Experimental Study on the Effect of CuO DI Water Nanofluids on Heat Transfer ...YogeshIJTSRD
In this experimental study, convective heat transfer and friction factor characteristics of CuO DI water nanofluids flowing through a plain tube with spiraled rod inserts SRI is studied. The experiment is conducted under laminar flow and constant heat flux conditions. CuO nanoparticles are dispersed in Deionized DI water to prepare CuO DI water nanofluids with 0.1 volume concentration of nanoparticles. From the experimental results, it is found that the inclusion of nanoparticles in DI water enriches the Nusselt number. The enhancement in Nusselt number is 19 at Re 2240 for a plain tube with nanofluids of 0.1 volume concentration compared to DI water. Two copper SRIs with pitches 50 mm and 30 mm are used which increased the Nusselt number by 35.9 and 37.2 respectively with nanofluids of 0.1 volume concentration compared to DI water. The estimated friction factor with the use of nanofluids is 4.2 more than the DI water, which is an insignificant one, so there is no penalty in pumping power. P. Arunkumar | S. Anbu | K. Velmurugan | K. Gurunath "Experimental Study on the Effect of CuO/DI Water Nanofluids on Heat Transfer and Pressure Drop in a Circular Tube with Inserts" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-3 , April 2021, URL: https://www.ijtsrd.com/papers/ijtsrd38661.pdf Paper URL: https://www.ijtsrd.com/engineering/nano-technology-/38661/experimental-study-on-the-effect-of-cuodi-water-nanofluids-on-heat-transfer-and-pressure-drop-in-a-circular-tube-with-inserts/p-arunkumar
Effect Of Cuo-Distilled Water Based Nanofluids On Heat Transfer Characteristi...IJERA Editor
In this paper, the heat transfer and pressure drop characteristics of the distilled water and the copper oxide-distilled water based nanofluid flowing in a horizontal circular pipe under constant heat flux condition are studied. Copper oxide nanoparticles of 40nm size are dispersed in distilled water using sodium dodecyl sulphate as surfactant and sonicated the nanofluid for three hour. Both surfactant and sonication increases the stability of the nanofluid. The nanofluids are made in three different concentration i.e. 0.1 Vol. %, 0.25 Vol. % and 0.50 Vol. %. The thermal conductivity is measured by KD2 PRO, density with pycnometer, viscosity with Brookfield LVDV-III rheometer. The results show that the thermal conductivity increases with both temperature and concentration. The viscosity and density increases with concentration but decreases with temperature. The specific heat is calculated by model and it decreases with concentration. The experimental local Nusselt number of distilled water is compared with local Nusselt number obtained by the well known shah equation for laminar flow under constant heat flux condition for validation of the experimental set up. The relative error is 4.48 % for the Reynolds number 750.9. The heat transfer coefficient increases with increase in both flow rate and concentration. It increases from 14.33 % to 46.1 % when the concentration is increased from 0.1 Vol. % to 0.5 Vol. % at 20 LPH flow rate. Friction factor decreases with increase in flow rate. It decreases 66.54 % when the flow rate increases from 10 LPH to 30 LPH for 0.1 Vol. %.
EXPERIMENTAL INVESTIGATION ON IMPROVING THE COOLING PERFORMANCE OF AUTOMOBILE...IAEME Publication
The convective heat transfer rate inside a flat tube radiator of an automobile using
CuO-Water nanofluids were investigated experimentally and numerically. Nanofluid
of 0.1%, 0.2%, 0.3% volume concentrations were prepared using CuO nanoparticle
with water as base fluid. The effect of mass flow rate, volume concentration inlet
temperature on heat transfer rate with varied coolant mass flow rate ranging from
6LPM, 8LPM, 10LPM were examined. Results shows that heat transfer rate linearly
increases with increase in mass flow rate and volume concentration, the best heat
transfer rate is achieved at 0.3% volume fraction of CuO at 10LPM. A maximum
enhancement of 35% in heat transfer rate is obtained for 0.3% concentration of CuO
nanofluid
Experimental Study on the Effect of CuO DI Water Nanofluids on Heat Transfer ...YogeshIJTSRD
In this experimental study, convective heat transfer and friction factor characteristics of CuO DI water nanofluids flowing through a plain tube with spiraled rod inserts SRI is studied. The experiment is conducted under laminar flow and constant heat flux conditions. CuO nanoparticles are dispersed in Deionized DI water to prepare CuO DI water nanofluids with 0.1 volume concentration of nanoparticles. From the experimental results, it is found that the inclusion of nanoparticles in DI water enriches the Nusselt number. The enhancement in Nusselt number is 19 at Re 2240 for a plain tube with nanofluids of 0.1 volume concentration compared to DI water. Two copper SRIs with pitches 50 mm and 30 mm are used which increased the Nusselt number by 35.9 and 37.2 respectively with nanofluids of 0.1 volume concentration compared to DI water. The estimated friction factor with the use of nanofluids is 4.2 more than the DI water, which is an insignificant one, so there is no penalty in pumping power. P. Arunkumar | S. Anbu | K. Velmurugan | K. Gurunath "Experimental Study on the Effect of CuO/DI Water Nanofluids on Heat Transfer and Pressure Drop in a Circular Tube with Inserts" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-3 , April 2021, URL: https://www.ijtsrd.com/papers/ijtsrd38661.pdf Paper URL: https://www.ijtsrd.com/engineering/nano-technology-/38661/experimental-study-on-the-effect-of-cuodi-water-nanofluids-on-heat-transfer-and-pressure-drop-in-a-circular-tube-with-inserts/p-arunkumar
