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Vol. 26(2010), p. 38 [5] Ju-Hwan Kim, Ho-Jun Lee, Sang-Ho Kim, Jeong-Oog Lee: Advances in Engineering Software.
Vol. 59(2010), p. 155 [7] Dunbing Tang, Renmiao Zhu, Jicheng Tang, Ronghua Xua, Rui He: Advanced Engineering Informatics.
Eastman, Rafael Sacks: Data & Knowledge Engineering.
Vol. 1(2009), p. 153 [16] Baoli Dong, Guoning Qi, Xinjian Gu, Xiuting Wei: Advanced Engineering Informatics.
Vol. 22(2008), p. 282 [17] Ho-Jun Lee, Jae-Woo Lee, Jeong-Oog Lee: Advances in Engineering Software.

J. of Thermal & Environmental Engineering, 13(2), 2016, 129-133 [12] P.O.
American Journal of Engineering Research (AJER), 6(11), pp-311-321 [19] W.
Investigation of the purification of biogas from domestic wastes using local materials in Nigeria.
Master thesis, Department of Mechanical Engineering, Faculty of Engineering, University of Benin, Benin City, Nigeria
Journal of Advanced Engineering Research, 4(1), 2017, 59-62 [35] P.O.

Yani KM 36, Banjarbaru, South Kalimantan, 70714, Indonesia 2Environmental Engineering, Faculty of Engineering, Lambung Mangkurat University, JL.
Materials and Method Materials Sample of palm oil mill effluent was taken from a palm oil mill in West Kotawaringin, Central Kalimantan-Indonesia.
Rahma et al., "Functionalization and Deconvolution of Tubular Ceramic Support Membrane Prepare from High Silica Spent Bleaching Earth by Centrifugal Casting," Key Engineering Materials, vol. 975, pp. 87-94, 2024, doi: 10.4028/p-dE2XpU
Singh, Membrane technology and engineering for water purification: application, systems design and operation.
Mohshim, "Material Advancements in Fabrication of Mixed‐Matrix Membranes," Chemical Engineering & Technology, 2013, doi: 10.1002/ceat.201200734

Study on Signal Integrity Simulation for High Speed Serial Rapid IO Hongxu Jiang1, Xiaohong Zhang1, Wei Zhao1 and Jinyuan Lu2 Beijing Key Laboratory of Digital Media, Beihang University China United Network Communications Corporation Hebei Branch e-mail: jianghx@buaa.edu.cn Keywords: Serial Rapid IO, Signal Integrity IBIS-AMI, Model Simulation Abstract.
In the transmission process of high-speed serial signal with GHz, the main issues for signal integrity are loss, reflection, and crosstalk [6].The loss of signal can’t be simulated and the effective way to reduce the signal loss is to use dielectric materials with lower dielectric constant.
The impedance of transmission line is determined by materials used.
Hou (2008) Signal Integrity Simulation of Rapid IO High Speed Serial Bus, Telecommunication Engineering 3(5): 67-70 [4] Xilinx Instruments (2010) Virtex-5 FPGA Rocket IO GTX Transceiver IBIS-AMI Signal Integrity Simulation kit User Guide. www.xilinx.com.
Cao (2009) SI Analysis and Design of the Gaps Serial Link, Computer Engineer & Science, 7th end 4(4):861-864 [6] Y.

The forming was stopped, when the first material failure occurred.
Duflou, P. van Houtte, Tool Directionality in Contour-Based Incremental Sheet Forming: an Experimental Study on Product Properties and Formability, Key Engineering Materials, 473 (2011) 897-904
Reddy, Experimental study on a new method of double side incremental forming, Proc. of the 2008 International Manufacturing Science and Engineering Conference, ASME, New York, 2008, pp. 601-607

Shen 1 1 The State Key Laboratory, School of Civil Engineering and Mechanics Xi'an Jiaotong University, Xi'an, 710049, P.R.
China 2 Department of Engineering, Cambridge University, Trumpington Street, Cambridge, CB2 1PZ, UK Keywords: metallic foams; size effects; micromechanics modelling Abstract.
The material parameter α denotes the ratio of deviatoric strength eσ to hydrostatic strength mσ , and the normalisation 1 9 2 +α / in Eq. (1) is included in the definition of ˆσ so that it equals the uniaxial stress under uniaxial loading.
It is instructive to attempt a curve fit of Eq (2) to the yield surface loci given in Fig. 3 for foam layers of thickness H=3mm and H=10mm, by treating α and 0σ as material parameters for each thickness.
The cell walls of the honeycombs are taken as elastic-ideally plastic with a yield strain ε σYCY C= =/ .E 0 2%, where σCY is the yield strength and EC is the Young's modulus of the cell wall material.

