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Muhammad Omer Khan,Saeed Zaman,Muhammad Mehdi,Chul-Ho Noh,Gi-Hyeon Gwon,Chul-Hwan Kim 한국조명·전기설비학회 2017 조명·전기설비학회논문지 Vol.31 No.10
Conventional AC power networks in recent decades have been in a process of continuous overhaul due to the development of power electronic devices and distributed energy resources (DER). This development has demonstrated great potential for the implementation of DC power networks and numerous effects on the employment of integrated AC/DC systems based on Voltage Source Converter (VSC) technology are underway. On the other hand, the integration of DER in a distribution network has emerged as a durable choice for fulfilling future energy need. In this study, a load flow analysis is performed on a Voltage Source Converter-Multi terminal DC (VSC-MTDC) based AC/DC Distribution system incorporated with DERs. An IEEE 14 bus distribution network was modified to include a VSC-MTDC network model for the implementation of the Newton-Raphson load flow algorithm. This paper also discussed the mathematical models for VSC, AC and DC networks along with the load flow study of the steady-state change in the AC/DC network as a result of converter and DC line outage.
Muhammad Omer,박수영,Mohammad Tariqul Islam,Mashooq Khan,김영규,이준형,강인규 한국고분자학회 2014 Macromolecular Research Vol.22 No.8
The interface between a nematic liquid crystal phase, 4-cyano-4′-pentylbiphenyl (5CB) and water wasexamined for protein detection by monitoring the formation of a complex between sodium polystyrene sulfonate(PSSNa) and a positively charged biological species on the 5CB in a transmission electron microscopy (TEM) gridcell coated with a strong anionic polyelectrolyte-containing block copolymer, LCP-b-PSSNa (LCP:poly(4-cyanobiphenyl-4′-oxyundecylacrylate)). This block copolymer was successfully synthesized by reversible addition-fragmentationchain transfer polymerization. A monolayer of LCP-b-PSSNa in a Langmuir Blodgett trough (in whichPSSNa and LCP were located in and above water, respectively, in the TEM grid cell) was transferred to the 5CB/water interface in the 5CB-filled TEM grid that was already placed on octadecyltrichlorosilane-coated glass. Modelproteins such as bovine serum albumin (BSA), hemoglobin (Hb), α chymotrypsinogen-A (ChTg), and lysozyme(LYZ) having different isoelectric points (pIs) were tested for non-specific protein detection. When the protein solutionswere injected into the TEM grid cell, the initial homeotropic orientation of 5CB in the TEM grid cell changedto a planar one below the pIs of the proteins due to electrostatic interactions between PSSNa (- charge) and the proteins(+ charge); this did not occur above the pIs of the tested proteins. The minimum concentrations at which thehomeotropic to planar configurational changes (H-P changes) occurred were 0.02, 0.04, 0.04, and 0.08 wt% forBSA, Hb, ChTg, and LYZ, respectively. Therefore, the positively charged biomaterials were visually detected at thePSSNa-coated LC/water interface during an H-P change by using polarized optical microscopy under crossed polarizers. This simple set-up for non-specific biomaterial detection paves a way for the development of efficient andexcellent quality biosensors.
Saeed Zaman Jamali,Muhammad Omer Khan,Syed Basit Ali Bukhari,Muhammad Mehdi,Gi-Hyeon Gwon,Chul-Ho Noh,Chul-Hwan Kim 한국조명·전기설비학회 2017 조명·전기설비학회논문지 Vol.31 No.10
Low voltage DC (LVDC) distribution systems are gaining attention as customer loads are shifting towards power electronics-based equipment. The DC distribution system has the advantage of supplying power to these power electronic-based loads with high efficiency and without undergoing an energy conversion process. However, the power electronic components used in the LVDC distribution system are vulnerable during short-circuit faults. These components must be protected during the short-circuit faults for a safe and reliable operation. Therefore, this paper proposes a protection technique based on DC short-circuit fault current behavior. The fault is detected via a superposition principle. A fault current limiter (FCL) is used to suppress DC fault strength and reduce the stress from the circuit breaker. Finally, a solid state circuit breaker (SSCB) is used to isolate the fault point. The simulation results show that the proposed protection Scheme operates quickly enough as per expectations to avoid damage to sensitive power electronic devices.
