Friday, June 11, 2021

Accessories of Design

 Elements of Design needs to be carefully studied and applied to creation of any space. Design sometimes suffers from a dilemma about combination of Art and its appreciation elements of Design. Light in a house not solely either an art or a science but is a combination of both. Applied design is not like physics or biology or writing or painting, but it involves these areas and more. Design tends towards a generalized approach, collecting specifics from diverse areas as needed. Design is a combination of art, science, technology and intuition. Composition of rhythm Balance, Contrast and light in a built space plays an important role in the functioning and feeling of an space. Apart from the basic design elements there is always an added feature associated with the design and it is termed as accessories. This added feature may be a kind of light. Colour, shade, Proportion, Shape or anything else added which elaborates the whoe design and makes it’s a unique combination of Aesthetics and utility. Lustrous, Luminous, rendered and graphical applications to basic deisgn create a balance and harmony within the space and its surrounding. This paper discuss about the Visual element of design as an accessory in accordance with luminance and Lustrous element which when added make the Design different from the others. and the techniques used to incorporate them in ideal spatial creation. Balance and Positive combinations of form and functions 


by Dr. Mukesh Kumar Lalji | Sushma Sharma | Ar. Babita Malhotra | Jyoti Mehra | Ar. Raj Prajapati | Ar. Sandhya Kasibhatla | Ar. Prashant Budhiya | Dr. Sheetal Sharma "Accessories of Design" 

Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-4 , June 2021, 

URL: https://www.ijtsrd.compapers/ijtsrd42475.pdf 

Paper URL: https://www.ijtsrd.comengineering/architecture-and-planning/42475/accessories-of-design/dr-mukesh-kumar-lalji

internationaljournalsofcomputerscience, callforpapercomputerscience, ugcapprovedjournalsforcomputerscience 

Structural Balance Theory Based Recommendation for Social Service Portal

There is enormous data present in our world. Therefore in order to access the most accurate information is becoming more difficult and complicated. As a result many relevant information gets missed which leads to much duplication of work and effort. Due to the huge search results, the user will generally have difficulty in identifying the relevant ones. To solve this problem, a recommendation system is used. A recommendation system is nothing but a filtering information system, which is used to predict the relevance of retrieved information according to the user’s needs for some criteria. Hence, it can provide the user with the results that best fit their needs. The services provided through the web normally provide huge records about any requested item or service. A proper recommendation system is used to separate this information result. A recommendation system can be improved further if supported with a level of trust information. That is, recommendations are prioritized according to their level of trust. Recommending appropriate needs social service to the target volunteers will become the key to ensure continuous success of social service. Today, many social service systems does not adopt any recommendation techniques. They provide advertisement or highlights request for a small commission.


 

by G. Banupriya | M. Anand "Structural Balance Theory-Based Recommendation for Social Service Portal" 

Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-4 , June 2021, 

URL: https://www.ijtsrd.compapers/ijtsrd41216.pdf 

Paper URL: https://www.ijtsrd.comengineering/software-engineering/41216/structural-balance-theorybased-recommendation-for-social-service-portal/g-banupriya

peerreviewedinternationaljournal, callforpaperinugcapprovedjournals, paperpublicationforstudent

Low Cost Temperature and Humidity Estimator with Atmega8 Microcontroller

This paper presents a efficient but also cost effective system to determine two parameters of the atmosphere, which are the temperature and humidity. The Digital Temperature and Humidity Sensor 22 DHT 22 is used to measure the temperature and humidity. The temperature measured is the ambient temperature of the atmosphere and humidity is the relative humidity of the atmosphere. The system is constructed with AVR atmega8 as a controller and a LCD liquid crystal display 16x2 display as a means to display the temperature and humidity. Through the Arduino IDE Integrated Development Environment code Is uploaded to the ATmega8. Also as the display is operated in 4 bit mode thus there are many pins of the ATmega8 which are available for other purposes and the system becomes compact. Thus the small device can be adjusted in different places for use. As it is using a ATmega8 it can be used to command various devices as temperature and humidity varies. 


by M. Matsive Ali | MD. Rhineul Islam | Ashikur Rahman "Low Cost Temperature and Humidity Estimator with Atmega8 Microcontroller" 

Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-4 , June 2021, 

URL: https://www.ijtsrd.compapers/ijtsrd41155.pdf 

Paper URL: https://www.ijtsrd.comengineering/electrical-engineering/41155/low-cost-temperature-and-humidity-estimator-with-atmega8-microcontroller/m-matsive-ali

openaccessjournalofengineering, engineeringjournal, paperpublicationforengineering

Utilization of Banana Peel Powder in Concrete

Analysis of properties of concrete using banana peel as admixture is studied and verified the strength of concrete and temperature emitted due to chemical reaction to the normal Portland cement. The percentage of transmission temperature and reduction time of temperature has decreased hence it is clear that the exothermal reaction in concrete has been reduced by using dried banana peel powder as admixture. The percentage of transmission temperature and reduction time of temperature has decreased hence it is clear that the exothermal reaction in concrete has been reduced by using dried banana peel powder as admixture. Ingredients other than cement, water and aggregates that import a specific quality to either plastic fresh mix or the hardened concrete ASTMC 496 is called concrete admixture. The flexural strength of concrete by using banana peel powder as admixture has increased, but considerable lesser compressive strength has increased. 


by Rahul Mohabe | G. D. Dhawade | R. K. Kakpure "Utilization of Banana Peel Powder in Concrete" 

Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-4 , June 2021, 

URL: https://www.ijtsrd.compapers/ijtsrd41186.pdf 

Paper URL: https://www.ijtsrd.comengineering/civil-engineering/41186/utilization-of-banana-peel-powder-in-concrete/rahul-mohabe

callforpapermedicalscience, medicalsciencejournal

Wednesday, June 9, 2021

Seismic Analysis of G 10 Storey Building with Various Locations of Shear Walls using Etabs

Shear walls are specially designed structural members provided in the multi storey buildings to resist lateral forces. These walls have very high in plane strength and stiffness, which can resist large horizontal forces and can support gravity loads. There are lots of literatures available to design and analyse the shear wall. However, what is the optimum location of shear wall in multi storey buildings are not discussed extensively in any literature. It is very necessary to determine effective, efficient and ideal location of shear wall to get effective performance of the buildings. In this paper, therefore, main focus is to determine the efficient and effective location of shear walls in multi storey buildings. In this paper, various models of G 10 storeyed building have been analysed by changing locations of shear walls for determining parameters like Base Shear, Lateral Displacement and Storey Drift. In this paper the Linear static method of analysis has been carried out on type II soil Medium soil sites for a regular structure in plan in zone V for all the frame models and various load combinations are applied using software ETABS.The presence of shear wall can affect the seismic behaviour of frame structure to large extent, and the shear wall increases the strength and lateral stiffness of the structure. It has been found that the model M 09 having shear walls at the centroid of the building in cross shape shape shows better location of shear wall. 


by Ravi Kumar Vishwakarma | Vipin Kumar Tiwari "Seismic Analysis of G+10 Storey Building with Various Locations of Shear Walls using Etabs" 

Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-4 , June 2021, 

URL: https://www.ijtsrd.compapers/ijtsrd43646.pdf 

Paper URL: https://www.ijtsrd.comengineering/structural-engineering/43646/seismic-analysis-of-g10-storey-building-with-various-locations-of-shear-walls-using-etabs/ravi-kumar-vishwakarma

