International Journal of Research and Innovation in Applied Science (IJRIAS)

Mallikarjun Ghaleppa, Danappa G Akka – March 2018 Page No.: 01-06

For any graph G and any positive integer k assign vertex labels from {0, 1, 2,…, k-1} so that when the edge labels are induced by the absolute value of difference of the vertex labels, the number of vertices labeled with i and the number of vertices labeled with j differ by atmost one and the number of edges labeled with i and the number of edges labeled with j differ by at most one. Cahit called a graph with such an assignment of labels k-equitable. In this paper, we show that the corona graphs CnoK1 are 9-equitable as per cahit’s definition of k-equitability.

  •  Page(s): 01-06
  •  Date of Publication: 20 March 2018
  •  Mallikarjun Ghaleppa
    Department of Mathematics,
    Sri Krishna Institute of Technology, Bengaluru, Karnataka, India
  •  Danappa G Akka
    Department of Mathematics,
    Alliance College of Engineering and Design, Alliance University, Bengaluru, Karnataka, India

References

 

[1]. D G Akka and Sanjay Roy, Cahit-7-equitability of corona Cnok1.International journal of mathematical sciences and Applications, Vol. 1 No. 3 (2011) 1609-1618.
[2]. D G Akka and Dayanand G.K. Cahit-8-equitability of corona Cnok1. International journal of research in Engineering and Technology, Vol.03 NCRIET (2014)
[3]. Bloom, problem posed at the Graph theory meeting of the New York Academy of Science, Nov. (1989).
[4]. Barrientos, Dejter and Hevia, Equitable labelings of forests Comin, and Graph theory I (1995) 1-26.
[5]. R Frucht and F Haray, On the corona of two graphs, Aequationes Mathematicae (1971).
[6]. Vasanti N Bhat Nayak and ShantaTelang, Cahit-equitability of Coronas, Ars Combinatoria, Vol. 71 (2004) 3-32.
[7]. J. Wojeiechowski, Equitable of cycles, J. of Graph Theory Vol. 17, No. 1 (1993) 531-547.

Mallikarjun Ghaleppa, Danappa G Akka “Cahit-9-Equitability of Coronas Cnok1“, International Journal of Research and Innovation in Applied Science -IJRIAS vol.3 issue 3 March 2018, pp.01-06 URL: https://www.rsisinternational.org/journals/ijrias/DigitalLibrary/Vol.3&Issue3/01-06.pdf

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Tejashri. S. Hasabe, A.R. Dhole – March 2018 Page No.: 07-08

Hygrophila auriculata belonging to family Acanthaceae; is also known as Asteracantha longifolia and commonly known as “Neermulli, Talmakhana, Kokilaksha & Iksura” is a common plant growing in marshy and water logged areas. The plant is an important medicinal herb, widely distributed in India and is used for different medicinal purposes. Asteracantha longifolia is an important medicinal herb and is used in traditional system of medicine for various ailments like diuretics, jaundice, diopsy, rheumatism, hepatic, obstructions and dissolution of gallstones, kidney stones, liver dysfunction and disease of urinogenital tracts. It contains lupeol, β-sitosterol, stigmasterol, butelin, fatty acids, and alkaloids.

  •  Page(s): 07-08
  •  Date of Publication: 20 March 2018
  •  Tejashri. S. Hasabe
    Rajarambapu College of Pharmacy, Kasegaon, Sangli, Maharashtra, India
  •  A.R. Dhole
    Rajarambapu College of Pharmacy, Kasegaon, Sangli, Maharashtra, India

References

 

