Application of Sayong Ball Clay Membrane Filtration for Ni (II) Removal from Industrial Wastewater

Noor, Shazia; Ahmad, Norulhusna; Khattak, Muhammad Adil; Khan, Muhammad Suleman; Mukhtar, Anique; Kazi, Suhail; Badshah, Saeed; Khan, Rafiullah

doi:10.1016/j.jtusci.2016.11.005

Cited by 22 publications

(9 citation statements)

References 19 publications

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“…The successful of ceramic membrane in many industrial applications, such as the application of microfiltration in the bacteria removal from food and dairy products (Tomasula et al, 2011), juice clarification (Nandi et al, 2009), hot gas filtration (Li et al, 2011) and the filtration of fermentation broths in the biotechnology and pharmaceutical applications (Waszak and Gryta, 2016) nowadays, attracts much attention in the membrane technology development. Also, ceramic membrane has become a great interest to be the alternative treatment of the wastewater included, pollution treatment from industrial area; separation of oily wastewater (Madaeni et al, 2012;Fazullin et al, 2015), removal of heavy metal content in industrial effluent (Noor et al, 2017) and treatment of textile mill (Barredo-Damas et al, 2012). Table 5 summarizes some applications of ceramic membrane in the water and wastewater treatment based on type of membrane, commercial or fabricated membrane and main material used either natural or commercial clay.…”

Section: Application Of Ceramic Membrane In the Water And Wastewater ...mentioning

confidence: 99%

“…Several studies investigating the ceramic membrane have been carried out on the application of industrial wastewater (Noor et al, 2017;Ebrahimi et al, 2016;Almandoz et al, 2015). A recent study by Noor et al (2017) elaborated the ceramic membrane filtration based on Sayong ball clay which is obtained from Sayong District in Perak State, Malaysia, for nickel removal from industrial wastewater. Around 82 % to 89 % of nickel was efficiently rejected.…”

Section: Application Of Ceramic Membrane In the Water And Wastewater ...mentioning

confidence: 99%

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Review on natural clay ceramic membrane: Fabrication and application in water and wastewater treatment

Azaman¹,

Nor²,

Abdullah³

et al. 2021

Mal. J. Fund. Appl. Sci.

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Membrane technology is important in industrial wastewater and water treatment. Recently, the polymeric membrane technology is widely chosen in these applications. However, they are lowtemperature ranges, low corrosion resistance, and low lifespan. Thus, researchers are actively trying to develop a better membrane technology such as natural clay ceramic membrane due to their excellent in chemical, mechanical and thermal resistance, high-pressure application and long lifespan. This detailed review compiles through the literature of current scientific research over the last ten years. Its highlights the key findings of factors in the fabrication of natural clay ceramic membrane that contributed to its properties. This review article presented an outline of the advantages, disadvantages, and how to overcome the disadvantages, structure, and preparation of ceramic membrane, including method, raw materials, drying and sintering temperature. The review confirmed that the sintering temperature, the composition of raw materials and pore-forming agent are significantly enhanced the mechanical strength and porosity of the natural clay ceramic membrane. However, further development and modification of the natural clay ceramic membrane technology and their applications to treat different environmental pollutants is still necessary.

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Section: Application Of Ceramic Membrane In the Water And Wastewater ...mentioning

confidence: 99%

Section: Application Of Ceramic Membrane In the Water And Wastewater ...mentioning

confidence: 99%

Review on natural clay ceramic membrane: Fabrication and application in water and wastewater treatment

Azaman¹,

Nor²,

Abdullah³

et al. 2021

Mal. J. Fund. Appl. Sci.

