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Online since: April 2013
Authors: Obed M. Ali, Rizalman Mamat
Moreover the sources of these fuels are very near to reach their maximum production [1].
Fig. 1.
Annual world palm oil production [1] Fig.2.
References [1] Oil; Palm - Production, Consumption, Exports, and Imports Statistics.
Biomass and Bioenergy, 23 (2002) pp.471 – 479
Fig. 1.
Annual world palm oil production [1] Fig.2.
References [1] Oil; Palm - Production, Consumption, Exports, and Imports Statistics.
Biomass and Bioenergy, 23 (2002) pp.471 – 479
Online since: July 2015
Authors: Ismail bin Bakar, Nursyahidah binti Saedon, Nurul Farhana bt Mohd Seth, Adnan bin Zainorabidin
The diameter changes was measured by point A, B, C and D as illustrated in Fig. 1.
The reading of soil shrinkage for both method was taken at 0.5, 1, 2, 4, 6, 20 and 24 hours.
References [1] M.N.
Eng. 14E (2009) pg. 1-8
Soil Science, 165, (2002) pg. 479-486
The reading of soil shrinkage for both method was taken at 0.5, 1, 2, 4, 6, 20 and 24 hours.
References [1] M.N.
Eng. 14E (2009) pg. 1-8
Soil Science, 165, (2002) pg. 479-486
Online since: August 2013
Authors: Hong Wang
Research on Security Policy for Linux
Wang hong 1, a
1 Department of Computer Engineering, WeiFang University , WeiFang, 261061, China
aemail: wcjsdwf@126.com
Keywords: Linux Operating System; Security Policy; Capabilities; Access Control Mechanism
Abstract.
The basic structure of Linux log system is in figure 1.
According to Fig 1, the log system of Linux is independent of the Linux kernel.
References [1] Yang Yanhang, Sun Bingxin.
AMMASS 2012, Guangzhou,China.P474-479 [7] WangHong.’
The basic structure of Linux log system is in figure 1.
According to Fig 1, the log system of Linux is independent of the Linux kernel.
References [1] Yang Yanhang, Sun Bingxin.
AMMASS 2012, Guangzhou,China.P474-479 [7] WangHong.’
Online since: December 2012
Authors: Qi Yu Liu, Yong Jun Hou
Introduction
The electromechanical dynamics of single-frequency vibrating screen has been widely studied [1-5].
Electromechanical dynamics model of complex frequency vibrating system Fig.1 Mechanical model of dual-motor times frequency vibrating system Mechanical model of complex frequency vibrating system with two-motor rotating in the opposite direction was shown in Fig.1.
Analyze the simulation results that the mass is 80Kg, 100Kg, 120Kg (Table 1).
Table 1 The simulation results in the different quality x dir.
Advanced Materials Research, Vol. 479-481 (2012), p. 2124-2128
Electromechanical dynamics model of complex frequency vibrating system Fig.1 Mechanical model of dual-motor times frequency vibrating system Mechanical model of complex frequency vibrating system with two-motor rotating in the opposite direction was shown in Fig.1.
Analyze the simulation results that the mass is 80Kg, 100Kg, 120Kg (Table 1).
Table 1 The simulation results in the different quality x dir.
Advanced Materials Research, Vol. 479-481 (2012), p. 2124-2128
Online since: February 2016
Authors: Mario Rosso, Ildiko Peter, Christian Castella
Experimental
The chemical composition of the WE43 magnesium alloy studied is reported in Table 1.
Table 1: Chemical composition (wt%) of the WE43 magnesium alloy investigated Chemical composition (wt%) Elements Y Nd other RE Zr Mg wt% 4.5 2.7 1 0.6 Bal.
Fig. 1 DSC curve for the as-quenched (WQ) sample.
Literature References [1] T.
[7] Mengucci P, Barucca G, Riontino G, Lussana D, Massazza M, et al, Structure evolution of a WE43 Mg alloy submitted to different thermal treatments, Mater Sci Eng A 479 (2008) 37–44
Table 1: Chemical composition (wt%) of the WE43 magnesium alloy investigated Chemical composition (wt%) Elements Y Nd other RE Zr Mg wt% 4.5 2.7 1 0.6 Bal.
Fig. 1 DSC curve for the as-quenched (WQ) sample.
Literature References [1] T.