[1]. Ghritlahare S. K., Trilochan Satapathy, Prasanna Kumar Panda, Geetanjali Mishra, Ethanopharmacological Story of Guggul Sterones, An Overview Research Journal of pharmacognocy and Phytochemistry, 2017,09(03),182-188.
[2]. Dr. Vijay Nigam, Dr. Rajesh Kumar Mishra, Ankita Gupta and Dr. Manoj Kumar Bhati, Pharmacognostic Study, Characterization Of Marker Compounds And Pharmacological Review Of Aerial Parts Of Hygrophila Auriculata (Schumach.) Heine, World Journal Of Pharmacy And Pharmaceutical Sciences, 2015,4(12), 1127-1143.
[3]. Nagendra Singh Chauhan, V. K. Dixit. Asteracantha longifolia (L.) Nees, Acanthaceae: chemistry, traditional, medicinal uses and its pharmacological activities – a review. Revista Brasileira de Farmacognosia Brazilian Journal of Pharmacognosy, 2010, 20(5): 812-817.
[4]. P.Shanmugasundaram and S. Venkataraman, ANTI-NOCICEPTIVE ACTIVITY OF HYGROPHILA AURICULATA (SCHUM) HEINE, Afr. J. Trad. CAM, 2005, 2 (1), 62- 69.
[5]. Rajina PV and Shini Dominic, Toxicity evaluation of Ethanolic Extract of Astercantha longifolia Seeds, Hygeia journal for drugs and medicines, 2013, 5 (1),152-163.
[6]. D. Kshirsagar, K. G. Ingale, and V. S. Thorve. Hygrophila spinosa: A comprehensive review. Pharmacognocy Reviews. 2010; 4(8): 167–171.
[7]. J Panigrahi, M Behera, S Maharana, R.R.Mishra, Biomolecular changes during in vitro organogenesis of Asteracantha longifolia (L.) Nees-A medicinal herb, Indian Journal of Experimental Biology, 2007, 45, 911-919.
[8]. Sunita Shailajan, Neelam Sayed and Bhavesh Tiwari, Evaluation of the impact of regional variation on b-sitosterol content in Asteracantha longifolia Nees. seeds using HPTLC and HPLC technique, Pharmacognosy Communications 2013, 3(3), 16-21.
[9]. Nagendra Singh Chauhan, V. K. Dixit. Asteracantha longifolia (L.) Nees, Acanthaceae: chemistry, traditional, medicinal uses and its pharmacological activities – a review. Revista Brasileira de Farmacognosia Brazilian Journal of Pharmacognosy, 2010, 20(5): 812-817
[10]. https://easyayurveda.com/2017/03/07/kokilaksha-asteracantha-longifolia/
[11]. Nagendra Singh Chauhan, V. K. Dixit. Asteracantha longifolia (L.) Nees, Acanthaceae: chemistry, traditional, medicinal uses and its pharmacological activities – a review. Revista Brasileira de Farmacognosia Brazilian Journal of Pharmacognosy, 2010, 20(5): 812-817.
[12]. Nikam Dattatraya, Mundada Shreekant, Mishra Dayashankar. KOKILAKSH: A POTENIAL AYURVEDIC HERB. Nikam Dattatraya et al/ IJRAP,2012, 3(6),780-782.
[13]. Nagendra Singh Chauhan, V. K. Dixit. Asteracantha longifolia (L.) Nees, Acanthaceae: chemistry, traditional, medicinal uses and its pharmacological activities – a review. Revista Brasileira de Farmacognosia Brazilian Journal of Pharmacognosy, 2010, 20(5): 812-817.

Tejashri. S. Hasabe, A.R. Dhole “A Potential Herbal Plant- Asteracantha Longifolia” International Journal of Research and Innovation in Applied Science -IJRIAS vol.3 issue 3 March 2018, pp.07-08 URL: https://www.rsisinternational.org/journals/ijrias/DigitalLibrary/Vol.3&Issue3/07-08.pdf

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Uttam Mondal, Bholanath Mondal and Raju Das  – March 2018  Page No.: 09-11

Efficacy of different antibiotics viz. oxy-tetracycline hydrochloride, streptocycline, chloramphenicol, streptomycin sulphate, norfloxacin, griseofulvin and ciprofloxacin at different concentrations (100, 200, 500 and 1000 ppm) towards Xanthomonas axonopodis pv. citri (Hasse) Vauterin et al. was compared by in vitro sensitivity study measuring the inhibition zone through Agar cup method during August, 2016 at Department of Plant Protection, Palli-Siksha Bhavana, Visva-Bharati, West Bengal. Streptocycline was most effective (25.73mm) followed by chloramphenicol (23.10mm) and oxy-tetracycline hydrochloride (22.80mm) when applied at 1000ppm concentration. Antibiotics applied at 500ppm were statistically at par with the 1000ppm concentration. In all cases 200ppm was efficacious than the 100ppm, but were statistically at par. Application of antibiotic with proper dose might be used to manage the destructive disease effectively, and can be incorporated in Integrated Disease Management Programme.

