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Sastry, M.K.S. The Korean Society for Quality Management 2006 The Asian Journal on Quality Vol.7 No.3
An Integrated Outage Management System (IOMS) is a utility owned, centralized information system. Using the Supervisory Control And Data Acquisition (SCADA) methodology, the IOMS integrates different databases and components of outage management systems to improve the quality of service of electrical power to customers. This paper describes the development of an IOMS and its related utility functionality. The design considerations, salient features, component integration, functional aspects, and implementation issues of the IOMS are discussed. Evidence shows that the IOMS implementation would result in improving the overall quality of electric power supply and effective outage management significantly.
Correlation of strength development of RCA in quaternary blended cementitious system
Sastri, M.V.S.S.,Rao, K. Jagannadha,Bhikshma, V. Techno-Press 2021 Advances in materials research Vol.10 No.3
Recycled concrete aggregate (RCA) obtained from demolished structures can be used for concrete making, and is established as a promising material in the field of construction. In the present study, the effect of RCA on the mechanical properties of different strength concretes admixed with Micro silica, fly ash and nano-silica as a part replacement to cement was considered. The quantity of cement varied from 350-690 kg/m<sup>3</sup> with the additions of Fly ash at 0, 20 and 30%, micro silica at 0, 5, 10 and 15%, and Nano silica at 0, 1, 2, 3 and 4%. The samples were cured for 7, 28, 56 and 90 days and tested for Compressive strength. Split tensile and flexural strength evaluation was carried out on samples which have been cured for 28 days. The workability of fresh concrete was determined. With the help of the tested database, equations for prediction of compressive strength using modified Bolomey's equation were generated. Equations for the flexural strength and split tensile strengths based on compressive strength were developed and compared with equations available in the literature.
C. Chandrasekhara Sastry,M. Abeens,N. Pradeep,M. A. Muthu Manickam 대한기계학회 2020 JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY Vol.34 No.6
In the present study, an endeavour has been made in trepanning of Duplex steel (DSS 2507) under wet and cryogenic environments. DSS 2507 steel is predominantly used in the area of defence for warhead and rocket motor casing, marine applications of submarine rocket launchers, naval components and other high end applications due to their high strength provided by two phased structure. Reduction of 35.21 % and 14.80 % is observed in cryogenic trepanning correlated to conventional trepanning analogous to cutting force and cutting temperature, respectively. This has an explicit bearing on the machinability and surface characteristics of the hole formed. Attrition of immured austenite phase fraction and curtailed carbide structure aids to the increase in the residual (compressive in nature) stress by 3.25 % in cryogenic trepanning, further causing an accretion of wear resistance and hardness. An increase in work hardness and inherent machinability property is observed with a surge in microhardness by 11-26.07 %, due to the upsurge of ferrite band along the surface. Additionally, ferrite formation ensures abatement the formation of embedded chips along the surface in cryogenic trepanning. Increase in MRR is ascertained at 0.8 % in cryogenic trepanning compared to conventional trepanning. A decrease of 30.99 % and 72.30 % in flank and crater wear, respectively is ascertained in cryogenic trepanning in correlation to conventional trepanning of DSS 2507 steel is ascertained. The corrosion resistance in cryogenic trepanning increased by 59.78 % analogous to conventional trepanning of DSS 2507 steel. In cryogenic trepanning, a passivation barrier is ascertained with interatomic spacing curtailment along with a surge of ferrite phase, causing an upsurge in the compressive residual factor.
Prabhu, T.M.,Devakumar, C.,Sastry, V.R.B.,Agrawa, D.K. Asian Australasian Association of Animal Productio 2002 Animal Bioscience Vol.15 No.3
Various products of karanj (Pongamia glabra) are utilized for industrial, health and animal agriculture applications in the Indian subcontinent. Despite a rich source of protein (CP, 28-34%), karanj cake was found to be slightly bitter in taste and toxic owing to the presence of flavonoid (Karanjin), restricting its safe inclusion in the livestock diets. Feeding trials with raw cake revealed its poor palatability and adverse performance among different categories of livestock including poultry. The present study was, therefore, aimed to detoxify karanj cake by various physico-chemical methods like solvent extraction, water washing, pressure cooking and alkali and acid treatments. The level of residual karanjin in raw and variously processed cake was quantified using high performance liquid chromatography (HPLC). The raw expeller karanj cake was found to contain about 0.19% of karanjin. Though a non-polar solvent, soxhlet extraction of expeller pressed cake with petroleum ether drastically reduced karanjin content (0.01%). Soaking of cake for 24 h in 1% NaOH (w/w) solution was found to reduce karanjin to a major extent with little further benefit by increasing alkali level. Milder alkalies like lime and fertilizer grade urea reduced the karanjin levels marginally. Similar was the case with mineral acids such as HCl and glacial acetic acid. It was, therefore, concluded that solvent extraction of karanj seeds would be the best method of detoxification as well as for more recovery of oil and karanjin.
Musalia, L.M.,Anandan, S.,Sastry, V.R.B.,Katiyar, R.C.,Agrawal, D.K. Asian Australasian Association of Animal Productio 2002 Animal Bioscience Vol.15 No.9
The effect of urea treatment on chemical composition of neem seed kernel cake (NSKC) was investigated by soaking the cake in 2.1% urea solution (1.2 l $kg^{-1}$ NSKC) for five days. The effect on utilisation of nutrients by replacing groundnut cake (GNC) (30%) with urea-treated neem seed kernel cake (UTNSKC) (33%) in a concentrate mixture fed to meet 70% of the protein requirements of lambs (8 males and 8 females), was monitored in a digestibility study. Following urea treatment of NSKC only 9.5% of urea was hydrolysed and the crude protein content of the cake was increased by 6.65%. The tannin content in depulped neem seeds was 37% catechin equivalent. Whereas feeding UTNSKC had no effect on intake of dry matter (72.5 vs 66.3 g/kg $BW^{0.75}day^{-1}$) and digestibility of crude fibre (41.3 vs 43.4%), the cake depressed (p<0.01) the percent digestibility of dry matter (63.7 vs 70.2), crude protein (63.2 vs 70.2), nitrogen free extract (73.8 vs 80.5) and gross energy (64.3 vs 69.1). Digestibility of ether extract (75.8 vs 70.9%) was higher (p<0.05) in animals offered UTNSKC. The nutritive value of the composite ration consumed by lambs offered UTNSKC was lower (p<0.01) in terms of total digestible nutrients (64.7 vs 70.2%) and digestible energy (2.8 vs 3.0 Kcal/g DM). Intake of digestible energy (199.8 vs 194.1 Kcal/kg $BW^{0.75}day^{-1}$) and retention of nitrogen (7.53 vs 8.23 g $day^{-1}$) and calcium (2.12 vs 1.84 g $day^{-1}$) were comparable on the 2 rations. Animals fed UTNSKC retained less (p<0.01) phosphorus (0.37 vs 1.05 g $day^{-1}$). The results indicate that urea treatment increased the protein level of NSKC whereas feeding the treated cake as a replacement of GNC, lowered the digestibility of nutrients and retention of phosphorus.