callforpaperchemistry, chemistryjournal, openaccessjournalofchemistry 

A Review on Study of Heat Transfer Analysis of Helical Coil Heat Exchangers

 Now a day’s a geometrically modified Helical coil heat exchangers are widely using in industrial applications like cryogenic state processes, air conditioning, thermal nuclear reactors and waste heat recovery due to their compact size and high heat transfer coefficient. Advantage of using helical coils over straight tubes is that the residence time spread is reduced, allowing helical coils to be used to reduce axial dispersion in tubular reactors. In this study, numerical investigation of the influence of geometrical parameters such as tube diameter d , coil radius R , and coil pitch p on overall heat transfer coefficient in helical double tube heat exchangers are performed using a professional CFD software FLUENT. In recent years, numerous styles were introduced for heat exchangers that apply to completely different applications sadly, their heat transfer co efficient wasnt reliable at different operational conditions. the standard of the heat changed rate wasnt optimized and there have been many deficiencies and errors in styles. The heat transfer of the copper material is enhanced in comparison with other material unfortunately thermal resistance is reduced with an increase in pressure drop thus enhancing the heat transfer on the heat exchanger. Helical architecture is often designed with a clear motive of compact size and also address heat transfer co efficient and other ancillary attributes efficiently and effectively. So the better material is suggested for an industrial heat exchanger according to the applications is Copper with the basis of simulation results. The geometry and different dimension parameter of the helical coil show that the proposed study in different material properties and different mass flow rates to heat transfer are maximum in different parameter helical coil heat exchangers. Finally, the heat transfer increase for the copper material compared to another material but with the increase in pressure drop the corresponding thermal resistance decreases which allow the improved heat transfer rate and the rate increases from Aluminum to Bronze to Copper. With the drop in temperature, the thermal resistance is reduced which enhances the heat transfer rate. The simulation results show that the copper has a high heat transfer coefficient than Aluminum and Bronze while operating in identical conditions. Due to the extensive use of helical coils in various applications, knowledge about the flow patterns and heat transfer characteristics are important. 


by Atul Vats | Sunil Kumar Chaturvedi | Abhishek Bhandari "A Review on Study of Heat Transfer Analysis of Helical Coil Heat Exchangers" 

Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-4 , June 2021, 

URL: https://www.ijtsrd.compapers/ijtsrd43650.pdf 

Paper URL: https://www.ijtsrd.comengineering/mechanical-engineering/43650/a-review-on-study-of-heat-transfer-analysis-of-helical-coil-heat-exchangers/atul-vats

callforpaperbiologicalscience, biologicalsciencejournal

Behavior of Compressive and Flexure Strength in High Performance Concrete using Steel Fiber and Polyethylene Fiber for Concrete Structure

Concrete is powerful in pressure yet feeble in strain and fragile moreover. Breaks additionally start framing as fast in light of the fact that the substantial is found. These three downsides dont permit the utilization conventional cement in asphalts as they cause absence of flexibility alongside break and disappointment. These shortcomings in cement might be relieved via the utilization of strands as support in the substantial blend. Squander substances looking like polyethylene and tires reason ecological contamination which prompts various wellness issues. Polyethylene and waste tires can be reused and utilized productively in the substantial as support in the fiber structure. Polyethylene is an engineered hydrocarbon polymer that may improve the malleability, power, shrinkage characteristics, etc. This paper offers with the impacts of expansion of polyethylene fiber on the places of cement. Polyethylene and tire filaments have been cut into the components of 30mm x 6mm and that they were utilized 1.5 each by utilizing amount. Evaluation of cement utilized were M30, M35 and M40. IRC 44 2008 changed into noticed for the design of substantial mix. In this notice, the outcomes of the Strength homes of Polyethylene fiber reinforced cement had been provided. 4 point twisting investigate were refined in the lab for flexure judgments. There changed into apparent a blast of 18 inside the multi day compressive force close by a development of 39 in flexure and 32 in shear power. 22 lower in 4 point twisting check and 36 diminishing in avoidance diverted into discovered from the examinations. Hypothetical assessment of redirection changed into performed via the help of power procedures. Reasonable qualities were affirmed with the hypothetical qualities inside as far as possible. At long last it very well may be reasoned that polyethylene and tire might be utilized effectively in fortified concrete cement. 


by Anand Sagar Khajre | Sambhav Gangwal | Toshi Bhawsar "Behavior of Compressive and Flexure Strength in High Performance Concrete using Steel Fiber and Polyethylene Fiber for Concrete Structure" 

Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-4 , June 2021, 

URL: https://www.ijtsrd.compapers/ijtsrd42488.pdf 

Paper URL: https://www.ijtsrd.comengineering/civil-engineering/42488/behavior-of-compressive-and-flexure-strength-in-high-performance-concrete-using-steel-fiber-and-polyethylene-fiber-for-concrete-structure/anand-sagar-khajre

callforpaperphysics, physicsjournal