�ݺ�ߣshows by User: sangeetkhule

�ݺ�ߣshows by User: sangeetkhule / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: sangeetkhule / Tue, 30 Jan 2024 17:08:56 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: sangeetkhule SOLAR DRYER COMPONENT DESIGN AND REQUIREMENT CALCULATIONS.pdf /slideshow/solar-dryer-component-design-and-requirement-calculationspdf/265982986 solardryer1-240130170856-78e833d9
SOLAR DRYER COMPONENT DESIGN AND REQUIREMENT CALCULATIONS]]>
SOLAR DRYER COMPONENT DESIGN AND REQUIREMENT CALCULATIONS]]> Tue, 30 Jan 2024 17:08:56 GMT /slideshow/solar-dryer-component-design-and-requirement-calculationspdf/265982986 sangeetkhule@slideshare.net(sangeetkhule) SOLAR DRYER COMPONENT DESIGN AND REQUIREMENT CALCULATIONS.pdf sangeetkhule SOLAR DRYER COMPONENT DESIGN AND REQUIREMENT CALCULATIONS <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/solardryer1-240130170856-78e833d9-thumbnail.jpg?width=120&height=120&fit=bounds" /> SOLAR DRYER COMPONENT DESIGN AND REQUIREMENT CALCULATIONS

SOLAR DRYER COMPONENT DESIGN AND REQUIREMENT CALCULATIONS.pdf from sangeetkhule

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0 SOLAR RADIATION CALCULATION AND SOLAR COLLECTOR SURFACE AREA.pdf /slideshow/solar-radiation-calculation-and-solar-collector-surface-areapdf/265982862 solardryer-240130170554-777f6e8c
SOLAR RADIATION CALCULATION AND SOLAR COLLECTOR SURFACE AREA]]>
SOLAR RADIATION CALCULATION AND SOLAR COLLECTOR SURFACE AREA]]> Tue, 30 Jan 2024 17:05:54 GMT /slideshow/solar-radiation-calculation-and-solar-collector-surface-areapdf/265982862 sangeetkhule@slideshare.net(sangeetkhule) SOLAR RADIATION CALCULATION AND SOLAR COLLECTOR SURFACE AREA.pdf sangeetkhule SOLAR RADIATION CALCULATION AND SOLAR COLLECTOR SURFACE AREA <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/solardryer-240130170554-777f6e8c-thumbnail.jpg?width=120&height=120&fit=bounds" /> SOLAR RADIATION CALCULATION AND SOLAR COLLECTOR SURFACE AREA

SOLAR RADIATION CALCULATION AND SOLAR COLLECTOR SURFACE AREA.pdf from sangeetkhule

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0 OPTIMUM TILT ANGLE FOR SOLAR COLLECTOR.pdf /slideshow/optimum-tilt-angle-for-solar-collectorpdf/265982687 tiltangle-240130170124-6d38708a
OPTIMUM TILT ANGLE FOR SOLAR COLLECTOR ]]>
OPTIMUM TILT ANGLE FOR SOLAR COLLECTOR ]]> Tue, 30 Jan 2024 17:01:24 GMT /slideshow/optimum-tilt-angle-for-solar-collectorpdf/265982687 sangeetkhule@slideshare.net(sangeetkhule) OPTIMUM TILT ANGLE FOR SOLAR COLLECTOR.pdf sangeetkhule OPTIMUM TILT ANGLE FOR SOLAR COLLECTOR <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/tiltangle-240130170124-6d38708a-thumbnail.jpg?width=120&height=120&fit=bounds" /> OPTIMUM TILT ANGLE FOR SOLAR COLLECTOR

