE OF HIGH-CARBON FLY ASH
In addition to the low carbon product for use in concrete, brand named ProAsh®, the STET separation process also recovers otherwise wasted unburned carbon in the form of carbon-rich fly ash, branded EcoTherm™. EcoTherm™ té valor significatiu de combustible i fàcilment pot tornar a la planta d'energia elèctrica utilitzant l'STET EcoTherm™ Sistema de devolució per reduir l'ús de carbó a la planta. Quan EcoTherm™ es crema a la caldera d'utilitat, the energy from combustion is converted to high pressure /high-temperature steam and then to electricity at the same efficiency as coal, típicament 35%. The conversion of the recovered thermal energy to electricity in ST Equipment & Technology LLC EcoTherm™ Return system is two to three times higher than that of the competitive technology where the energy is recovered as low-grade heat in the form of hot water which is circulated to the boiler feed water system. EcoTherm™ is also used as a source of silica and alumina in cement kilns, displacing the more expensive raw materials, such as shale or bauxite, which are used in cement production. Utilizing the high carbon EcoTherm™ ash either at a power plant or a cement kiln, maximizes the energy recovery from the delivered coal, reducing the need to mine and transport additional fuel to the facilities.
STET’s Talen Energy Brandon Shores, SMEPA R.D. Demà, NBP Belledune, RWEnpower Didcot, EDF Energy West Burton, and RWEnpower Aberthaw fly ash plants, all include EcoTherm™ Return systems. The essential components of the system are presented in Figure 2.
Figa. 2 EcoTherm™ Return system
STET ASH PROCESSING FACILITIES
Controlled low LOI fly ash is produced with STET’s technology at twelve power stations throughout the U.S., Canadà, the U.K., Polònia, La República de Corea. ProAsh® fly ash
has been approved for use by over twenty state highway authorities, Així com moltes altres agències d'especificació. ProAsh® també ha estat certificat sota l'Associació Canadenca d'Estàndards i EN 450:2005 Estàndards de qualitat a Europa. Ash processing facilities using STET technology are listed in Table 1.
Taula 1. STET Commercial Operations
| Utilitat / Power Station | Ubicació | Start of Commercial operations | Facility Details |
|---|---|---|---|
| Duke Energy – Roxboro Station | North Carolina EUA | Sept. 1997 | 2 Separadors |
| Energia de Talen - Brandon Shores Station | Maryland EUA | Abril 1999 | 2 Separadors 35,000 ton storage dome. Ecotherm™ Return 2008 |
| ScotAsh (Lafarge / Scottish Power Joint Venture) - Estació de Longannet | Scotland Regne Unit | Octubre. 2002 | 1 Separador |
| Jacksonville Electric Authority - St. John’s River Power Park, FL | Florida EUA | Maig 2003 | 2 Separadors Coal/Petcoke blends Ammonia Removal |
| South Mississippi Electric Power Authority R.D. Demà Station | Mississippi EUA | Gener. 2005 | 1 Separador Ecotherm™ Return |
| New Brunswick Power Company Belledune Station | Nou Brunswick, Canadà | Abril 2005 | 1 Separador Coal/Petcoke Blends Ecotherm™ Return |
| RWE npower Didcot Station | England Regne Unit | Agost 2005 | 1 Separador Ecotherm™ Return |
| Talen Energy Brunner Island Station | Pennsylvania EUA | Desembre 2006 | 2 Separadors 40,000 Ton storage dome |
| Tampa Electric Co. Big Bend Station | Florida EUA | Abril 2008 | 3 Separadors, double pass 25,000 Ton storage dome Ammonia Removal |
| RWE npower Aberthaw Station (Lafarge Cement UK) | Wales Regne Unit | Setembre 2008 | 1 Separador Ammonia Removal Ecotherm™ Return |
| EDF Energy West Burton Station (Lafarge Cement UK, Cemex) | England Regne Unit | Octubre 2008 | 1 Separador Ecotherm™ Return |
| ZGP (Lafarge Cement Poland / Ciech Janikosoda JV) | Polònia | Març 2010 | 1 Separador |
| Korea South-East Power Yeongheung Units 5&6 | Corea del Sud | Setembre 2014 | 1 Separador Ecotherm™ Return |
| Lafarge Cement Poland Warsaw | Polònia | 2016 | 1 Separador |
CONCLUSIONS
Maximizing the utilization of fly ash as a cement substitute in concrete production substantially reduces the carbon dioxide emissions associated with construction activity. No obstant això, pollution control systems implemented by the coal-fired power stations have resulted in a reduction of available fly ash meeting concrete-grade specifications. Further degradation of fly ash quality is expected due to further reductions in allowable gas emissions. In order to avoid loss of this valuable resource of material for concrete production as well as reduction of greenhouse gas emissions associated with concrete construction, processes for restoring the quality of the fly ash in an economic and environmentally viable way are needed.
The beneficiation of fly ash with STET processes further increases the supply of this important material. The STET beneficiation processes continue to be the most extensively applied methods to upgrade otherwise unusable fly ash to high-value materials for cement replacement in concrete. Eighteen SETT carbon separators are currently in place with over 100 machine-years of operation.
ProAsh® has found wide acceptance in the concrete industry as a premium fly ash requiring far less monitoring of air entrainment requirements due to less LOI variability than other ashes. Returning the high-carbon concentrate from the STET process to the boiler at a power plant allows recovery of the recovered carbon fuel value at an efficiency similar to coal. STET offers economical means to recover ash for high-value use that would otherwise be landfilled. Electrostatic carbon separation and Ecotherm™ return to the boiler provide a modular solution to a utility’s fly ash needs. These processes can be implemented in phases, or as a single project.
REFERENCES
[1] American Coal Ash Coal Combustion products and Use Statistics:
https://www.acaa-usa.org/Publications/Production-Use-Reports/