Effect Of Cuo-Distilled Water Based Nanofluids On Heat Transfer Characteristi...IJERA Editor
In this paper, the heat transfer and pressure drop characteristics of the distilled water and the copper oxide-distilled water based nanofluid flowing in a horizontal circular pipe under constant heat flux condition are studied. Copper oxide nanoparticles of 40nm size are dispersed in distilled water using sodium dodecyl sulphate as surfactant and sonicated the nanofluid for three hour. Both surfactant and sonication increases the stability of the nanofluid. The nanofluids are made in three different concentration i.e. 0.1 Vol. %, 0.25 Vol. % and 0.50 Vol. %. The thermal conductivity is measured by KD2 PRO, density with pycnometer, viscosity with Brookfield LVDV-III rheometer. The results show that the thermal conductivity increases with both temperature and concentration. The viscosity and density increases with concentration but decreases with temperature. The specific heat is calculated by model and it decreases with concentration. The experimental local Nusselt number of distilled water is compared with local Nusselt number obtained by the well known shah equation for laminar flow under constant heat flux condition for validation of the experimental set up. The relative error is 4.48 % for the Reynolds number 750.9. The heat transfer coefficient increases with increase in both flow rate and concentration. It increases from 14.33 % to 46.1 % when the concentration is increased from 0.1 Vol. % to 0.5 Vol. % at 20 LPH flow rate. Friction factor decreases with increase in flow rate. It decreases 66.54 % when the flow rate increases from 10 LPH to 30 LPH for 0.1 Vol. %.
EXPERIMENTAL INVESTIGATION ON IMPROVING THE COOLING PERFORMANCE OF AUTOMOBILE...IAEME Publication
The convective heat transfer rate inside a flat tube radiator of an automobile using
CuO-Water nanofluids were investigated experimentally and numerically. Nanofluid
of 0.1%, 0.2%, 0.3% volume concentrations were prepared using CuO nanoparticle
with water as base fluid. The effect of mass flow rate, volume concentration inlet
temperature on heat transfer rate with varied coolant mass flow rate ranging from
6LPM, 8LPM, 10LPM were examined. Results shows that heat transfer rate linearly
increases with increase in mass flow rate and volume concentration, the best heat
transfer rate is achieved at 0.3% volume fraction of CuO at 10LPM. A maximum
enhancement of 35% in heat transfer rate is obtained for 0.3% concentration of CuO
nanofluid
Computational Analysis of CuO Nano Coolant in a Car RadiatorIOSRJMCE
Nanofluids are basically nanoparticles in base fluids. Nanofluids have unique features different from conventional solid-liquid mixtures in which nano sized particles of metals and nonmetals are dispersed. Due to improvement of mechanical properties, nanofluids are widely used in heat transfer industries. The coolant is used water-based, with the addition of glycols to prevent freezing and other additives to limit corrosion, erosion and cavitations. In this study 50-50 mixture of Ethylene Glycol with water (EGW) is tested and compared with another mixture by adding 2 percent Copper oxide (CuO). The geometric model of radiator is uploaded in Autodesk CFD software for its computational analysis. It is analyzed up to 100 iterations. Both the results are compared to find the improved heat transfer rate due to the addition of 2% CuO with Ethylene Glycol and water
Increasing Thermal Conductivity of a Heat Exchanger Using Copper Oxide Nano F...IJERA Editor
A Nano fluid is the evolving concept which is very rarely used in the many core industries. Nano fluids have
found a great application in heat exchangers by increasing the thermal conductivity. We have aimed to
increasing the heat transfer co-efficient by using copper oxide Nano fluid. The Nano particles are formed by
using precipitation method and their fluids are formed by adding surfactants to the base fluid. The comparative
study on the Heat exchanger is made by using the CuO Nano Fluid and Hot water. The analysis and the results
shows that the overall heat transfer rate increases when subjected to Nano Fluids. The ethylene glycol fluid used
along with copper oxide Nano fluid will offer resistance to fouling.
Enhancement of Heat Transfer in Heat Pipes using Al2O3/Benzene Based Nano-coo...RSIS International
Nowadays, the world is experiencing many challenges in solving heat transfer issues in various engineering systems. However, limited approaches are available to solve such challenges. To increase heat transfer, many researchers found that the Nanofluid is one of the feasible coolant which increase the working efficiency of many engineering devices. Electronic equipment dissipates enormous amount of heat while in operation which directly affect the work efficiency. To increase the efficiency it is mandatory to remove the heat by using proper coolant. Hence, the heat pipes are employed in electronic devices to remove the heat. To enhance the heat transfer in heat pipe nano-coolants may be used. In this present work, thermophysical properties of different types of base fluids with Aluminium oxide (Al2O3) Nanoparticles have been investigated with different concentrations of Nanoparticles (1-5 % by volume) at 300K temperature. The effective thermal conductivity of Nanofluids is compared with the base fluid and the results show enhancement in thermal conductivity. The thermal conductivity of Nanofluid is increased up to 3% at 300K with 1 % by volume concentration of nanoparticles and 15% at 5% by volume of concentration as compared to Benzene (C6H6) base fluid.