Fast and High Precision Thermoelectric Potential – Temperature Conversion Method for Aerodynamic Heating Control Systems Dafang Wua, Shuang Wub, Yuewu Wangc, Zhentong Gao, Jialing Yang School of Aeronautical Science and Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100191, China awdf1950@163.com; bshuang.wu11@yahoo.com; cwang_yuewu@qq.com; Key words: sensor; aerodynamic heating; dynamic response; real-time conversion; non-linearity.
Such high temperatures can significantly reduce the ultimate strength of structural material and thus also the carrying capacity of aircraft, as well as cause thermal deformation, reducing aircraft aerodynamics and even influencing flight safety.
In order to ensure the security of high-speed aircraft, and to confirm whether their material and structure can stand up to the thermal shock and high temperature thermal stress experienced during high-speed flight, static and dynamic aerodynamic simulation tests and thermal strength tests must be conducted.
Similarly, the temperature fields of parts of aircraft fuselage surfaces change sharply throughout flight; high-speed aircraft may abruptly accelerate, climb and veer, making the relationship between the material, structural strength/temperature and time very complex [1,2].
Cai: Thermal Engineering Handbook (Machine Industry Press, China 2002).

China 2Center for Natural Resources Development and Protection (NRDP), Department of Civil and Environmental Engineering, The New Jersey Institute of Technology, Newark, NJ 07102-1824, USA axiayqcug@gmail.com, bwwwsongli@126.com, cboufadel@gmail.com Keywords: Shale gas; Unconventional gas; Water resources; Environmental impacts; Policy Abstract.
Hydraulic Fracturing According to the definition by fracfocus[5], hydraulic fracturing is the use of fluid and material to create or restore small fractures in a formation in order to stimulate production from new and existing oil and gas wells.
The general process of hydraulic fracturing consists of four stages: (1) An acid stage serves to clear cement debris in the wellbore and provide an open conduit for other fracturing fluids by dissolving carbonate minerals and opening fractures near the wellbore, which consisting of several thousand gallons of water mixed with a dilute acid such as hydrochloric or muriatic acid. (2) A pad stage fills the wellbore with the slickwater solution opens the formation and helps to facilitate the flow and placement of proppant material. (3) A proppant sequence stage includes several substages of water combined with proppant material, this stage may collectively use several hundred thousand gallons of water. (4) A flushing stage, consisting of a volume of fresh water sufficient to flush the excess proppant from the wellbore.
China is now embarking upon substantial development of shale gas extraction, but the question of major public concern is whether or not the Chinese government will try to learn from the US experience not only to benefit from the new engineering techniques, but also to minimize the negative impacts of this technology on environmental and human health.
Thus, there is a long way to lay the groundwork for the shale gas revolution, not only lack of key drilling technologies, but also due to the limited fundamental research on its geology data and environmental impacts associated with its policies and regulations.

The application of ultrasound as a laboratory based technique for assisting extraction from plant material is widely published [6].It has been proven to be a desirable method of extraction with many advantages such as increasing extraction yield, reducing solvent usage, economizing power consumption and shortening extraction duration.
Materials and methods Sample preparation.
RSM was used to optimize the conditions for flavonols and anthocyanins extraction of blueberry.The parameters: ultrasonic power, extraction time and liquid to solid ratio were chosen as key variables and designated X1, X2 and X3 respectively and extraction yield (Y) was taken as the response of the design experiments.For statistical calculation, the variables were coded according to the Eq.2 i=1,2,3 (2) Where Xi and xi are the dimensionless and the actual value of the independent variable i, respectively, x0 is the actual value in the center of the domain, andx is the step change.
[9] D.Bas & I.H.Boyacı.Journal of Food Engineering, 2007, 78: 836–845
Biochemical Engineering Journal , 2008, 39: 66–73

Due to the leading position of the European car industry and the large scale battery technology as a key factor, attractive market opportunities arise.
This starts with the material preparation, which includes mixing anode and cathode material with binder and other additives in order to set the desired particle properties of the active material (e.g. particle size distribution, morphology etc.).
General differences in stacking and winding methods are specifiable regarding the material handling.
The FMEA has a long tradition in engineering science as a bottom-up approach to identify and assess potential failures of components and products as well as processes.
In production scale, an optimum utilization of material is pursued, so that the algorithm provides a first evidence for material utilization.