  •  Page(s): 09-11
  •  Date of Publication: 23 March 2018
  •  Uttam Mondal
    Department of Plant Protection,
    Palli-Siksha Bhavana (Institute of Agriculture), Visva-Bharati, Sriniketan, West Bengal, India
  •  Bholanath Mondal
    Department of Plant Protection,
    Palli-Siksha Bhavana (Institute of Agriculture), Visva-Bharati, Sriniketan, West Bengal, India
  •  Raju Das
    RRSS, Sekhampur, Bidhan Chandra Krishi Viswavidyalaya, Birbhum, West Bengal, India

References

 

[1]. Anonymous (1995). Laboratory Manual of Plant Bacteriology. Division of Plant Pathology, IARI, New Delhi, pp. 51.
[2]. Das, R., Mondal, B., Mondal, P., Khatua, D. C. and Mukherjee, N. (2012). Disease intensity of citrus canker on acid lime in relation to abiotic and biotic factors. Journal of Agrometeorology, 14 (Spl.): 107-111.
[3]. Das, R., Mondal, B., Mondal, P., Khatua, D. C. and Mukherjee, N. (2014). Biological management of citrus canker on acid lime through Bacillus subtilis (S-12) in West Bengal, India. Journal of Biopesticides, 7(Supp.): 38-41.
[4]. Gottwald, T. R., Graham, J. H. and Schubert, T. S. (1997). An epidemiological analysis of the spread of citrus canker in urban Miami, Florida, and synergistic interaction with the Asian citrus leaf miner. Fruits, 52: 383-390.
[5]. Hembrom, K. C., Ray, S. K., Mondal, B. and Khatua, D. C. (2011). Bacterial wilt of gladiolus and sensitivity of the pathogen towards chemicals. Journal of Plant Protection and Environment, 8 (2): 79-84.
[6]. Mondal, B. (2012). Pathogenic Menace for Brinjal Cultivation in West Bengal: Bacterial Wilt of Brinjal. LAP LAMBERT Academic Publishing Gmbh & Co. KG, Germany, pp. 144.
[7]. Mondal, B., Cattopadhyay, S. B., Bhattacharya, I. and Khatua, D. C. (2005). Efficacy of different antibiotics and anti-bacterial compounds against bacterial wilt disease of tomato in West Bengal. Environment and Ecology, 23: 73-77.
[8]. Mondal, U., Mondal, B. and Mondal, P. (2017). Incidence of citrus canker on acid lime in Red and Lateritic Agro-Climatic Zone of West Bengal, India. International Journal of Bio-Resource, Environment and Agricultural Sciences, 3(1): 453-458.

Uttam Mondal, Bholanath Mondal and Raju Das “Laboratory Evaluation of Antibiotics against Xanthomonas axonopodis pv. citri (Hasse) Vauterin et al. Causing Citrus Canker” International Journal of Research and Innovation in Applied Science -IJRIAS vol.3 issue 3 March 2018, pp.09-11 URL: https://www.rsisinternational.org/journals/ijrias/DigitalLibrary/Vol.3&Issue3/09-11.pdf

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Composition of Pathway Fractional Integral Operator on (p, q) -Extended Struve Function

Poonam Maheshwari and Harish Nagar – March 2018  Page No.: 12-14

In this paper we present Pathway Fractional Integral Operator involving (p, q) – extended Struve function Hv,p,q(Z), which is expressed in terms of Hadamard product of the (p, q) -extended Gauss Haypergeometric function and the Fox-Wright function rΨs (Z). The result obtained here is also reduced to the known result of R. K. Parmar and J. Choi as special case.

  •  Page(s): 12-14
  •  Date of Publication: 23 March 2018
  •  Poonam Maheshwari
    Research Scholar,
    School of Basic and Applied Science, Sangam University, Bhilwara, Rajasthan, India
  •  Harish Nagar
    Associate Professor,
    School of Basic and Applied Science, Sangam University, Bhilwara, Rajasthan, India

References

 