Modeling of variable speed compressor vapour compression refrigeration system...Husain Mehdi
Lots of researches have been done and going on based on the performance evaluation of various metallic/ nonmetallic nanoparticle suspended into the conventional fluid to enhance the heat transfer property of base fluid. Also some theoretical analysis of suspension of nanoparticle Al2O3 in conventional refrigerant. On the other hand the performance of vapour compression cycle based chiller facility using nano refrigerant yet to be analyzed with different type, concentration and diameter of nanoparticle. Such as TiO2, CuO nanoparticle suspension into conventional refrigerant with different concentration and diameter have been analyzed by several investigators and also effect of variation of concentration and nanoparticle diameter on the first and second law performance of vapour compression refrigeration system is presented. The effect of changing input parameter of VCRS using nano refrigerant also affecting significantly the evaporative heat transfer coefficient and very little condor heat transfer coefficient. The idea of Suspension nanoparticle into conventional refrigerant and theoretical analysis of VCRS using nano-refrigerant is proposed after going through extensive literature review presented in this paper.
Comparative study of parabolic trough collector through MWCNT/H2o nanofluid a...Husain Mehdi
In this present work MWCNT nanofluid and water were used as working fluid to compare the thermal performance of solar parabolic trough collector. Both the fluids were flowing through receiver at different volume flow rates 160L/h and 100L/h. Experimental tests was performed only during sunny weather and temperature at outlet of receiver was measured through thermometer after every half an hour of total testing time period. MWCNT nanofluid with weight fraction 0.01% and 0.02% and water were used to find efficiency of system and it has been seen that MWCNT nanofluid 0.02wt% with 160L/h showed better results for overall thermal efficiency among other and also an application of surfactant Triton X-100 with in MWCNT nanofluid was used to enhance the quantity of heat absorption capability of base fluid
To study the behavior of nanofluids in heat transfer applications a revieweSAT Journals
Abstract Using nanofluids as an innovative kind of liquid blend including trivial volume fraction (in percent) of millimeter or nanometer size powdered particles with base fluids is fairly a novel arena or idea. The objective of this presented review paper is to inspect the performance of the nanofluid-based solar collector (NBSC). In past few years for a number of experimental and industrial thermal engineering systems solar energy has proven to be the best input energy source. Nanofluids are the fluid that has shown various developments in the thermal properties over the past decade. In the field of nanotechnology, nano fluids have a great potential to enhance the rheological properties like thermal conductivity of base fluid like water, ethanol etc. Nanofluids are the suspension of mainly the base fluid like water in nanoparticles such as alumina (Al2O3) of size micro or milimetre and shows distinctive features than that of conservative fluids used. Because of better rheological properties nanofluids are utilized to build up the performance of conventional solar thermal engineering systems. The presented literature review presents a detailed discussion about the solar collectors, applications of nanofluids in solar collector and their augmentation in thermo physical properties. Keywords: Nano fluids, Nanoparticles, Solar collector, Thermal conductivity
EFFECT OF HIGH MOLECULAR WEIGHT SURFACE ACTIVE AGENT ON HEAT TRANSFER IN POOL...ijiert bestjournal
Boiling is very complex phenomena also it is very e ffective mode of heat transfer. The boiling phenomenon is affected by different method i.e. act ive and passive method. Addition of surface active agent is active way to enhance the heat tran sfer rate. Heat transfer rate enhancement by addition of surface active method is depend on two parameter one is its ionic nature and other is its molecular weight. In this study we are going to understand the effect of high molecular weight surfactant on heat transfer for that purpose we are using Polyethylene glycol having molecular weight 2909.49 g/mol. The experimental re sult shows that addition of PEG in water increases its surface tension and considerably its surface temperature.
Improving the Cooling Performance of Automobile Radiator with TiO2/Water Nano...ijsrd.com
In this paper, forced convective heat transfer in a water based nanofluid has experimentally beencompared to that of pure water in an automobile radiator. Five different concentrations of nanofluids inthe range of 0.1-1 vol.% have been prepared by the addition of TiO2 nanoparticles into the water. The test liquid flows through the radiator consisted of 34 vertical tubes with elliptical cross section and airmakes a cross flow inside the tube bank with constant speed. Liquid flow rate has been changed in therange of 90-120 l/min to have the fully turbulent regime. Results demonstrate that increasing the fluid circulating rate canimprove the heat transfer performance. Meanwhile, application of nanofluid with low concentrations can enhance heat transfer efficiency up to 45% in comparison with pure water.
