A Review on Studies and Research on Insulation

 

Sunil J. Kulkarni

 

Datta Meghe College of Engineering, Airoli, Navi Mumbai, Maharashtra, India

 

ABSTRACT

 

Energy efficient plant operation is the most important research area in the industrial energy sector. The use of various methods such as pinch technology, reduction of frictional losses can reduce energy consumption to a considerable extent. The use of nonconventional energy is also becoming more and more important. Proper insulating material in construction and industrial sector can avoid energy losses to considerable extent. Current review summarizes research and studies on insulation.

 

Key words: Energy saving, heat losses, insulating materials.

 

INTRODUCTION

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Sustainable development is becoming the important and most widely used terminology in modern day engineering. Energy and environment are two pillars of sustainable development. The research carried out in environmental engineering sector strives for treatment of industrial wastewater to removal various pollutants from it such as organic matter, heavy metals and biological impurities.^[1-5] Also water treatment includes the reuse and recycling of water.^[6-8] Energy is required for all the industrial operations in manufacturing and nonmanufacturing sector. Major industrial equipments such as boiler, cooling tower, refrigerators, heat exchanger need energy. Attempts have been made to optimize the energy requirement in these equipments.^[9-12] Use of non conventional energy such as wind, tidal and solar energy is being explored with moderate to high success.^[13,14] Other measures such as application of pinch technology, reduction of friction losses can add energy effectiveness of a plant.^[15,16] Nonconventional energy resources are becoming important day by day.^[17] Proper insulation can prevent the wastage of energy and render economy to the plant operation. The current review summarizes research carried out on types and applications of insulation.

 

RESEARCH AND STUDIES ON INSULATION

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Zach et.al. carried out studies on development of thermal insulation plasters.^[18] They used this insulation for insulating and sanitation of building constructions. According to them, thermal insulation of outer structures of buildings is an issue that is often closely associated with moisture sanitation and recovery. In their paper, they described the results of research that is oriented toward the development of ultra-light thermal insulation plasters on silicate base. They observed that lightweight plaster mixtures which are based on lightweight aggregate of obsidian and lime hydrate show a very good ratio of thermal insulating and mechanical properties. It was also proved during the investigation that fly-ash is a suitable alternative substitution for metakaolin. Inorganic heat insulation panel based on sepiolite nanofibers was studied with respect to preparation and performance by Wang et.al.^[19] They developed energy saving panel materials containing sepiolite nanofibers by means of the synergistic action of inorganic adhesive, curing agent, and hydrogen peroxide. They used sodium fluorosilicate as curing material and sodium silicate as inorganic adhesive. They observed that the synergistic action of inorganic adhesive, curing agent, and hydrogen peroxide enhanced performance of   thermal insulation energy saving panel materials. Heat transmission and external forces were effectively arrested by these materials. Swinton et.al. studied performance of thermal insulation on the exterior of basement walls.^[20] They observed that only small differences were found among the different products in their ability to provide sustained thermal performance. According to these studies, it is very important to avoid even limited contact with another thermally conductive element, such as concrete. It can have a significant impact on the thermal performance of the entire basement wall system. According to them, exterior insulation can provide a first line of defence for the basement envelope system if it has sufficient water management capability. Hopper evaluated the installation of retrofitted external wall insulation.^[21] He presented an overview of an evaluation of the installation of retrofitted external wall insulation (EWI) at existing dwellings in Swansea. Their studies were concentrated on identifying the occurrence of potential thermal bridges as these can undermine the overall effectiveness of the EWI. According to them, thermal bridging can lead to internal condensation on the walls and ceilings. This can pose health problems for occupants. Garber-Slaght and Craven studied   window insulation for cold climates.^[22] According to them, it is necessary upgrade or insulate windows in order to improve the thermal envelope of a home. In the area of long summer season, it becomes uneconomical to change the window. It is always envisaged to have an insulation system which is cheaper and convenient. Ability of homeowners to frequently move or maintain window insulation plays important role in windows insulation system. Hebner studied electrical machines in electric ships with respect to insulation.^[23] The standards provided, according to them cannot guide the effective insulation system. According to them, there is a need to specify the electrical, thermal and mechanical environment that a ship power system will experience. Zach et.al. studied alternative thermal insulations based on sheep wool.^[24] According to them ship wool has many advantages such as no health risk, easy to renew, easy to recycle, high hygroscopic nature etc. They carried out tests under frequently occurring and strict climatic conditions. They concluded that sheep wool is an excellent acoustic insulating material.

 

CONCLUSION

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Proper insulating material can make the construction and operational activities energy efficient. Heat losses can be minimized by using proper insulating materials. Thermal insulation of outer structures of buildings is an issue that is often closely associated with moisture sanitation and recovery. The synergistic action of inorganic adhesive, curing agent and hydrogen peroxide enhance performance of   thermal insulation energy saving panel materials.

 

REFERENCES

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1.      Sunil J. Kulkarni, Ajaygiri K. Goswami, Adsorption Studies for Organic Matter Removal from Wastewater by Using Bagasse Flyash in Batch and Column Operations, International Journal of Science and Research, 2013, 2(11), 180-183.

2.      Sunil J. Kulkarni, Modeling for Adsorption Columns for Wastewater Treatment: a Review‖, International Journal of Innovative Research in Engineering & Multidisciplinary Physical Sciences (IJIRMPS), 2014, 2(2), 7-11.