[1]. A. M. Mathai: A pathway to matrix- variate gamma and normal densities. Linear Algebra and its Applications 396, (2005), 317-328.
[2]. A. M. Mathai and H. J Houbold.: Pathway model, Superstatistics, T sallis statistics and a generalized measure of entropy. Physics A 375, (2007), 110-122.
[3]. A. M. Mathai and H. J Houbol.: On generalized distributions and pathways. Physics Letters 372, (2008), 2109-2113.
[4]. A. M. Mathai, R. K. Saxena and H. J. Haubold: The H-functions: Theory and Applications, Springer, New York, 2010.
[5]. A. A. Kilbas, H. M. Srivastava and J. J. Trujillo, Theory and Applications of Fractional Differential Equations, North-Holland Mathematical Studies, 204, Elsevier (North-Holland) Science Publishers, Amsterdam, London and New York, 2006.
[6]. D. J. Maŝireviĉ, R. K. Parmar and T. K. Pogány, ( p, q) -extended Bessel and modified Bessel functions of the first kind, Results Math. 72 (2017), 617-632. doi:10.1007/s00025-016-0649-1.
[7]. F. W. J. Olver, D. W. Lozier, R. F. Boisvert and C. W. Clark, eds., NIST Handbook of Mathematical Functions, Cambridge University Press, Cambridge, 2010.
[8]. G. N. Watson, A Treatise on the Theory of Bessel Functions, 2nd ed., Cambridge University Press, Cambridge, London and New York, 1944.
[9]. H. M. Srivastava and J. Choi, Zeta and q-Zeta Functions and Associated Series and Integrals, Elsevier Science Publishers, Amsterdam, London and New York, 2012
[10]. H. M. Srivastava and P. W. Karlsson, Multiple Gaussian Hypergeometric Series, Halsted Press (Ellis Horwood Limited, Chichester), John Wiley and Sons, New York, Chichester, Brisbane and Toronto, 1985
[11]. H. M. Srivastava, R. K. Parmar and P. Chopra, A class of extended fractional derivative operators and associated generating relations involving hypergeometric functions, Axioms 1 (2012), 238-258
[12]. J. Choi, A. K. Rathie and R. K. Parmar, Extension of extended beta, hypergeometric and confluent hypergeometric functions, Honam Math. J. 36(2) (2014), 339-367.
[13]. J. Choi, R. K. Parmar and T. K. Pogány, Mathieu-type series built by ( p, q) -extended Gaussian hypergeometric function, Bull. Korean Math. Soc. 54(3) (2017), 789-797.
[14]. M. A. Chaudhry, A. Qadir, H. M. Srivastava and R. B. Paris, Extended hypergeometric and confluent hypergeometric functions, Appl. Math. Comput. 159 (2004), 589-602.
[15]. M. A. Chaudhry, A. Qadir, M. Rafique and S. M. Zubair, Extension of Euler’s beta function, J. Comput. Appl. Math. 78 (1997), 19-32.
[16]. M. A. Chaudhry and S. M. Zubair, On a Class of Incomplete Gamma Functions with Applications, CRC Press, Chapman and Hall, Boca Raton, FL, 2002.
[17]. M. J. Luo, R. K. Parmar and R. K. Raina, on extended Hurwitz-Lerch zeta function, J. Math. Anal. Appl. 448 (2017), 1281-1304.
[18]. R. K. Parmar and Junesang Choi: Fractional Calculus of the (p, q) – Extended struve function, Far East Journal of Mathematics Sciences (FJMS), Vol. 103, No. 2, (2018), 541-559.
[19]. R. K. Parmar and T. K. Pogány, Extended Srivastava’s triple Haypergeometric HA, p, q function and related bounding inequalities, J. Contemp. Math. Anal. 52 (2017), 276-287.
[20]. S. S. Nair: Pathway Fractional Integration Operator. Fract. Calc. Appl. Anal 12 (3),(2009), 237-252.

Poonam Maheshwari and Harish Nagar “Composition of Pathway Fractional Integral Operator on (p, q) -Extended Struve Function” International Journal of Research and Innovation in Applied Science -IJRIAS vol.3 issue 3 March 2018, pp.12-14 URL: https://www.rsisinternational.org/journals/ijrias/DigitalLibrary/Vol.3&Issue3/12-14.pdf

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Nagraj Dixit, Dr. Rahulkumar Hingole – March 2018 Page No.: 15-23

Metal forming is one of the most important production technologies in modern industry. Parts manufactured by this process find application in the automotive, aircraft, railroad and mining industries. The globalization, the complexity and the dynamics of the business environments present real challenges to strategic planning of metal forming process in the 21st century. So, there is a need to enhance various metal forming processes. Also, competitiveness in today’s global market is one of the major factor forcing developers to maintain the high quality of production with less development time. In order to maintain close control of various metal forming operations, frequent measurement and process parameter adjustments are desirable. The design and manufacturing process contain a critical step where part design and specifications are converted into actual objects [1].
Over the past year’s attempts have been made by researchers to develop computer-based systems to support the process of strategic planning of metal forming. Here World Wide Web is used as the platform for the online metal forming operation and it offers several advantages to the conventional stand-alone approach. Web-Enabled Expert system can provide solutions to various problem in metal forming. With the advent of the Internet and its evolution, web-enabled expert system has become very important. This paper presents a process for Web-Enabled Expert System for Metal forming Processes. Use of this expert system is platform independent, so it gives the facility to access of information from any location at any time. This allows the designer to instantly transfer their design to shop floor and allows the manufacturing of product on a global, rather than regional basis [15-18].