Use of Hybrid Nanofluid to Increase Heat Transfer Performance of Double Pipe ...ijtsrd
In present work, forced convection of a turbulent flow of, Al2O3 water nanofluid and Al Al2O3 water hybrid nanofluid a new advanced nanofluid composited of Al and Al2O3 nanoparticles through a double pipe heat exchanger is numerically analyzed. The solid model of the double pipe heat exchanger is created in design modular and analyzed by the computational software ANSYS 16.0.This work examines the effects of these two fluids as the working fluids, a wide range of Reynolds number 20000 = Re = 60000 and also the volume concentration 0.25 , and 0.5 on heat transfer and hydrodynamic performance. The finite volume discretization method is employed to solve the set of the governing equations. The results indicate that employing hybrid nanofluid improves the heat transfer rate with respect to nanofluid. However, the average increase of the average Nusselt number when compared to nanofluid in Al Al2O3 water hybrid nanofluid is 14 and the amount for the average increase of heat transfer coefficient would be 27.5 . Sakshi Jain | Prof. Rohit Soni "Use of Hybrid Nanofluid to Increase Heat Transfer Performance of Double Pipe Heat Exchanger using CFD" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-6 , October 2020, URL: https://www.ijtsrd.com/papers/ijtsrd33581.pdf Paper Url: https://www.ijtsrd.com/engineering/mechanical-engineering/33581/use-of-hybrid-nanofluid-to-increase-heat-transfer-performance-of-double-pipe-heat-exchanger-using-cfd/sakshi-jain
Experimental Study of CO2 Gasification of Biomethanation WasteIJERA Editor
Gasification is one of prominent thermochemical processes generally used to convert organic feedstock to combustible syngas (CO and H2). An experimental study of biomass gasification using carbon dioxide as an gasifying medium was carried out in a fixed bed gasifier. The main aim of this study was to determine the effect of temperature on the output syngas. The present study reported the results for producing syngas with CO2 as gasification agent and biomass (rice husk and bio-methanation waste) as raw material. The gasification was performed at 700-900°C respectively and CO2 flow rate was maintained at 0.5 lpm. Maximum syngas production found at high temperature (900°C). The syngas analysis showed higher hydrogen yield at higher temperatures.
Effect of nanofluid on heat transfer characteristics of double pipe heat exch...eSAT Journals
Abstract A nanofluid is a mixture of nano sized particles of size up to 100 nm and a base fluid. Typical nanoparticles are made of metals, oxides or carbides, while base fluids may be water, ethylene glycol or oil. The effect of nanofluid to enhance the heat transfer rate in various heat exchangers is experimentally evaluated recently. The heat transfer enhancement using nanofluid mainly depends on type of nanoparticles, size of nanoparticles and concentration of nanoparticles in base fluid. In the present paper, an experimental investigation is carried out to determine the effect of various concentration of Al2O3 nano-dispersion mixed in water as base fluid on heat transfer characteristics of double pipe heat exchanger for parallel flow and counter flow arrangement. The volume concentrations of Al2O3 nanofluid prepared are 0.001 % to 0.01 %. The conclusion derived for the study is that overall heat transfer coefficient increases with increase in volume concentration of Al2O3 nano-dispersion compared to water up to volume concentration of 0.008 % and then decreases. Keywords: Nanofluid, Heat Transfer Characteristics, Double Pipe Heat Exchagner, Al2O3 Nano-dispersion
Computational Analysis of CuO Nano Coolant in a Car RadiatorIOSRJMCE
Nanofluids are basically nanoparticles in base fluids. Nanofluids have unique features different from conventional solid-liquid mixtures in which nano sized particles of metals and nonmetals are dispersed. Due to improvement of mechanical properties, nanofluids are widely used in heat transfer industries. The coolant is used water-based, with the addition of glycols to prevent freezing and other additives to limit corrosion, erosion and cavitations. In this study 50-50 mixture of Ethylene Glycol with water (EGW) is tested and compared with another mixture by adding 2 percent Copper oxide (CuO). The geometric model of radiator is uploaded in Autodesk CFD software for its computational analysis. It is analyzed up to 100 iterations. Both the results are compared to find the improved heat transfer rate due to the addition of 2% CuO with Ethylene Glycol and water
Increasing Thermal Conductivity of a Heat Exchanger Using Copper Oxide Nano F...IJERA Editor
A Nano fluid is the evolving concept which is very rarely used in the many core industries. Nano fluids have
found a great application in heat exchangers by increasing the thermal conductivity. We have aimed to
increasing the heat transfer co-efficient by using copper oxide Nano fluid. The Nano particles are formed by
using precipitation method and their fluids are formed by adding surfactants to the base fluid. The comparative
study on the Heat exchanger is made by using the CuO Nano Fluid and Hot water. The analysis and the results
shows that the overall heat transfer rate increases when subjected to Nano Fluids. The ethylene glycol fluid used
along with copper oxide Nano fluid will offer resistance to fouling.
