Study the Thermal Behaviours for Asphalt Concrete Mixed with Basic Oxygen Furnace Slags

( Huan-lin Luo ),( Deng-fong Lin ),( Show-ing Shieh ),( Yi-hong Liu ),( Yu-kai Wang ) 한국폐기물자원순환학회(구 한국폐기물학회) 2019 ISSE 초록집 Vol.2019 No.-

In Taiwan, the basic oxygen furnace (BOF) slags are characterized as porous material and with better heat insulation than that of the natural aggregates. The BOF slags have been applied to the pavement as parts of the natural aggregate replacement. The asphalt concrete (AC) with the BOF slags replacements were well recognized and performed. In this study, parts of natural aggregates were replaced by the BOF slags in the AC helping resolve the gradual shortage of the natural resources and save energy and reduce the produce of carbon. In this study, parts of the natural aggregates were replaced by the coarse and fine BOF slags in the construction of AC. Because the thermal insulation and heat absorption are different between BOF slags and natural aggregates, the infrared thermal conductivity measuring instrument was applied to obtain the surface temperatures presented as thermal infrared images in AC. Then, the infrared temperature distribution images were obtained by using the image transformation techniques. The results show that the thermal conductivity for the AC containing with fine BOF slag was larger than that for the coarse BOF slag. The BOG slag replacement in AC helped improve the thermal insulation in AC. Moreover, the temperature was more uniformly distributed for AC with the fine BOF slag than that for the coarse BOF slag replacement. However, the coarse BOF slag was better in the preserve of energy for AC than that of the fine BOF slag.

Study properties of soft subgrade soil stabilized by sewage sludge/lime and nano-SiO₂

Lin, Deng-Fong,Luo, Huan-Lin,Chen, Chien-Ta,Cai, Ming-Du Techno-Press 2016 Geomechanics & engineering Vol.10 No.6

The pozzolanic characteristics of a sludge incinerated into ash were determined in this study. Lime is commonly used as a stabilizer for the treatment of soils, whereas sewage sludge ash (SSA) is often applied with lime to improve soft subgrade soil. In this study, a cohesive soil categorized as A-4 (low-plasticity clay) by AASHTO classifications was mixed with SSA/lime with a 3:1 ratio. Nano-$SiO_2$ was also added to the soil. To identify changes in the workability, strength, permeability, and shear strength of the soft subgrade soil, basic soil tests were conducted, and the microstructure of the treated soil was analyzed. The results indicate that SSA/lime mixtures improve the properties of soft subgrade soil and transform the soil from "poor subgrade soil" to "good to excellent subgrade soil" with a CBR > 8. Additionally, the addition of 2% nano-$SiO_2$ increases the unconfined compressive strength of soft subgrade soil treated with SSA/lime mixture by approximately 17 kPa. However, the swelling of the treated soil increased by approximately 0.1% after the addition of nano-$SiO_2$ and lime. Thus, soil swelling should be considered before lime and nano-$SiO_2$ are applied to soft subgrade soil.

Multi-strategy structural damage detection based on included angle of vectors and sparse regularization

Huan-Lin Liu,Ling Yu,Ziwei Luo,Zexiang Chen 국제구조공학회 2020 Structural Engineering and Mechanics, An Int'l Jou Vol.75 No.4

Recently, many structural damage detection (SDD) methods have been proposed to monitor the safety of structures. As an important modal parameter, mode shape has been widely used in SDD, and the difference of vectors was adopted based on sensitivity analysis and mode shapes in the existing studies. However, amplitudes of mode shapes in different measured points are relative values. Therefore, the difference of mode shapes will be influenced by their amplitudes, and the SDD results may be inaccurate. Focus on this deficiency, a multi-strategy SDD method is proposed based on the included angle of vectors and sparse regularization in this study. Firstly, inspired by modal assurance criterion (MAC), a relationship between mode shapes and changes in damage coefficients is established based on the included angle of vectors. Then, frequencies are introduced for multi-strategy SDD by a weighted coefficient. Meanwhile, sparse regularization is applied to improve the ill-posedness of the SDD problem. As a result, a novel convex optimization problem is proposed for effective SDD. To evaluate the effectiveness of the proposed method, numerical simulations in a planar truss and experimental studies in a six-story aluminum alloy frame in laboratory are conducted. The identified results indicate that the proposed method can effectively reduce the influence of noises, and it has good ability in locating structural damages and quantifying damage degrees.