  •  Page(s): 15-23
  •  Date of Publication: 30 March 2018
  •  Nagraj Dixit
    Assistant Professor, Department of Mechanical Engineering,
    JSPM’s Rajarshi Shahu College of Engineering, Pune, India
  •  Dr. Rahulkumar Hingole
    Professor and Head, Department of Mechanical Engineering,
    D.Y.Patil College of Engineering, Akurdi, Pune, India

References

 

Journal Papers:

[1]. Huseyin Altınkaya, Ilhami M. Orak, Ismail Esen, (2014). Artificial neural network application for modeling the rail rolling process, Expert Systems with Applications 41 © 2014 Elsevier Ltd., pp7135–7146.
[2]. Alexander Pesin, Denis Pustovoytov, (2014). Finite element modeling of edge defect formation in plate rolling, Procedia Engineering 81, © Elsevier Ltd., pp.132 – 136.
[3]. Santosh Kumar, Prof.Bharat S Kodli, A Study on Thermo-Mechanical Analysis of Hot Rolling & Estimation of Residual Stresses by using FEM, (2013). IOSR Journal of Mechanical and Civil Engineering (IOSR-JMCE) e-ISSN: 2278-1684, p-ISSN: 2320-334X, Volume 9, Issue 3 (Sep. – Oct. 2013), PP 26-34.
[4]. Iztok Perus, Milan Tercelj, Goran Kugler, (2012). Determination of scrap/supply probability curves for the mechanical properties of aluminum alloys in hot extrusion using a neural network-like approach, Expert Systems with Applications 41, Elsevier Ltd., pp. 5634–5640.
[5]. Nassir Anjami, Ali Basti, (2010). Investigation of rolls size effects on hot ring rolling process by coupled thermo-mechanical 3D-FEA, Journal of Materials Processing Technology 210, pp. 1364–1377.
[6]. S.H. Jeong, S.H. Lee, G.H. Kim, H.J. Seo, T.H. Kim, (2008). Computer simulation of U-channel for under-rail roll forming using rigid-plastic finite element methods, Journal of materials processing technology 201, pp. 118–122.
[7]. Jong-Ho Song, Yong-Taek Im, (2007). The applicability of process design system for forward extrusion of spur gears, Journal of Materials Processing Technology 184, pp. 411–419.
[8]. A. Downes, P. Hartley, (2006). Using an artificial neural network to assist roll design in cold roll-forming processes, Journal of Materials Processing Technology 177, pp. 319–322.
[9]. X.Q. Zhang, Y.H. Peng, X.Y. Ruan, K. Yamazaki, (2006). Feature based integrated intelligent sequence design for cold extrusion, Journal of Materials Processing Technology 174, pp. 74–81.
[10]. Yabo Guan, Farhang Pourboghrat, Frederic Barlat, (2006). Finite element modeling of tube hydroforming of polycrystalline aluminum alloy extrusions, International Journal of Plasticity 22, pp. 2366–2393.
[11]. J.H. Song, Y.T. Im, (2004). Development of a computer-aided-design system of cold forward extrusion of a spur gear, Journal of Materials Processing Technology, pp. 821–828.
[12]. H. Long, D.J. Mynors, P. Holland, P.M. Standring, (2002). Forming feature representation and process selection in cold extrusion, Journal of Materials Processing Technology, pp. 456–463.
[13]. Charles Hindman, Karl B. Ousterhout, (1998). A virtual design system for sheet metal forming, Journal of Materials Processing Technology 84, Elsevier, pp. 107–116.
[14]. Xiaohui Shen, Jing Liu, Xianjin Wang, Chin-Chuan Huang, (2003). Development of an applied roll forming pass design expert system based on the shape element idea, Journal of Materials Processing Technology 140, pp. 505–508
[15]. Xiaohui Shen, Jing Liu, Xianjin Wang, Chin-Chuan Huang, (2003). Development of an applied roll forming pass design expert system based on the shape element idea, Journal of Materials Processing Technology 140, pp. 505–508.

Conference Papers:

[16]. Che Wei Chang, Rong Shean Lee, Ting Wei Chang, (2017), Development of Knowledge-Expandable Ontology-Based Expert System for Process Planning in Cold Forging of Flange Nuts, International Conference on the Technology of Plasticity, ICTP 2017, 17-22 September 2017, Cambridge, United Kingdom, pp. 502-507.
[17]. Jae Kwan Kima, Wonbin Ahn, Myon Woong Park, (2015). An Implementation of Web-Based Machining Operation Planning, 25th DAAAM International Symposium on Intelligent Manufacturing and Automation, DAAAM, pp. 1062-1067.
[18]. L.Nyanga, A.F.Van der Merwe, S. Matope, M.T.Dewa,(2015). A web-based manufacturability agent framework for an E- manufacturing system, 3rd CIRP Global Web Conference, pp. 167-172.
[19]. G. Kurz, S. Pakulat, J. Bohlen, D. Letzig, (2015). Rolling twin roll cast magnesium strips with varied temperature and degree of deformation, Conference MEFORM , Light Metals – Forming Technologies and Further Processing. pp- 208- 214.
[20]. K. Richter, R. Haase, F. Schieck, D. Landgrebe, (2015). Tempered forming of magnesium alloys using the example of roll forming, Conference MEFORM , Light Metals – Forming Technologies and Further Processing, pp. 560-566.
[21]. John L. Michaloskia, Y. F. Zhaob, B. E. Leea, W. G. Rippeya, (2013). Web-enabled, Real-time, Quality Assurance for Machining Production Systems, 12th CIRP Conference on Computer Aided Tolerancing, ScienceDirect, Procedia CIRP 10, pp. 332 – 339.

Nagraj Dixit, Dr. Rahulkumar Hingole “Web-Enabled Expert System for Metal Forming Processes” International Journal of Research and Innovation in Applied Science -IJRIAS vol.3 issue 3 March 2018, pp.15-23 URL: https://www.rsisinternational.org/journals/ijrias/DigitalLibrary/Vol.3&Issue3/15-23.pdf

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A Case Study, Analysing Just in Time of Various Banks

Nahid Akhtar, Kuldeep Singh – March 2018 Page No.: 24-32

Financial Services (FSs) are recently attracting growing interest due to the competitive pressures resulting from the globalization through numerous mergers, the distribution of their products and services through alternative channels and their shift from products to customers. The conducted case study identifies some problems. Survey of these common problems will help to simplify the work in financial services.

  •  Page(s): 24-32
  •  Date of Publication: 01 April 2018
  •  Nahid Akhtar
    Assistant Professor at LIET, Alwar, Rajasthan, India
  •  Kuldeep Singh
    M.Tech Research Scholar, LIET, Alwar, Rajasthan, India

References

 

[1]. Aksoy, A., Ozturk, N. (2011), “Supplier selection and performance evaluation in just-in-time production environments”, Expert Systems with Applications, Vol. 38, Issue 5, pp. 6351-6359.
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[3]. Shad, D., Farzam, T. (2009), “The development of a conceptual framework for Just-In-Time implementation in SMEs”, Production Planning and Control, Vol. 20, No. 7, pp. 611-621.
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[5]. Su, K.D. (1994), “How a leading heavy industry in Korea implements JIT philosophy to its operations”, Computer Industrial Engineering, Vol. 27, No.1-4, pp.5-9.
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[7]. Telsung, M.T. and Patil, S.K. (2006), “Relationship between work culture and operational performance in JIT environment”, IEEE International Conference on Management of Innovation and Technology, Vol. 8, No.6, pp. 159-162.
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[16]. Chauhan, G., & Singh, T. P. (2012). Measuring parameters of lean manufacturing realization. Measuring Business Excellence, 16(3), 57-71.
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[18]. CezarLucato, W., AraujoCalarge, F., Loureiro Junior, M., &DamascenoCalado, R. (2014). Performance evaluation of lean manufacturing implementation in Brazil. International Journal of Productivity and Performance Management, 63(5), 529549
[19]. Sharma, S. Standardization and Certification in Lean Manufacturing for Technology and Product Development in service Oriented Industies.
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Nahid Akhtar, Kuldeep Singh “A Case Study, Analysing Just in Time of Various Banks” International Journal of Research and Innovation in Applied Science -IJRIAS vol.3 issue 3 March 2018, pp.24-32 URL: https://www.rsisinternational.org/journals/ijrias/DigitalLibrary/Vol.3&Issue3/24-32.pdf

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Digambar Singh, Dwarka Prasad, and Ajay Kumar – March 2018 Page No.: 33-38

Integration of renewable energy sources to power grid has achieved a great importance in electrical power system. With significant enhancement in technology, the generating cost of electrical power from RESs has been declining for the past few years. In the present paper, Primal-Dual Interior Point method (PDIPM) has been applied for maximizing social benefit and minimizing power loss. A cost based multi-attribute function has been proposed for optimal location of renewable energy generators by considering social benefit, power loss, and pollutant emission. The availability of wind power sources has also been considered in this study for optimal placement of renewable generators. Additionally, the proposed approach based on availability of renewable energy sources and cost based multi-attribute function is validated on IEEE-6. It has been found minimum power loss and emission profile.