Enhancement of Heat Transfer in Heat Pipes using Al2O3/Benzene Based Nano-coo...RSIS International
Nowadays, the world is experiencing many challenges in solving heat transfer issues in various engineering systems. However, limited approaches are available to solve such challenges. To increase heat transfer, many researchers found that the Nanofluid is one of the feasible coolant which increase the working efficiency of many engineering devices. Electronic equipment dissipates enormous amount of heat while in operation which directly affect the work efficiency. To increase the efficiency it is mandatory to remove the heat by using proper coolant. Hence, the heat pipes are employed in electronic devices to remove the heat. To enhance the heat transfer in heat pipe nano-coolants may be used. In this present work, thermophysical properties of different types of base fluids with Aluminium oxide (Al2O3) Nanoparticles have been investigated with different concentrations of Nanoparticles (1-5 % by volume) at 300K temperature. The effective thermal conductivity of Nanofluids is compared with the base fluid and the results show enhancement in thermal conductivity. The thermal conductivity of Nanofluid is increased up to 3% at 300K with 1 % by volume concentration of nanoparticles and 15% at 5% by volume of concentration as compared to Benzene (C6H6) base fluid.
Modeling of variable speed compressor vapour compression refrigeration system...Husain Mehdi
Lots of researches have been done and going on based on the performance evaluation of various metallic/ nonmetallic nanoparticle suspended into the conventional fluid to enhance the heat transfer property of base fluid. Also some theoretical analysis of suspension of nanoparticle Al2O3 in conventional refrigerant. On the other hand the performance of vapour compression cycle based chiller facility using nano refrigerant yet to be analyzed with different type, concentration and diameter of nanoparticle. Such as TiO2, CuO nanoparticle suspension into conventional refrigerant with different concentration and diameter have been analyzed by several investigators and also effect of variation of concentration and nanoparticle diameter on the first and second law performance of vapour compression refrigeration system is presented. The effect of changing input parameter of VCRS using nano refrigerant also affecting significantly the evaporative heat transfer coefficient and very little condor heat transfer coefficient. The idea of Suspension nanoparticle into conventional refrigerant and theoretical analysis of VCRS using nano-refrigerant is proposed after going through extensive literature review presented in this paper.
Comparative study of parabolic trough collector through MWCNT/H2o nanofluid a...Husain Mehdi
In this present work MWCNT nanofluid and water were used as working fluid to compare the thermal performance of solar parabolic trough collector. Both the fluids were flowing through receiver at different volume flow rates 160L/h and 100L/h. Experimental tests was performed only during sunny weather and temperature at outlet of receiver was measured through thermometer after every half an hour of total testing time period. MWCNT nanofluid with weight fraction 0.01% and 0.02% and water were used to find efficiency of system and it has been seen that MWCNT nanofluid 0.02wt% with 160L/h showed better results for overall thermal efficiency among other and also an application of surfactant Triton X-100 with in MWCNT nanofluid was used to enhance the quantity of heat absorption capability of base fluid
To study the behavior of nanofluids in heat transfer applications a revieweSAT Journals
Abstract Using nanofluids as an innovative kind of liquid blend including trivial volume fraction (in percent) of millimeter or nanometer size powdered particles with base fluids is fairly a novel arena or idea. The objective of this presented review paper is to inspect the performance of the nanofluid-based solar collector (NBSC). In past few years for a number of experimental and industrial thermal engineering systems solar energy has proven to be the best input energy source. Nanofluids are the fluid that has shown various developments in the thermal properties over the past decade. In the field of nanotechnology, nano fluids have a great potential to enhance the rheological properties like thermal conductivity of base fluid like water, ethanol etc. Nanofluids are the suspension of mainly the base fluid like water in nanoparticles such as alumina (Al2O3) of size micro or milimetre and shows distinctive features than that of conservative fluids used. Because of better rheological properties nanofluids are utilized to build up the performance of conventional solar thermal engineering systems. The presented literature review presents a detailed discussion about the solar collectors, applications of nanofluids in solar collector and their augmentation in thermo physical properties. Keywords: Nano fluids, Nanoparticles, Solar collector, Thermal conductivity
EFFECT OF HIGH MOLECULAR WEIGHT SURFACE ACTIVE AGENT ON HEAT TRANSFER IN POOL...ijiert bestjournal
Boiling is very complex phenomena also it is very e ffective mode of heat transfer. The boiling phenomenon is affected by different method i.e. act ive and passive method. Addition of surface active agent is active way to enhance the heat tran sfer rate. Heat transfer rate enhancement by addition of surface active method is depend on two parameter one is its ionic nature and other is its molecular weight. In this study we are going to understand the effect of high molecular weight surfactant on heat transfer for that purpose we are using Polyethylene glycol having molecular weight 2909.49 g/mol. The experimental re sult shows that addition of PEG in water increases its surface tension and considerably its surface temperature.
Improving the Cooling Performance of Automobile Radiator with TiO2/Water Nano...ijsrd.com
In this paper, forced convective heat transfer in a water based nanofluid has experimentally beencompared to that of pure water in an automobile radiator. Five different concentrations of nanofluids inthe range of 0.1-1 vol.% have been prepared by the addition of TiO2 nanoparticles into the water. The test liquid flows through the radiator consisted of 34 vertical tubes with elliptical cross section and airmakes a cross flow inside the tube bank with constant speed. Liquid flow rate has been changed in therange of 90-120 l/min to have the fully turbulent regime. Results demonstrate that increasing the fluid circulating rate canimprove the heat transfer performance. Meanwhile, application of nanofluid with low concentrations can enhance heat transfer efficiency up to 45% in comparison with pure water.