Rizvi, Syed Zaki Husain,Shah, Fawad Ali,Khan, Namrah,Muhammad, Iftikhar,Ali, Khan Hashim,Ansari, Muhammad Mohsin,Din, Fakhar ud,Qureshi, Omer Salman,Kim, Kyoung-Won,Choe, Yeong-Hwan,Kim, Jin-Ki,Zeb, A Elsevier 2019 International journal of pharmaceutics Vol.560 No.-
<P><B>Abstract</B></P> <P>The objective of current study was to develop solid lipid nanoparticles-loaded with simvastatin (SIM-SLNs) and investigate their <I>in vivo</I> anti-hyperlipidemic activity in poloxamer-induced hyperlipidemia model. Nano-template engineering technique was used to prepare SIM-SLNs with palmityl alcohol as lipid core and a mixture of Tween 40/Span 40/Myrj 52 to stabilize the core. The prepared SIM-SLNs were evaluated for physicochemical parameters including particle diameter, surface charge, morphology, incorporation efficiency, thermal behaviour and crystallinity. <I>In vitro</I> release profile of SIM-SLNs in simulated gastric and intestinal fluids was evaluated by using dialysis bag technique and anti-hyperlipidemic activity was assessed in hyperlipidemia rat model. SIM-SLNs revealed uniform particle size with spherical morphology, zeta potential of −24.9 mV and high incorporation efficiency (∼85%). Thermal behaviour and crystallinity studies demonstrated successful incorporation of SIM in the lipid core and its conversion to amorphous form. SIM-SLNs demonstrated a sustained SIM release from the lipid core of nanoparticles. SIM-SLNs significantly reduced the elevated serum lipids as indicated by ∼3.9 and ∼1.5-times decreased total cholesterol compared to those of untreated control and SIM dispersion treated hyperlipidemic rats. In conclusion, SIM-SLNs showed a great promise for improving the therapeutic outcomes of SIM via its effective oral delivery.</P> <P><B>Graphical abstract</B></P> <P>[DISPLAY OMISSION]</P>
Rafiq, Saima,Huma, Nuzhat,Pasha, Imran,Sameen, Aysha,Mukhtar, Omer,Khan, Muhammad Issa Asian Australasian Association of Animal Productio 2016 Animal Bioscience Vol.29 No.7
Milk composition is an imperative aspect which influences the quality of dairy products. The objective of study was to compare the chemical composition, nitrogen fractions and amino acids profile of milk from buffalo, cow, sheep, goat, and camel. Sheep milk was found to be highest in fat ($6.82%{\pm}0.04%$), solid-not-fat ($11.24%{\pm}0.02%$), total solids ($18.05%{\pm}0.05%$), protein ($5.15%{\pm}0.06%$) and casein ($3.87%{\pm}0.04%$) contents followed by buffalo milk. Maximum whey proteins were observed in camel milk ($0.80%{\pm}0.03%$), buffalo ($0.68%{\pm}0.02%$) and sheep ($0.66%{\pm}0.02%$) milk. The non-protein-nitrogen contents varied from 0.33% to 0.62% among different milk species. The highest r-values were recorded for correlations between crude protein and casein in buffalo (r = 0.82), cow (r = 0.88), sheep (r = 0.86) and goat milk (r = 0.98). The caseins and whey proteins were also positively correlated with true proteins in all milk species. A favorable balance of branched-chain amino acids; leucine, isoleucine, and valine were found both in casein and whey proteins. Leucine content was highest in cow ($108{\pm}2.3mg/g$), camel ($96{\pm}2.2mg/g$) and buffalo ($90{\pm}2.4mg/g$) milk caseins. Maximum concentrations of isoleucine, phenylalanine, and histidine were noticed in goat milk caseins. Glutamic acid and proline were dominant among non-essential amino acids. Conclusively, current exploration is important for milk processors to design nutritious and consistent quality end products.