Anti-sparse representation for structural model updating using l∞ norm regularization

Ziwei Luo,Ling Yu,Huan-Lin Liu,Zexiang Chen 국제구조공학회 2020 Structural Engineering and Mechanics, An Int'l Jou Vol.75 No.4

Finite element (FE) model based structural damage detection (SDD) methods play vital roles in effectively locating and quantifying structural damages. Among these methods, structural model updating should be conducted before SDD to obtain benchmark models of real structures. However, the characteristics of updating parameters are not reasonably considered in existing studies. Inspired by the l∞ norm regularization, a novel anti-sparse representation method is proposed for structural model updating in this study. Based on sensitivity analysis, both frequencies and mode shapes are used to define an objective function at first. Then, by adding l∞ norm penalty, an optimization problem is established for structural model updating. As a result, the optimization problem can be solved by the fast iterative shrinkage thresholding algorithm (FISTA). Moreover, comparative studies with classical regularization strategy, i.e. the l2 norm regularization method, are conducted as well. To intuitively illustrate the effectiveness of the proposed method, a 2-DOF spring-mass model is taken as an example in numerical simulations. The updating results show that the proposed method has a good robustness to measurement noises. Finally, to further verify the applicability of the proposed method, a six-storey aluminum alloy frame is designed and fabricated in laboratory. The added mass on each storey is taken as updating parameter. The updating results provide a good agreement with the true values, which indicates that the proposed method can effectively update the model parameters with a high accuracy.

Draft Genome Sequence of Aureobasidium pullulans Strain MHAU2101, a Biological Control Agent against Fire Blight from Korea

He Lin,Luo Huan,Lee Mi-Hyun,Yu Jun Myoung 한국미생물·생명공학회 2023 한국미생물·생명공학회지 Vol.51 No.4

In this study, we present the draft genome of Aureobasidium pullulans strain MHAU2101, which is the first strain to effectively control fire blight caused by Erwinia amylovora in Korea. The genome of strain MHAU2101 was composed of 28,669,322 base pairs, with a C+G content of 50.4%. The assembly comprised 17 contigs and had 99.22% completeness. The results of this study will be a valuable resource for future research on the biocontrol mechanism of A. pullulans strain MHAU2101.

Improving Bricks (kaolin) Performance by adding Incinerator Bottom Ash and Adjusting Kiln Calcination Temperatures

( Deng-fong Lin ),( Huan-lin Luo ),( Wei-zhu Wang ),( Jia-wen Chen ) 한국폐기물자원순환학회(구 한국폐기물학회) 2019 ISSE 초록집 Vol.2019 No.-

The bottom ash (BA) is the residuals of the municipal trashes after incinerated in an incinerator plant. The BA is usually collected and landfilled as the final disposal treatment. However, it becomes harder finding locations for Taiwan as an island with a very scarce land for the landfill treatment. Moreover, the amount of the BA recycled was far behind the amount produced in which leading to a hard problem for central and local governments. How to properly recycle or reuse of the BA becomes an urgent need. From the results obtained by many different researchers, the use of the BA as a ceramic material may help improve the strength of related products. In this study, the BA was applied as part of the replacement for kaolin in the manufacture of the brick specimens. To investigate the effects of the kiln temperature on the brick specimens and evaluate the related properties of the specimens, the kiln temperatures were set at 850, 900, and 950℃. The municipal solid waste incineration BA was applied as part of kaolin replacement in the manufacture of bricks. Test results showed that the shrinkage increment of bricks tended to be smooth when the BA replacement was larger than 10%. Moreover, the results of loss on ignition indicated that the organic and inorganic matters and heavy metal were mostly burned off at the kiln temperature of 900℃ or above. The compressive strengths of bricks increased with the increase amount of BA replacement. The study of the micro structure observations showed that the silicification of the brick specimen bodies reduced with the increase amount of the BA replacement. Moreover, the results obtained from XRD indicated that the peak intensities of the SiO₂ in the brick specimens decreased with increase amount of the BA replacement. This study suggested that the optimal amount of BA replacement and the kiln temperature were 20% and 950℃, respectively.

Effects of Nano-Materials on Properties of Waterworks Sludge Ash Cement Paste

Kuo, Wen-Ten,Lin, Kae-Long,Chang, Wei-Che,Luo, Huan-Lin 한국공업화학회 2006 Journal of Industrial and Engineering Chemistry Vol.12 No.5

Evaluation of suitable qRT-PCR normalization genes for various citrus rootstocks

He Wen,Xie Rui,Li Huan,Wang Yan,Chen Qing,Lin Yuanxiu,Zhang Yunting,Luo Ya,Zhang Yong,Tang Haoru,Wang Xiaorong 한국식물생명공학회 2022 Plant biotechnology reports Vol.16 No.1

Citrus rootstock can modify plant growth and enhance stress resistance. There are many genotypes and species used as citrus rootstocks. Although multiple citrus rootstocks whole genome sequence and transcriptome databases have previously been published, no suitable internal reference genes have been investigated for standardization of gene expression via quantitative real-time PCR. Here we reported the first systematic and comprehensive analysis of reference genes for quantitative real- time PCR standardization in various citrus rootstocks. The expression stability of ten candidate reference genes in diverse sample subsets of flooding, drought, alkaline and cold treatments was evaluated using four statistical algorithms, geNorm, NormFinder, BestKeeper and ΔCt method. The results demonstrated that the expression stability of reference genes varied under different experimental conditions. In addition, normalization of gene expression of 9-cis-epoxycarotenoid dioxygenase 3 (NCED 3), involved in abscisic acid biosynthesis, was conducted to further confirm the reliability of the reference genes. Overall, EF-1α, DIM 1, GAPC and UBC expressed much more stably. ACTIN and GAPDH were not recommended for normalization in given experimental conditions due to low stability. Our main contribution was to identify reference genes with suitable and stable expression in citrus rootstocks varied across selected experimental conditions. Furthermore, these results will provide valuable information for future research on citrus rootstocks.