Use of Hybrid Nanofluid to Increase Heat Transfer Performance of Double Pipe ...ijtsrd
In present work, forced convection of a turbulent flow of, Al2O3 water nanofluid and Al Al2O3 water hybrid nanofluid a new advanced nanofluid composited of Al and Al2O3 nanoparticles through a double pipe heat exchanger is numerically analyzed. The solid model of the double pipe heat exchanger is created in design modular and analyzed by the computational software ANSYS 16.0.This work examines the effects of these two fluids as the working fluids, a wide range of Reynolds number 20000 = Re = 60000 and also the volume concentration 0.25 , and 0.5 on heat transfer and hydrodynamic performance. The finite volume discretization method is employed to solve the set of the governing equations. The results indicate that employing hybrid nanofluid improves the heat transfer rate with respect to nanofluid. However, the average increase of the average Nusselt number when compared to nanofluid in Al Al2O3 water hybrid nanofluid is 14 and the amount for the average increase of heat transfer coefficient would be 27.5 . Sakshi Jain | Prof. Rohit Soni "Use of Hybrid Nanofluid to Increase Heat Transfer Performance of Double Pipe Heat Exchanger using CFD" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-6 , October 2020, URL: https://www.ijtsrd.com/papers/ijtsrd33581.pdf Paper Url: https://www.ijtsrd.com/engineering/mechanical-engineering/33581/use-of-hybrid-nanofluid-to-increase-heat-transfer-performance-of-double-pipe-heat-exchanger-using-cfd/sakshi-jain
Experimental Study of CO2 Gasification of Biomethanation WasteIJERA Editor
Gasification is one of prominent thermochemical processes generally used to convert organic feedstock to combustible syngas (CO and H2). An experimental study of biomass gasification using carbon dioxide as an gasifying medium was carried out in a fixed bed gasifier. The main aim of this study was to determine the effect of temperature on the output syngas. The present study reported the results for producing syngas with CO2 as gasification agent and biomass (rice husk and bio-methanation waste) as raw material. The gasification was performed at 700-900°C respectively and CO2 flow rate was maintained at 0.5 lpm. Maximum syngas production found at high temperature (900°C). The syngas analysis showed higher hydrogen yield at higher temperatures.
Effect of nanofluid on heat transfer characteristics of double pipe heat exch...eSAT Journals
Abstract A nanofluid is a mixture of nano sized particles of size up to 100 nm and a base fluid. Typical nanoparticles are made of metals, oxides or carbides, while base fluids may be water, ethylene glycol or oil. The effect of nanofluid to enhance the heat transfer rate in various heat exchangers is experimentally evaluated recently. The heat transfer enhancement using nanofluid mainly depends on type of nanoparticles, size of nanoparticles and concentration of nanoparticles in base fluid. In the present paper, an experimental investigation is carried out to determine the effect of various concentration of Al2O3 nano-dispersion mixed in water as base fluid on heat transfer characteristics of double pipe heat exchanger for parallel flow and counter flow arrangement. The volume concentrations of Al2O3 nanofluid prepared are 0.001 % to 0.01 %. The conclusion derived for the study is that overall heat transfer coefficient increases with increase in volume concentration of Al2O3 nano-dispersion compared to water up to volume concentration of 0.008 % and then decreases. Keywords: Nanofluid, Heat Transfer Characteristics, Double Pipe Heat Exchagner, Al2O3 Nano-dispersion
Enhancement of Double-Pipe Heat Exchanger Effectiveness by Using Porous Media...Barhm Mohamad
In this paper, the rate of heat transfer by forced convection in a counterflow heat exchanger, at turbulent flow conditions were investigated experimentally, using
porous media and TiO2 Nanofluid to observe the behaviour of heat transfer with flow rate and volume concentration of nanoparticles t enhance heat transfer through it. 3
mm Steel balls (ε=39.12%) as a porous media completely filled to the inner pipe (core
pipe). The cold and hot water are used as working fluids through the inner and outer
pipes. Then using, the TiO2 nanofluid instead of cold water flowing through the porous
pipe to enhance heat characteristics. The effects of operating parameters include flow rate (4 LPM, 6 LPM, and 8 LPM), Reynolds number between (3000 – 7000), and
nanoparticle volume fraction (0.001, 0.002 and 0.003) on Convective heat transfer co-
efficient and Nusselt number. Effective thermal conductivity is increased when the
nanoparticle volume fraction is increased. The heat transfer coefficient increases with
decreasing nanofluid temperature, but the heating fluid's temperature has no
significant effect on the nanofluid's heat transfer coefficient. The results show that
porous media and TiO2-based nanofluid's improve heat transfer at flow rate of 4 LPM
by 35.4% and improve NTU and effectiveness at flow rate of 4LPM by 12.4%, and 24%,
respectively, when compared to pure water without porous media. This improvement
in thermophysical properties yielded high heat transfer of heat exchangers used in
process industries.