[7] Mengucci P, Barucca G, Riontino G, Lussana D, Massazza M, et al, Structure evolution of a WE43 Mg alloy submitted to different thermal treatments, Mater Sci Eng A 479 (2008) 37–44
Online since: January 2025
Authors: Gustavo P. Rangel, Marcelino L. Fernandes, Hugo R. Matias, Belmira Neto
Economic Parameters: Table 1 presents the cost parameters assumed for the optimisation.
Table 1.
Hydrogen is the main contributor to operational costs (share of 69 – 81%) (Figure 1) followed by the cost of the CO2 feedstock (11-19%).
Fig. 1.
References [1] Esqué, A., Franz, F., Mulder, G., Riedel, R., Riefer, D.,, Decarbonizing aviation: Executing on net-zero goals. 2023
Table 1.
Hydrogen is the main contributor to operational costs (share of 69 – 81%) (Figure 1) followed by the cost of the CO2 feedstock (11-19%).
Fig. 1.
References [1] Esqué, A., Franz, F., Mulder, G., Riedel, R., Riefer, D.,, Decarbonizing aviation: Executing on net-zero goals. 2023
Online since: August 2016
Authors: Ling Xu Li, Zong Heng Xu, Ming Chang Ma
The curve was asymmetrical because C/C0 fast reached 1 when solution flows through well- connectivity pore.
Conclusion and Discussion 1.
References [1] W.
Gantzer, Evaluation of constructed and natural soil macropores using X-ray computed tomography, Geoderm, 46(1-3) (1990) 13-29
Mech. 22 (1954) 479-486
Conclusion and Discussion 1.
References [1] W.
Gantzer, Evaluation of constructed and natural soil macropores using X-ray computed tomography, Geoderm, 46(1-3) (1990) 13-29
Mech. 22 (1954) 479-486
Online since: July 2017
Authors: Lothar Kroll, Jürgen Tröltzsch, Jonas Stiller, Kay Schäfer, Frank Helbig, Daisy Nestler
Introduction
Hybrid textile-based processes are the key to an efficient and sustainable large-scale production of lightweight composites [1,2,3].
Their properties are given in Table 1.
Table 1: Properties of reinforcement (AG1) and comfort (AG2) spacer fabrics 3D spacer fabric Thickness [mm] Space density [kg/m³] Fibre volume content [%] No. of spacer threads [1/in²] Diameter of mono filaments [mm] Surface porosity [%] AG1 18 36 2,6 140 0,25 65 AG2 20 68 4,9 420 0,20 10 Experiments Manufacturing.
References [1] J.M.
International Journal of Precision Engineering, 17 (2016) pp. 479−485
Their properties are given in Table 1.
Table 1: Properties of reinforcement (AG1) and comfort (AG2) spacer fabrics 3D spacer fabric Thickness [mm] Space density [kg/m³] Fibre volume content [%] No. of spacer threads [1/in²] Diameter of mono filaments [mm] Surface porosity [%] AG1 18 36 2,6 140 0,25 65 AG2 20 68 4,9 420 0,20 10 Experiments Manufacturing.
References [1] J.M.
International Journal of Precision Engineering, 17 (2016) pp. 479−485
Online since: February 2013
Authors: Lan Zhang Zhou, Chang Shuai Wang, Ting Ting Wang, Jian Ting Guo
After the standard heat treatment, microstructure characteristics are shown in Fig. 1.
Fig. 1.
References [1] R.
Bakker, Materials for Ultrasupercritical Coal Power Plants-Boiler Materials, Part 1.
(English letter). 18 (2005) 479-88
Fig. 1.
References [1] R.
Bakker, Materials for Ultrasupercritical Coal Power Plants-Boiler Materials, Part 1.
(English letter). 18 (2005) 479-88
Online since: November 2016
Authors: Karen Swider Lyons, Benjamin D. Gould
The schematic of a cell in a PEMFC in Figure 1 shows how a membrane electrode assembly (MEA) is positioned between the air and fuel flow fields of the BPPs.
Figure 1.
The development of such coatings is non-trivial, as the coating must be resistant to electrochemical corrosion at >1 V in the acidic conditions of the PEMFC environment where Pourbaix diagrams show that most metals corrode.
Sci., 12 (1970) 479-489. ,[] C.H.
Figure 1.
The development of such coatings is non-trivial, as the coating must be resistant to electrochemical corrosion at >1 V in the acidic conditions of the PEMFC environment where Pourbaix diagrams show that most metals corrode.
Sci., 12 (1970) 479-489. ,[] C.H.