2019
DOI: 10.1016/j.scitotenv.2019.03.337
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Progressive utilisation prospects of coal fly ash: A review

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Cited by 407 publications
(176 citation statements)
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“…), bricks, hollow bricks, as a bulk and filling material, and as a material for improving building soils. The properties of fly ashes are determined by many factors, the most important of which include: Type of coal burnt; type of installation in which coal is burnt, i.e., boiler type; method of fuel preparation and technological conditions of combustion; method of ash capture, removal, and storage; and technology for removing harmful SO 2 and NO x oxides emitted from flue gases to the atmosphere [4][5][6][7][8].…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…), bricks, hollow bricks, as a bulk and filling material, and as a material for improving building soils. The properties of fly ashes are determined by many factors, the most important of which include: Type of coal burnt; type of installation in which coal is burnt, i.e., boiler type; method of fuel preparation and technological conditions of combustion; method of ash capture, removal, and storage; and technology for removing harmful SO 2 and NO x oxides emitted from flue gases to the atmosphere [4][5][6][7][8].…”
Section: Introductionmentioning
confidence: 99%
“…The assessment of the possibility of using fly ash containing ammonia is very important as its outcome will affect the possibility of further safe use of fly ash as a component of construction products in sustainable construction [1,8].…”
mentioning
confidence: 99%
“…Åêñïëóàòàö³ÿ òåïëîâèõ åëåêòðîñòàíö³é (ÒÅÑ/ÒÅÖ), ùî âèêîðèñòîâóþòü ÿê ïàëèâî êàì'ÿíå âóã³ëëÿ, ïîâ'ÿçàíà ç óòâîðåííÿì ³ íàêîïè-÷åííÿì âåëèêî¿ ê³ëüêîñò³ çîëè òà øëàê³â, ïîäàëüøå âèêîðèñòàííÿ ÿêèõ ó ð³çíîìàí³òíèõ òåõíî-ëîã³ÿõ ³ ãàëóçÿõ íàðîäíîãî ãîñïîäàðñòâà òà îáðîáêà ç ìåòîþ çàïîá³ãàííÿ çàáðóäíåííÿ íàâêîëèøíüîãî ñåðåäîâèùà º íàäçâè÷àéíî àêòóàëüíîþ ³ âàaeëèâîþ ïðîáëåìîþ [1][2][3][4].…”
Section: âñòóïunclassified
“…Fly ash obtained from coal combustion is frequently used in concrete as a cost-effective substitute for Portland cement [5]. Like most common industrial by-products, fly ash is a complex anthropogenic material, and processing it prevents many problems, like the toxicity caused by the presence of various organic and inorganic compounds derived from the type of coal used [8]. This material is a mix of oxides rich in silicon (SiO 2 ), iron (Fe 2 O 3 ), and aluminum (Al 2 O 3 ) [9].…”
Section: Introductionmentioning
confidence: 99%
“…Compared to 2005 when fly ash production was around 500 million tons, fly ash production increased to 750 million tons in 2015 [10,11]. This enormous amount of produced fly ash presents a major ecological threat connected to storage and disposal [8]. The utilization of fly ash as a filler for epoxide resin is a topic dealt with by many authors all over the world.…”
Section: Introductionmentioning
confidence: 99%