Evaluation of Shell and Tube Heat Exchanger Performance by Using ZnO/Water Na...Barhm Mohamad
To examine and investigate the impact of nanofluid on heat exchanger performance, including the total heat transfer, the effect of friction factor, the average Nusselt number, and the thermal efficiency, the output heat transfers of a shell and tube heat exchanger using ZnO nanoparticles suspended in water has been conducted numerically. The governing equations were solved using finite volume techniques and CFD simulations with ANSYS/FLUENT Solver 2021. The nanoparticles volume fractions adopted are 0.2% and 0.35% that used in numerical computations under 200 to 1400 Reynolds numbers range. The increasing of temperature is approximately 13% from the bottom to the top of heat exchanger, while the maximum enhancement of Nusselt number is about 10%, 19% for volume fractions 0.2% and 0.35% respectively. The elevated values of the friction factor at the volumetric ratios of 0.2% and 0.35% are 0.25% and 0.47% respectively. The findings demonstrate that the performance efficiency of shell and tube heat exchanger is enhanced due to the increase in Nusselt number.
Heat Transfer Analysis of a Plate Heat Exchanger with a Combination of Ribs a...ijtsrd
The advancements and improvements in all heat transfer equipment’s are primarily intended to save energy and reduce project capital investment expenses energy or material . A better heat exchanger is one that can transfer a high heat rate while using a low pumping power and at a cheap cost. Passive heat transfer enhancement techniques have various benefits over other heat transfer enhancement techniques, including low cost, ease of fabrication, and installation. Rib turbulators can enhance heat transmission significantly, but they generally come at a considerable cost in terms of pressure loss. Dimple techniques have lately gained popularity because to their ability to promote heat transmission while imposing a minor pressure penalty. When dimple surfaces are mixed with nanofluids, some studies have seen increased heat transmission, but the key concern is an increase in the systems friction factor, which is also regulated within acceptable ranges. The thermal characteristics of a heat exchanger with a combination of dimple ribs were evaluated using a 3 dimensional numerical 3 D simulation. The subject of this study is the handling of air flow velocity through the channel, which was changed from 3.97 to 5.80 m s. The simulation programme ANSYS 19.2 was used to investigate the heat transfer physiognomies of a heat exchanger managing a combination of dimple ribs. The numerical findings revealed that the combination of dimple ribs greatly improved heat transmission over the dimple alone. In comparison, the average Nusselt number of a channel with dimpled Plate is 4.28 percent more than that of a channel with dimpled ribs. Prof. Pushparaj Singh | Navin Kumar "Heat Transfer Analysis of a Plate Heat Exchanger with a Combination of Ribs and Dimples using CFD" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-6 | Issue-4 , June 2022, URL: https://www.ijtsrd.com/papers/ijtsrd49887.pdf Paper URL: https://www.ijtsrd.com/engineering/mechanical-engineering/49887/heat-transfer-analysis-of-a-plate-heat-exchanger-with-a-combination-of-ribs-and-dimples-using-cfd/prof-pushparaj-singh
Preparation of Nanofluid (Al2O3-water) for Energy StorageIOSR Journals
Nanofluids are suspensions of nanoparticles in base fluids, a new challenge for thermal sciences providedby nanotechnology. Nanofluids have unique features different from conventional solid-liquid mixtures inwhich mm or μm sized particles of metals and non-metals are dispersed.At this research adding of small weight percent of Aluminum oxide (Al2O3) for weight percent of (0.1, 0.2, 0.3 and 0.4wt.%) to pure water as energy storage in different industrial applications ,which gave us different behavior, adding 0.1, 0.2 and 0.4wt,% gave low temperature gradient than the pure water, while 0.3 wt.% gave greater temperature gradient than pure water which is desired.
EFFECT OF (MGO) NANOFLUID ON HEAT TRANSFER CHARACTERISTICS FOR INTEGRAL FINNE...IAEME Publication
Experimental investigations have been carried out in this paper to study the enhancement of heat transfer characteristics for cross flow low integral finned tube heat exchanger with using of (MgO) nanofluid. The study includes designing and manufacturing of test section from Pyrex glass with dimensions (2505001200) mm width, height and length, respectively. has a single copper tube with eight passes.. The low integral finned tube with (19 mm) inner diameter, (21 mm) root diameter and (24 mm) outer diameter. The fin height is (1.5 mm), thickness (1 mm) and the pitch is (2 mm). Air was used as a cooling fluid passing across the test tube with a range of velocities (1, 2, 3 and 4) m/sec. The inner side flow rates with a range of (2, 3, 4, 5 and 6) L/min. for water and for nanofluid.
EFFECT OF (MGO) NANOFLUID ON HEAT TRANSFER CHARACTERISTICS FOR INTEGRAL FINNE...IAEME Publication
Experimental investigations have been carried out in this paper to study the enhancement of heat transfer characteristics for cross flow low integral finned tube heat exchanger with using of (MgO) nanofluid. The study includes designing and manufacturing of test section from Pyrex glass with dimensions (2505001200) mm width, height and length, respectively. has a single copper tube with eight passes.. The low integral finned tube with (19 mm) inner diameter, (21 mm) root diameter and (24 mm) outer diameter. The fin height is (1.5 mm), thickness (1 mm) and the pitch is (2 mm). Air was used as a cooling fluid passing across the test tube with a range of velocities (1, 2, 3 and 4) m/sec. The inner side flow rates with a range of (2, 3, 4, 5 and 6) L/min. for water and for nanofluid.
