A Note on One Sided and Two Sided PO-Ternary Ideals in PO-Ternary Semiring

In this paper the term, left(lateral, right and two sided) PO-ternary ideal, maximal left(lateral, right and two sided) PO-ternary ideal, left (lateral, right and two sided) PO-ternary ideal of T generated by a set A, principal left (lateral, right and two sided) PO-ternary ideal generated by an element a left (lateral, right and two sided) simple PO-ternary semiring are introduced. It is proved that (1) the non-empty intersection of any two left (lateral, right and two sided) PO-ternary ideals of a PO-ternary semiring T is a left (lateral, right and two sided) PO-ternary ideal of T. (2) non-empty intersection of any family of left (lateral, right and two sided) PO-ternary ideals of a POternary semiring T is a left(lateral, right and two sided) PO-ternary ideal of T. (3) the union of any left PO-ternary ideals of a PO-ternary semiring T is a left PO-ternary ideal of T. (4) the union of any family of left(lateral, right and two sided) PO-ternary ideals of a PO-ternary semiring T is a left(lateral, right and two sided) PO-ternary ideal of T. (5) The left (lateral, right and two sided) PO-ternary ideal of a PO-ternary semiring T generated by a non-empty subset A is the intersection of all left(lateral, right and two sided) PO-ternary ideals of T containing A. (6) If T is a PO-ternary semiring and a∈T then L(a) =  (Te Tea + na] = (Te Tea U na] (M(a) = (Tea Te + TeTe aTeTe + na] = ( Tea Te U TeTe aTeTe U na], R (a) = (aTe Te + na ] = (aTe Te U na] and T(a) = (Te Tea + aTe Te + TeTe aTeTe +na] = (Te Tea UaTe Te UTeTe aTeTe Una]). (7) A PO-ternary semiring T is a left(lateral, right) simple PO-ternary semiring if and only if (TTa] = T ((TaT U TTaTT] = T, (aTT] = T) for all a∈T

Beneficiation of Kyanite and Sillimanite

KYANITE and sillimanite have the same chemical compo-sition AI2O3. Si02 and are used extensively in the ref-ractory brick manufacture.Kyanite sillimanite having a minimum 60% AI2O3 and less than 1% of iron oxide prefe-rably in the form of 1/2" lumps are required by the refractory industry. Low grade sillimanites from Bihar, Maharastra, Karnataka and Orissa were tested in NML for either upgrading or lowering the iron oxide content of the samples. Depending upon the liberation size, kyanite is usually upgraded by gravity methods when the lighter siliceous gangue comprising quartz and mica are removed. When the gravity methods fail, flota-tion is employed. Iron oxides are eliminated by either reduction roast followed by magnetic separation or acid leaching

DEVELOPMENT AND VALIDATION OF RP-HPLC METHOD FOR THE ESTIMATION OF SITAFLOXACIN IN BULK AND PHARMACEUTICAL DOSAGE FORMS

Objective: A simple, specific, and precise reversed phase high performance liquid chromatography method was developed and validated as per the ICH guidelines for the determination of Sitafloxacin in bulk and tablet dosage forms.Methods: The quantitation was carried out by using Symmetry C18 ((5 µm, 100X4.6 mm) column at 300c with Water: Acetonitrile in ratio of 70:30 % V/V as mobile phase. The flow rate is 0.9 mL/min and the estimation was carried out by using PDA detector at 300 nm.Results: The retention time of Sitafloxacin was 2.198 minutes. The linearity was observed from 5-25 μg/mL with correlation coefficient 0.9999. The LOD and LOQ were found to be 0.429μg/mL and 1.415μg/mL respectively.Conclusion: The Statistics data for the Sitafloxacin was concluded that the method was found to be simple, reliable, selective, reproducible and accurate. The method was successfully used for quality control analysis of Sitafloxacin in bulk and Pharmaceutical dosage forms.Â

Predictive maintenance and fault diagnosis of hydraulic gear coupling of a boiler feed pump unit

Increasing demand for reliability and performance of today’s most complex machines, and maintaining high productivity without sacrificing product quality have made it imperative for maintenance engineers to devise newer strategies in maintenance of plant and machinery. One of such strategies is condition monitoring, which has emerged as one of the most powerful technology in maintenance engineering. Condition monitoring and diagnostic engineering is a novel concept which enables us to detect in advance any incipient failure with ease and confidence in any part of a dynamic system before such failure trigger – off various types of failure mechanisms, which in turn may render the whole system uneconomical, unreliable, unhealthy, unsafe and even lethal. The present work highlights an experimental investigation to monitor the vibration behavior of hydraulic gear coupling, which is a part of Boiler Feed Pump train of a large utility Thermal Power Plant.  The coupling is supported by 4 Bearings. Tri-axial measurements are made at the bearing supports for 12 months. Displacement and Velocity are measured along Horizontal, Vertical and Axial directions. The experimental data is plotted on Time domain for graphical analysis to ease viewing of vibration signals. Based on the experimental data, faults are diagnosed using ISO – 2372 standards and causes are predicted. It is observed that the front and rear bearings of Input and output shafts of coupling are experiencing excess vibration. The work is concluded by suggesting remedial measures to ensure vibration intensity, at the said points, within the safe limits.&nbsp