Microstructural Characterization, Mechanical, Physical and Thermal Properties of a Diesel Particulate Filter

Açıkbaş, Nurcan Çalış; Türe, Yiğit; Gurlek, Emre; Özcan, Selçuk; Soylu, Seref; Açıkbaş, Gökhan; Gudu, Turker

doi:10.1007/s13369-017-2872-9

Cited by 13 publications

(5 citation statements)

References 20 publications

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“…When uncontrolled regeneration occurs, it will have a great thermal shock to the material. Calis Acikbas et al ( 2017 ) adjusted the thermal shock resistance number of theoretically dense SiC for DPF. They concluded that the elongated and aligned microstructure could be adjusted to increase the thermal conductivity of DPF materials and improved the resistance to thermal shock.…”

Section: Diesel Particulate Filter Regenerationmentioning

confidence: 99%

Diesel particulate filter regeneration mechanism of modern automobile engines and methods of reducing PM emissions: a review

Zhang

Dong

Lan

et al. 2023

Environ Sci Pollut Res

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Diesel particulate filter (DPF) is considered as an effective method to control particulate matter (PM) emissions from diesel engines, which is included in the mandatory installation list by more and more national/regional laws and regulations, such as CHINA VI, Euro VI, and EPA Tier3. Due to the limited capacity of DPF to contain PM, the manufacturer introduced a method of treating deposited PM by oxidation, which is called regeneration. This paper comprehensively summarizes the most advanced regeneration technology, including filter structure, new catalyst formula, accurate soot prediction, safe and reliable regeneration strategy, uncontrolled regeneration and its control methods. In addition, due to the change of working conditions in the regeneration process, the additional emissions during regeneration are discussed in this paper. The DPF is not only the aftertreatment device but also can be combined with diesel oxidation catalyst (DOC), selective catalytic reduction (SCR) and exhaust recirculation (EGR). In addition, the impact of DPF modification on the original system of some old models has been reasonably discussed in order to achieve emission targets.

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Section: Diesel Particulate Filter Regenerationmentioning

confidence: 99%

Diesel particulate filter regeneration mechanism of modern automobile engines and methods of reducing PM emissions: a review

Zhang

Dong

Lan

et al. 2023

Environ Sci Pollut Res

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“…Archimedes principle [ 35 ] was utilized to measure the porosity of C WCMs. The sample was boiled in boiling water for 1 h and then suspended in water to weigh.…”

Section: Methodsmentioning

confidence: 99%

Effects of Filling Rate and Resin Concentration on Pore Characteristics and Properties of Carbon Based Wood Ceramics

Guo

Gao

et al. 2021

Materials

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As a kind of novel porous ceramics, wood ceramics can be used for filtration, friction, energy storage and electrode materials, etc. In current work, the carbon based wood ceramics (C WCMs) was prepared using pine wood powder and phenolic resin as starting materials. The effects of filling rate of wood powder and resin concentration on pore characteristics and properties of C WCMs were characterized and analyzed with different techniques. Furthermore, the association among porosity of C WCMs, filling rate of wood powder and resin concentration was explored with multiple regression model. The results showed that: increasing the resin concentration and the filling rate of wood powder can improve the mechanical properties of C WCMs, but reduce the porosity and air permeability; when resin concentration is more than 50%, a large amount of caking will appear in the C WCMs, causing internal defects; changing the filling rate under a certain resin concentration can obtain the C WCMs with better pore structure; the porosity of C WCMs has a good linear relationship with resin concentration and filling rate, under the condition that sintering process and the size of wood powder are determined.

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“…55 , 56 One study shows that the pore sizes (4–5 µm) can be smaller than this study’s pore sizes (25–100 µm) and still achieve the desired pressure drops. 57 Another study found that pores of 20–50 µm would work well for diesel particulate filters with more open macroporosity and channels. 58…”

Section: Ceramic Filter Mediamentioning

confidence: 99%

“…55,56 One study shows that the pore sizes (4-5 µm) can be smaller than this study's pore sizes (25-100 µm) and still achieve the desired pressure drops. 57 Another study found that pores of 20-50 µm would work well for diesel particulate filters with more open macroporosity and channels. 58 The design of ceramic filter media is enhanced with additive manufacturing (AM) through increased surface area and inner channel networks affecting pressure drops.…”

Section: Ceramic Filter Mediamentioning

confidence: 99%

Recent developments in filtration media and respirator technology in response to COVID-19

et al. 2021

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The COVID-19 pandemic triggered a surge in demand for N95 or equivalent respirators that the global supply chain was unable to satisfy. This shortage in critical equipment has inspired research that addresses the immediate problems and has accelerated the development of the next-generation filtration media and respirators. This article provides a brief review of the most recent work with regard to face respirators and filtration media. We discuss filtration efficiency of the widely utilized cloth masks. Next, the sterilization of and reuse of existing N95 respirators to extend the existing stockpile is discussed. To expand near-term supplies, optimization of current manufacturing methods, such as melt-blown processes and electrospinning, has been explored. Future manufacturing methods have been investigated to address long-term supply shortages. Novel materials with antiviral and sterilizable properties with the ability for multiple reuses have been developed and will contribute to the development of the next generation of longer lasting multi-use N95 respirators. Finally, additively manufactured respirators are reviewed, which enable a rapidly deployable source of reusable respirators that can use any filtration fabric. Graphic abstract

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Microstructural Characterization, Mechanical, Physical and Thermal Properties of a Diesel Particulate Filter

Cited by 13 publications

References 20 publications

Diesel particulate filter regeneration mechanism of modern automobile engines and methods of reducing PM emissions: a review

Diesel particulate filter regeneration mechanism of modern automobile engines and methods of reducing PM emissions: a review

Effects of Filling Rate and Resin Concentration on Pore Characteristics and Properties of Carbon Based Wood Ceramics

Recent developments in filtration media and respirator technology in response to COVID-19

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