3.      Sunil J. Kulkarni, Ajaygiri K. Goswami, Applications and Advancements in Treatment of Waste Water by Membrane Technology- A Review, International Journal Of Engineering Sciences & Research Technology, 2014,3(9),446-450.

4.      Sunil J. Kulkarni, Removal of phenol from Effluent in Fixed Bed: A Review‖, International Journal of Engineering Research and General Science, 2014, 2(5), 35-39.

5.      Sunil J. Kulkarni, Suhas V Patil, and Y. P. Bhalerao, Fly ash Adsorption Studies for Organic Matter Removal Accompanying Increase in Dissolved Oxygen, International Journal of Chemical Engineering and Applications, 2011, 2(6),434-438.

6.      Sunil Jayant Kulkarni, Recycle and Reuse of Water- A Review, International Journal of Research (IJR), 2014, 1(11),802-805.

7.      Pallavi Amale, Sunil Kulkarni, Kavita Kulkarni, A Review on Research for Industrial Wastewater Treatment with Special Emphasis on Distillery Effluent, International Journal of Ethics in Engineering & Management Education, 2014, 1(9), 1-4.

8.      Pallavi Amale, Sunil Kulkarni, Kavita Kulkarni, Studies on Packed Bed Treatment for Organic Matter in Distillery Effluent, International Journal of Engineering Science and Innovative Technology (IJESIT), 2014, 3(5), 268-272.

9.      Sunil J. Kulkarni, Ajaygiri K. Goswami, Studies and Research on Operation, Modeling and Simulation of Boilers: A Review, International Journal on Scientific Research in Science and Technology, 2015 ,(1)4, 59-61.

10.  Sunil J. Kulkarni, Ajaygiri K. Goswami, Studies and Experimentation on Cooling Towers: A Review, International Research Journal of Engineering and Technology, 2015, 2(5), 279-283.

11.  Sunil Jayant Kulkarni, Ajaygiri Kamalgiri Goswami, Application, Advancements and Research on Drying-A Review, International Journal for Research in Applied Science & Engineering Technology, 2015, 3(8), 403-407.

12.  Sunil J. Kulkarni, Ajaygiri K. Goswami, Research and Reviews on Refrigeration–A Summery, International Journal of Modern Trends in Engineering and Research, 2015, 2(9), 65-69.

13.  Sunil Jayant Kulkarni, Tidal Energy: A Review, International Journal of Research (IJR),2015,2(1), 55-58.

14.  Sunil Jayant Kulkarni, Solar Distillation: A Review, International Journal of Research (IJR), 2014, 1(11), 1171-1176.

15.  Sunil J. Kulkarni, Ajaygiri K. Goswami, Studies and Research on Friction, Friction Factor and Affecting Factors: A Review, International Journal of Engineering Sciences & Research Technology, 2014, 3(10), 355-359.

16.  Y. P. Bhalerao, S. V. Patil, P. V. Vijay Babu, and S. J. Kulkarni, Energy Retrofit Studies in Diethyl Thiophosphoryl Chloride (DETC) Plant, International Journal of Chemical Engineering and Applications,2011, 2(6),439-445.

17.  Sunil J. Kulkarni, Ajaygiri K. Goswami, A Review on Studies and Research for Biodiesel Production from Various Feed stocks, International Journal of Engineering Research and Management,2014, 1(6), 136-138.

18.  J. Zach, R. Hela, M. Sedlmajer, And J. Hroudova, Development Of Thermal Insulation Plasters For Insulating And Sanitation Of Building Constructions, International Journal Of Engineering And Technology, 2013, 5(3),395-397.

19.  Fei Wang, Jinsheng Liang, Haifeng Liu,  Xinhui Duan,Qingguo Tang, And Huimin Liu, Preparation And Performance Of Inorganic Heat Insulation Panel Based On Sepiolite Nanofibers, Journal Of Nanomaterials, Journal Of Nanomaterials, 2014,Volume 2014,7 Pages.

20.  M.C. Swinton, M.T. Bomberg, M.K. Kumaran, N. Normandin And W. Maref, Performance Of Thermal Insulation On The Exterior Of Basement Walls, 1999, Concrete Tech., Update, 36, 1-8.

21.  Joanne Hopper, Evaluating The Installation Of Retrofitted External Wall Insulation, CIAT Student Award: Technical Report (2012), Cardiff Metropolitan University, 1-9.

22.  Robbin Garber-Slaght And Colin Craven, Evaluating Window Insulation For Cold Climates,2011,Journal Of Green Building, 7(3), 35-48.

23.  R.E.Hebner, Electrical Insulation Challenges For Rotating Machines Used On Future Electric Ships, 28th Electrical Insulation Conference, Held In Conjunction With 2007 EIC/Electrical Manufacturing Expo (2007 EIC/Emexpo), Nashville, Tennessee, U.S.A., October 22-24, 2007.

24.  Jirí Zach, Azra Korjenic, Vít Petránek, Jitka Hroudova, Thomas Bednar, Performance Evaluation And Research Of Alternative Thermal Insulations Based On Sheep Wool, Energy And Buildings, 2013, 49,246–253.

 

How to cite this article: Kulkarni SJ. A review on studies and research on insulation. International Journal of Science & Healthcare Research. 2016; 3(1):66-69.

 

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