  •  Page(s): 33-38
  •  Date of Publication: 01 April 2018
  •  Digambar Singh
    Electrical Engineering Department
    Laxmi Devi Institute of Engineering & Technology, Alwar -301028, India
  •  Dwarka Prasad
    Electrical Engineering Department
    Laxmi Devi Institute of Engineering & Technology, Alwar -301028, India
  •  Ajay Kumar
    Mechanical Engineering Department
    Laxmi Devi Institute of Engineering & Technology, Alwar -301028, India

References

 

[1]. A. J. Lamadrid, Optimal use of energy storage systems with renewable energy sources, Electrical Power and Energy Systems 71 (2015), 101-111.
[2]. M. Motalleb, E.Reihani and R. Ghorban, Optimal placement and sizing of the storage supporting transmission and distribution networks, Renewable Energy 94 (2016), 651-659
[3]. A.Y. Abdelaziz , Y.G. Hegazy, Walid El-Khattam and M.M. Othman, Optimal allocation of stochastically dependent renewable energy based distributed generators in unbalanced distribution networks. Electric Power Systems Research (2015),119, 34-44.
[4]. C.D. Yue, C.S. Chen and Y.C. Lee, Integration of optimal combinations of renewable energy sources into the energy supply of Wang-An Island, Renewable Energy (2016) , 86, 930-942.
[5]. A.K. Singh and S.K. Parida, A novel hybrid approach to allocate renewable energy sources in distribution system, Sustainable Energy Technologies and Assessments 10 (2015), 1-11.
[6]. A. Keane and O.M. Malley, Optimal allocation of embedded generation on distribution networks, IEEE Trans Power Syst. (2005), 20, 1640-46.
[7]. G. Mokryani, P. Siano and A. Piccolo, Social welfare maximization for optimal allocation of wind turbines in distribution systems, In: Proceedings of the 11th International Conference on Electrical Power Quality and Utilization, Lisbon, Italy, 17-19 October 2011, pp. 1-6.
[8]. N.K. Sharma and Y. R. Sood, Strategy for optimal location and rating of wind power generator with maximization of social welfare in double auction competitive power market, Journal of Renewable and Sustainable Energy (2014), 6, 013123.
[9]. D. Gautam and N. Mithulananthan, Optimal DG placement in deregulated electricity market, Elect Power Syst Res. (2007), 77, 1627-36.
[10]. Z.A. Muis, H. Hashim, Z.A. Manan, F.M. Taha and P.L. Douglas, Optimal Planning Of Renewable Energy-Integrated Electricity Generation Schemes With CO2 Reduction Target, Renewable Energy. (2010), 35(11), 2562-2570.
[11]. P. Phonrattanasak and M.M.O. Sakamoto, Optimal placement of solar farm on the power system network, In: Proceedings of the Department of Electrical Engineering, North Eastern University, Khonkaen, Thailand, 2013, pp. 1-6
[12]. J. H. Teng, Power flow and loss allocation for deregulated transmission systems, Electrical Power and Energy Systems 27 (2005), 327-333
[13]. L. L. Lai, Power System Restructuring and Deregulation, John Wiley and Sons Ltd, New York, 2001.
[14]. G.P. Dixit and H.M. Dubey, Artificial Bee Colony Optimization For Combined Economic and Emission Dispatch, In: Second International Conference on Sustainable Energy and Intelligent System (SEISCON 2011), Chennai, Tamil Nadu, India.
[15]. Allen. J. Wood and Bruce F. Wollenberg, Power Generation, Operation, and Control, 2nd Edition, by John Wiley & Sons, NY, Jan 1996.
[16]. K. Thenmalar , S. Anujak and S. Ramesh. Multi-objective economic emission load dispatch solution using wolfs method in various generation plants with wind power penetration. In: Electronics and Communication Systems (ICECS), 2014 International Conference, 13-14 Feb. 2014, Coimbatore, India.
[17]. Thiru.S. Akshaya Kumar, Thiru. G.Rajagopal, and T.Prabhakara Rao. TAMIL NADU ELECTRICITY REGULATORY COMMISSION, Comprehensive Tariff Order on WIND ENERGY, march 2016.

