Araştırma Makalesi
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Comparative Static and Frequency Case Analysis of Water Pump Impeller: A Case Study for Brass, Aluminium, Titanium and Plastic Material

Yıl 2020, Cilt: 2 Sayı: 2, 88 - 96, 20.12.2020

Öz

This study addresses the modeling and static case analysis of carbon steel and alloy steel water pump impeller to inspect the deformation, stress, strain, vibrations and displacement. Pump impellers are mostly manufactured with stainless steel or mild steel in which its relative high density has led to an increase in corrosion resistance, weight and a low tensile strength. A brass, aluminium, titanium or plastic material can be deployed instead of carbon steel to enhance decomposition, durability and to create a lightweight pump impeller. For each of the material, the part geometry of the pump impeller and modeling is done separately using CATIA V5R20. Using FEM, the mesh visualization was done separately and in order to monitor the stress and deformation behavior, a force of 500N was used to make the von Mises stress values more significant and also to satisfy the static case. The applied force is being used to compute and display the von-misses stress, displacements, and deformation. The primary goal of this paper is to investigate for the most favorable material that is best suitable for manufacturing impeller. A structural analysis has been carried out to investigate for the best stress value between the materials as well as its displacement. This study also explains the modal analysis in demonstrating how quick either of the materials gets deformed with respect to its natural frequencies.

Teşekkür

It is our privilege to acknowledge the valuable support and encouragement of Professor O. G. Akanbi of the Department of Industrial and Production Engineering, University of Ibadan for his immense contribution. We would also love to show our deep appreciation to Dr. Musa, Head of Mechanical Engineering Department of Moshood Abiola Polytechnic, Ogun State for his mentorship and motivation towards this research.

Kaynakça

  • Anirudha, S.B., Gore, P.N. (2017). A review paper on improvement of impeller design a centrifugal pump using FEM and CFD. International Journal for Innovative Research in Science and Technology, 4(4): 6-8.
  • Ghanshyam, G.I., Gandigude, A.U. (2017). Structural Analysis, Material Optimization using FEA and Experimentation of Centrifugal Pump Impeller. International Journal of Advance Research, Ideas and Innovations in Technology 3(4): 97-105.
  • Khin, C.T., Mya, M.K., Khin, M.A. (2008). Design and Performance Analysis of Centrifugal Pump. World Academy of Science, Engineering and Technology: 46.
  • Pandya, K., Patel, C.M. (2014). A Critical Review on CFD Analysis of Centrifugal Pump Impeller. IJAERD, 1(6):16-25.
  • Rajendran, S., Purushothaman, K. (2012). Analysis of centrifugal pump impeller using ANSYS-CFX. International Journal of Engineering Research & Technology, 1(3): 1-6.
  • Sajjan, B., Santhosh, A., Jaya, M.R., Anusha, K. (2016). Linear Static and Dynamic Analysis of Impeller Type Centrifugal Pump with Different Materials. International Journal of Engineering Science and Computing, 6(11): 3105-3116.
  • Sampathkumar, M., Varaprasad, D., Vijaykumar (2014). Static Analysis of Centrifugal blower using Composite Material. The International Journal of Engineering and Science, 3(9): 25-31.
  • Syam, P.A., Lakshmipathi, B.R., Babji A., Kumar P.B. (2013). Static and Dynamic Analysis of a centrifugal pump impeller. International Journal of Scientific & Engineering Research, 4(1): 966-971.

Comparative Static and Frequency Case Analysis of Water Pump Impeller: A Case Study for Brass, Aluminium, Titanium and Plastic Material

Yıl 2020, Cilt: 2 Sayı: 2, 88 - 96, 20.12.2020

Öz

This study addresses the modeling and static case analysis of carbon steel and alloy steel water pump impeller to inspect the deformation, stress, strain, vibrations and displacement. Pump impellers are mostly manufactured with stainless steel or mild steel in which its relative high density has led to an increase in corrosion resistance, weight and a low tensile strength. A brass, aluminium, titanium or plastic material can be deployed instead of carbon steel to enhance decomposition, durability and to create a lightweight pump impeller. For each of the material, the part geometry of the pump impeller and modeling is done separately using CATIA V5R20. Using FEM, the mesh visualization was done separately and in order to monitor the stress and deformation behavior, a force of 500N was used to make the von Mises stress values more significant and also to satisfy the static case. The applied force is being used to compute and display the von-misses stress, displacements, and deformation. The primary goal of this paper is to investigate for the most favorable material that is best suitable for manufacturing impeller. A structural analysis has been carried out to investigate for the best stress value between the materials as well as its displacement. This study also explains the modal analysis in demonstrating how quick either of the materials gets deformed with respect to its natural frequencies.

Kaynakça

  • Anirudha, S.B., Gore, P.N. (2017). A review paper on improvement of impeller design a centrifugal pump using FEM and CFD. International Journal for Innovative Research in Science and Technology, 4(4): 6-8.
  • Ghanshyam, G.I., Gandigude, A.U. (2017). Structural Analysis, Material Optimization using FEA and Experimentation of Centrifugal Pump Impeller. International Journal of Advance Research, Ideas and Innovations in Technology 3(4): 97-105.
  • Khin, C.T., Mya, M.K., Khin, M.A. (2008). Design and Performance Analysis of Centrifugal Pump. World Academy of Science, Engineering and Technology: 46.
  • Pandya, K., Patel, C.M. (2014). A Critical Review on CFD Analysis of Centrifugal Pump Impeller. IJAERD, 1(6):16-25.
  • Rajendran, S., Purushothaman, K. (2012). Analysis of centrifugal pump impeller using ANSYS-CFX. International Journal of Engineering Research & Technology, 1(3): 1-6.
  • Sajjan, B., Santhosh, A., Jaya, M.R., Anusha, K. (2016). Linear Static and Dynamic Analysis of Impeller Type Centrifugal Pump with Different Materials. International Journal of Engineering Science and Computing, 6(11): 3105-3116.
  • Sampathkumar, M., Varaprasad, D., Vijaykumar (2014). Static Analysis of Centrifugal blower using Composite Material. The International Journal of Engineering and Science, 3(9): 25-31.
  • Syam, P.A., Lakshmipathi, B.R., Babji A., Kumar P.B. (2013). Static and Dynamic Analysis of a centrifugal pump impeller. International Journal of Scientific & Engineering Research, 4(1): 966-971.
Toplam 8 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Araştırma Makalesi
Yazarlar

Feyisayo Akinwande 0000-0003-0858-885X

Samuel Kadiri Bu kişi benim

Akintayo Ojo Bu kişi benim

Yayımlanma Tarihi 20 Aralık 2020
Kabul Tarihi 5 Aralık 2020
Yayımlandığı Sayı Yıl 2020 Cilt: 2 Sayı: 2

Kaynak Göster

APA Akinwande, F., Kadiri, S., & Ojo, A. (2020). Comparative Static and Frequency Case Analysis of Water Pump Impeller: A Case Study for Brass, Aluminium, Titanium and Plastic Material. Uluslararası Mühendislik Tasarım Ve Teknoloji Dergisi, 2(2), 88-96.