Solution-processable end-functionalized tetrathienoacene semiconductors: Synthesis, characterization and organic field effect transistors applications

Mamillapalli, Narendra Chary,Vegiraju, Sureshraju,Priyanka, Pragya,Lin, Chih-Yu,Luo, Xian-Lun,Tsai, Hsiang-Chi,Hong, Shao-Huan,Ni, Jen-Shyang,Lien, Wei-Chieh,Kwon, Guhyun,Yau, Shueh Lin,Kim, Choongik Applied Science Publishers 2017 Dyes and pigments Vol.145 No.-

<P><B>Abstract</B></P> <P>A series of dialkylated tetrathienoacene (<B>TTAR</B>)-based solution-processable small molecular organic semiconductors have been synthesized and characterized for organic field effect transistor (OFET) applications. The central dialkylated <B>TTAR</B> moiety was end-capped with thiophenylvinylthiophene (<B>TVT</B>), bithiophene (<B>bT</B>), and thienothiophene (<B>TT</B>) to afford new π-conjugated p-type active materials, <B>DTVT-TTAR</B> (<B>1</B>), <B>DbT-TTAR</B> (<B>2</B>), and <B>DTT-TTAR</B> (<B>3</B>), respectively. The physical and electrochemical properties and theoretical calculations as well as OFETs performance and thin film morphologies and microstructures of these new soluble <B>TTAR</B>s are systematically studied. Using a solution-shearing method, <B>DTVT-TTAR</B> exhibits p-channel transport with the highest mobility of up to 0.18 cm<SUP>2</SUP> V<SUP>−1</SUP>s<SUP>−1</SUP> and current ON/OFF ratios of 10<SUP>4</SUP>-10<SUP>6</SUP>, which is one of the highest hole mobilities for the solution-processed <B>TTAR</B>-based small molecules.</P> <P><B>Highlights</B></P> <P> <UL> <LI> Synthesis and characterization of dialkylated tetrathienoacene derivatives as semiconductors. </LI> <LI> Various substituents as end groups for solution-processed p-type semiconductors. </LI> <LI> P-type transport with highest mobility up to 0.18 cm<SUP>2</SUP> V<SUP>−1</SUP>s<SUP>−1</SUP>. </LI> <LI> One of the highest mobilities for dialkylated tetratheinoacene derivaties. </LI> </UL> </P> <P><B>Graphical abstract</B></P> <P>[DISPLAY OMISSION]</P>

A hybrid self-adaptive Firefly-Nelder-Mead algorithm for structural damage detection

Chu-Dong Pan,Ling Yu,Ze-Peng Chen,Wen-Feng Luo,Huan-Lin Liu 국제구조공학회 2016 Smart Structures and Systems, An International Jou Vol.17 No.6

Structural damage detection (SDD) is a challenging task in the flied of structural health monitoring (SHM). As an exploring attempt to the SDD problem, a hybrid self-adaptive Firefly-Nelder-Mead (SA-FNM) algorithm is proposed for the SDD problem in this study. First of all, the basic principle of firefly algorithm (FA) is introduced. The Nelder-Mead (NM) algorithm is incorporated into FA for improving the local searching ability. A new strategy for exchanging the information in the firefly group is introduced into SA-FNM for reducing the computation cost. A random walk strategy for the best firefly and a self-adaptive control strategy of three key parameters,such as light absorption, randomization parameter and critical distance, are proposed for preferably balancing the exploitation and exploration ability of the SA-FNM. The computing performance of the SA-FNM is evaluated and compared with the basic FA by three benchmark functions. Secondly, the SDD problem is mathematically converted into a constrained optimization problem, which is then hopefully solved by the SA-FNM algorithm. A multi-step method is proposed for finding the minimum fitness with a big probability. In order to assess the accuracy and the feasibility of the proposed method, a two-storey rigid frame structure without considering the finite element model (FEM) error and a steel beam with considering the model error are taken examples for numerical simulations. Finally, a series of experimental studies on damage detection of a steel beam with four damage patterns are performed in laboratory. The illustrated results show that the proposed method can accurately identify the structural damage. Some valuable conclusions are made and related issues are discussed as well.