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“…In general, heavy metals can kill fish and accumulate in the fish body through the skin surface and biomagnification. Fish that accumulate heavy metals when consumed will inhibit enzymatic processes (Ismail & Moustafa, 2016; E.. Prasetiyono & Syaputra, 2018), damage the central nervous system, kidneys, liver, and reproductive system (Noor et al, 2019). In water that has a low pH, fish will experience damage to the gills, skin and eyes (Becker et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

“…Minimizing heavy metals can be done by membrane filtration, electrodialysis, chemical precipitation, exchange, ions, and adsorbs (Ahalya et al, 2003;Ismail & Moustafa, 2016;Kiswanto, Susanto, et al, 2020;Kiswanto et al, 2021). Heavy metal removal can also be done by coagulation, fluctuation, flotation, electrochemical treatment, ion chelating (Noor et al, 2019). In this study, heavy metal reduction using humic acid will be utilized.…”

Section: Introductionmentioning

confidence: 99%

Ability of Humic Acid in the Absorption of Heavy Metal Content of Lead and Iron in Fish Culture Media

Kiswanto¹,

Wintah²

2023

J. Ecol. Eng.

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The young coal mining pits (young pits) found in West Aceh cause many problems. These pits that form ponds have the potential to be utilized for aquaculture activities. However, the main problem faced in the young pits is the high content of heavy metals. This makes the ponds dangerous for fish farming. Hazardous heavy metals in coal mines are Pb and Fe. Humic acid is one of the materials that can be used to minimize heavy metals and increase water pH. The use of humic acid is more efficient because this technology is easy and cheap and the raw materials are abundant. Humic acid acts as a substance of cation exchange ability found in compost. This research has a long-term goal of making humic acid contained in compost as an alternative material that can minimize heavy metals Pb and Fe, so that it can be used for fish farming activities. The specific objective is to determine the best capacity (dose of humic acid) in minimizing heavy metals and increasing the pH of young pond water in former mines and its effect on fish farming. This research method used a completely randomized design consisting of one factor, namely the dose of humic acid (0 g/L, 2.5 g/L, 5 g/L, 7.5 g/L) and three replications. The results showed that humic acid was able to minimize the content of heavy metals Pb and Fe in coal mine water with the best dose of 5 g/L. The percentage reduction produced was more than 90%. The results of fish rearing using ex-mining pond water treated with humic acid showed that the survival rate and growth rate of fish were higher.

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“…O lançamento de efluentes sem tratamento adequado ou parcialmente tratado, em corpos receptores, representa uma potencial fonte de contaminação ambiental, pois estas águas residuárias podem conter elevada carga orgânica e nutrientes, hidrocarbonetos, metais pesados e compostos traços, potencializando processos de eutrofização e problemas de ordem sanitária, ambiental e econômica (Marcogliese et al, 2015;Regan, 2016;Uslu et al, 2016;Ben et al, 2017;Edokpayi et al, 2017;Noor et al, 2017). O tratamento primário e secundário de efluentes é capaz de eliminar em torno de 90% a 99,9% dos microrganismos entéricos.…”

Section: Introductionunclassified

Métodos físicos e químicos para o tratamento de efluentes

Ferrazzo¹,

Ferasso²,

Marangoni³

et al. 2018

Rev. Bras. Gest. Amb. Sustent.

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A busca por processos de tratamento de efluentes que sejam eficientes e garantam a segurança à saúde pública e ao meio ambiente tem sido um grande desafio nas últimas décadas, devido à presença de microrganismos persistentes e micropoluentes orgânicos e inorgânicos que resistem aos tratamentos convencionais. Assim, as tecnologias alternativas de tratamento de efluentes vêm sendo aplicadas em associação aos tratamentos primários e secundários, para alcançar maiores reduções da carga de poluentes, utilizando menor espaço físico e consumo de energia elétrica, bem como menor produção de lodo. Neste trabalho, buscou-se realizar um estudo da arte através de uma revisão dos métodos físicos e químicos para o tratamento de efluentes: membranas de filtração, eletrocoagulação, adsorção, troca iônica, processos oxidativos avançados, ozonização e precipitação química, considerando o princípio de funcionamento suas vantagens, desvantagens e aplicações de cada técnica.

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Application of Sayong Ball Clay Membrane Filtration for Ni (II) Removal from Industrial Wastewater

Cited by 22 publications

References 19 publications

Review on natural clay ceramic membrane: Fabrication and application in water and wastewater treatment

Review on natural clay ceramic membrane: Fabrication and application in water and wastewater treatment

Ability of Humic Acid in the Absorption of Heavy Metal Content of Lead and Iron in Fish Culture Media

Métodos físicos e químicos para o tratamento de efluentes

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