Digambar Singh, Dwarka Prasad, and Ajay Kumar “Optimal Utilization and Location of Renewable Energy Generator in Deregulated Power Market” International Journal of Research and Innovation in Applied Science -IJRIAS vol.3 issue 3 March 2018, pp.33-38 URL: https://www.rsisinternational.org/journals/ijrias/DigitalLibrary/Vol.3&Issue3/33-38.pdf

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Ajay Kumar, Rajeev Dudeja and Digambar Singh – March 2018 Page No.: 39-42

In the current scenario, all manufacturing and service industries are fighting for their survival, and it depends on their product quality and price of the product. Both depends on the way to manufacture the product, if there is any deficiency in manufacturing process, it will reflect both the quality and price of the product. For this purpose, various machines are used and these machines are controlled through pneumatic system which interns work by compressed air. Havells India Ltd Alwar plant is facing a problem of moisture in compressed air at the machine ends which limits the machine parts efficiency and cable quality. Moisture in compressed air used in a manufacturing plant causes problems in the operation of pneumatic systems, solenoid valves and air motors and can adversely affect the process or product being manufactured. Havells India Ltd. Desire to control the amount of moisture generated in compressed air. To arrive at a solution, a moisture separator is manufactured and fitted at the machine ends. The effect of it on compressed air quality is observed.

  •  Page(s): 39-42
  •  Date of Publication: 12 April 2018
  •  Ajay Kumar
    Mechanical Engineering Department,
    Laxmi Devi Institute of Engineering & Technology, Alwar -301028, India
  •  Rajeev Dudeja
    M.Tech Scholar,
    Laxmi Devi Institute of Engineering & Technology, Alwar -301028, India
  •  Digambar Singh
    Electrical Engineering Department,
    Laxmi Devi Institute of Engineering & Technology, Alwar -301028, India

References

 

[1]. Electrical energy equipment: Compressors and compressed air systems.
[2]. Drying Compressed Air Guide moisture.
[3]. Applications Engineering – Compressed Air Drying, oct-2013
[4]. IOSR Journal of Mechnical and Civil Engineering (IOSR-JMCE) e-ISSN: 2278-1684, p-ISSN:2320-334X, pp. 17-19
[5]. ADP to PDP Conversion Table-ELGI.

Ajay Kumar, Rajeev Dudeja and Digambar Singh “In House Manufactured Mechanical Water Separator” International Journal of Research and Innovation in Applied Science -IJRIAS vol.3 issue 3 March 2018, pp.39-42 URL: https://www.rsisinternational.org/journals/ijrias/DigitalLibrary/Vol.3&Issue3/39-42.pdf

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Tarannum, Atul Singh Soam, Hariom Bhardwaj, Bharat Bhardwaj, Tanya Gupta – March 2018 Page No.: 43-45

This paper includes about human values, the ways it can be inculcated and the types of human values too. Value education is not simply the heart of education, but also the education of the heart. It is a vital ingredient required to develop a strong moral basis to a student’s life and to give them opportunity of doing well on the world. The central idea behind value education is to develop essential values among the students and it teaches to manage complexities that can be continued and further developed. This paper also outlines the role of family and society in inculcating values through its various institutions and tools

  •  Page(s): 43-45
  •  Date of Publication: 12 April 2018
  •  Tarannum
    Professor, Department of Applied Science,
    Laxmi Devi Institute of Engineering and Technology, Alwar, Rajasthan, India
  •  Atul Singh Soam
    B. Tech. Students,
    Laxmi Devi Institute of Engineering and Technology, Alwar, Rajasthan, India
  •  Hariom Bhardwaj
    B. Tech. Students,
    Laxmi Devi Institute of Engineering and Technology, Alwar, Rajasthan, India
  •  Bharat Bhardwaj
    B. Tech. Students,
    Laxmi Devi Institute of Engineering and Technology, Alwar, Rajasthan, India
  •  Tanya Gupta
    B. Tech. Students,
    Laxmi Devi Institute of Engineering and Technology, Alwar, Rajasthan, India

References

 

[1]. https://academic.oup.com/forestry/article/76/1/3/516300
[2]. https://ideas.repec.org/a/asi/ijoass/2012p2283-2290.html
[3]. https://onlinelibrary.wiley.com/doi/10.1111/j.1540-4560.1994.tb01201.x/full
[4]. https://www.emeraldinsight.com/doi/abs/10.1108/03090590710772631
[5]. https://www.annualreviews.org/doi/abs/10.1146/annurev.so.09.080183.000331
[6]. https://www.yourarticlelibrary.com/essay/values/human-values-meaning-nature-and-types/86964
[7]. https://ijariie.com/AdminUploadPdf/Role_of_Teachers_in_Inculcating_Values_among_Students_c1256.pdf

Tarannum, Atul Singh Soam, Hariom Bhardwaj, Bharat Bhardwaj, Tanya Gupta”Human Values and their Inculcation” International Journal of Research and Innovation in Applied Science -IJRIAS vol.3 issue 3 March 2018, pp.43-45 URL: https://www.rsisinternational.org/journals/ijrias/DigitalLibrary/Vol.3&Issue3/43-45.pdf

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