CFD Analysis to Analyze Thermal Characteristics of a Heat Exchanger Handling ...ijtsrd
It takes a lot of energy to have a good life. For living and working, humans nowadays rely on an abundant and constant source of power. Because energy is depleting at such a rapid rate, it has become important to use heat more efficiently, which necessitates that we preserve. As a result of the global energy crisis, many researchers have worked to improve the efficiency of thermal systems and reduce the size and thus energy consumption rates, which is one of the most critical problems due to the large and continuing increase in consumption, the increasing scarcity of energy resources, and the high cost. A 3 dimensional numerical 3 D simulation was used to evaluate the thermal properties of a heat exchanger managing a combination of dimple ribs. Handling air flow velocity through the channel was varied from 3.97 to 5.80 m s. is the subject of this study. The heat transfer physiognomies of a heat exchanger managing a combination of dimple ribs were studied using the simulation tool ANSYS 19.2. The numerical results showed that the combination of dimple ribs enhanced heat transfer significantly more than the dimple. In comparison, the average Nusselt number of a combination of dimple ribs is 4.28 percent higher than that of a channel with dimpled Plate. Abhishek Singh | Prof. Rohit Soni "CFD Analysis to Analyze Thermal Characteristics of a Heat Exchanger Handling Combination of Dimple Ribs" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-6 , October 2021, URL: https://www.ijtsrd.com/papers/ijtsrd47712.pdf Paper URL : https://www.ijtsrd.com/engineering/mechanical-engineering/47712/cfd-analysis-to-analyze-thermal-characteristics-of-a-heat-exchanger-handling-combination-of-dimple-ribs/abhishek-singh
Similar to IRJET- Review on Applications of Metal and Metal Oxide Nanoparticle in Heat and Mass Transfer Studies (20)
Using recycled concrete aggregates (RCA) for pavements is crucial to achieving sustainability. Implementing RCA for new pavement can minimize carbon footprint, conserve natural resources, reduce harmful emissions, and lower life cycle costs. Compared to natural aggregate (NA), RCA pavement has fewer comprehensive studies and sustainability assessments.
Final project report on grocery store management system..pdfKamal Acharya
In today’s fast-changing business environment, it’s extremely important to be able to respond to client needs in the most effective and timely manner. If your customers wish to see your business online and have instant access to your products or services.
Online Grocery Store is an e-commerce website, which retails various grocery products. This project allows viewing various products available enables registered users to purchase desired products instantly using Paytm, UPI payment processor (Instant Pay) and also can place order by using Cash on Delivery (Pay Later) option. This project provides an easy access to Administrators and Managers to view orders placed using Pay Later and Instant Pay options.
In order to develop an e-commerce website, a number of Technologies must be studied and understood. These include multi-tiered architecture, server and client-side scripting techniques, implementation technologies, programming language (such as PHP, HTML, CSS, JavaScript) and MySQL relational databases. This is a project with the objective to develop a basic website where a consumer is provided with a shopping cart website and also to know about the technologies used to develop such a website.
This document will discuss each of the underlying technologies to create and implement an e- commerce website.
Forklift Classes Overview by Intella PartsIntella Parts
Discover the different forklift classes and their specific applications. Learn how to choose the right forklift for your needs to ensure safety, efficiency, and compliance in your operations.
For more technical information, visit our website https://intellaparts.com
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About
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Technical Specifications
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
Key Features
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface
• Compatible with MAFI CCR system
• Copatiable with IDM8000 CCR
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
Application
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Welcome to WIPAC Monthly the magazine brought to you by the LinkedIn Group Water Industry Process Automation & Control.
In this month's edition, along with this month's industry news to celebrate the 13 years since the group was created we have articles including
A case study of the used of Advanced Process Control at the Wastewater Treatment works at Lleida in Spain
A look back on an article on smart wastewater networks in order to see how the industry has measured up in the interim around the adoption of Digital Transformation in the Water Industry.
CW RADAR, FMCW RADAR, FMCW ALTIMETER, AND THEIR PARAMETERSveerababupersonal22
It consists of cw radar and fmcw radar ,range measurement,if amplifier and fmcw altimeterThe CW radar operates using continuous wave transmission, while the FMCW radar employs frequency-modulated continuous wave technology. Range measurement is a crucial aspect of radar systems, providing information about the distance to a target. The IF amplifier plays a key role in signal processing, amplifying intermediate frequency signals for further analysis. The FMCW altimeter utilizes frequency-modulated continuous wave technology to accurately measure altitude above a reference point.
Industrial Training at Shahjalal Fertilizer Company Limited (SFCL)MdTanvirMahtab2
This presentation is about the working procedure of Shahjalal Fertilizer Company Limited (SFCL). A Govt. owned Company of Bangladesh Chemical Industries Corporation under Ministry of Industries.