OPTIMUM TILT ANGLE FOR SOLAR COLLECTOR.pdf from sangeetkhule

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0 Design And Development of Hybrid Solar Dryers For Domestic Applications /slideshow/design-and-development-of-hybrid-solar-dryers-for-domestic-applications/251435496 groupno-220326192852
INTRODUCTION COMMERCIAL ASPECT LITERATURE REVIEW OUTCOME OF LITERATURE REVIEW METHODOLOGY DESIGN CAD MODEL & SIMULATION CONCLUSION REFERENCES Solar energy is a primary renewable energy source with the potential to meet several challenges faced by humankind. Solar technologies convert sunlight into electrical energy either through photovoltaic (PV) panels or through mirrors that concentrate solar radiation. There are two basic mechanisms involved in the drying process of solar drying; are: The migration of moisture from the interior of the substance to be dried, and the second is the evaporation of moisture from the surface to the surrounding air. The solar drying system utilizes the solar energy to heat air and to dry any food substance which is loaded, which is not only beneficial but also it reduces wastage of agricultural products and helps in the preservation of agricultural products, but it also makes transportation of such dried product quickly and promotes the health and welfare of the people. So, the development of a hybrid solar-energy dryer using a photovoltaic (PV) solar panel to power the heating element coil and charge the battery, which had a storage energy system, was developed and constructed with readily available materials market was proposed. This report presents the basics of the solar dryer, and the Literature review contains recent innovative techniques used for developments of different types like direct, indirect, mixed-mode, and hybrid solar dryers are discussed from the duration of the previous two to three decades. Also, a comprehensive report of the fundamental principles governing the drying process with the classification of the practically realized various designs and selection of solar dryers for drying agricultural and marine products has been presented. The dryer comprises a solar collector (air heater) with the baffles and a solar drying chamber containing a rack of four net trays, both being assimilated together. The air allowed in through the air inlet is heated up in the solar collector chamber andchannelled through the drying chamber, where it is utilized in drying (removing the moisture content from the food substances or agricultural product loaded in it). Locally materials were used for the construction are wood, glass, aluminium metal sheet, PV, and net for the trays. The hybrid solar dryer discussed in the papers in the literature review is a prominent practical technology that can dry various crops under all weather conditions. Temperatures in the drying cabinet can be expected to range between 40 to 70ºC. Compared to traditional drying, the hybrid dryer produces a better quality product and can reduce the drying time by up to 50 to 70 %.]]>
INTRODUCTION COMMERCIAL ASPECT LITERATURE REVIEW OUTCOME OF LITERATURE REVIEW METHODOLOGY DESIGN CAD MODEL & SIMULATION CONCLUSION REFERENCES Solar energy is a primary renewable energy source with the potential to meet several challenges faced by humankind. Solar technologies convert sunlight into electrical energy either through photovoltaic (PV) panels or through mirrors that concentrate solar radiation. There are two basic mechanisms involved in the drying process of solar drying; are: The migration of moisture from the interior of the substance to be dried, and the second is the evaporation of moisture from the surface to the surrounding air. The solar drying system utilizes the solar energy to heat air and to dry any food substance which is loaded, which is not only beneficial but also it reduces wastage of agricultural products and helps in the preservation of agricultural products, but it also makes transportation of such dried product quickly and promotes the health and welfare of the people. So, the development of a hybrid solar-energy dryer using a photovoltaic (PV) solar panel to power the heating element coil and charge the battery, which had a storage energy system, was developed and constructed with readily available materials market was proposed. This report presents the basics of the solar dryer, and the Literature review contains recent innovative techniques used for developments of different types like direct, indirect, mixed-mode, and hybrid solar dryers are discussed from the duration of the previous two to three decades. Also, a comprehensive report of the fundamental principles governing the drying process with the classification of the practically realized various designs and selection of solar dryers for drying agricultural and marine products has been presented. The dryer comprises a solar collector (air heater) with the baffles and a solar drying chamber containing a rack of four net trays, both being assimilated together. The air allowed in through the air inlet is heated up in the solar collector chamber andchannelled through the drying chamber, where it is utilized in drying (removing the moisture content from the food substances or agricultural product loaded in it). Locally materials were used for the construction are wood, glass, aluminium metal sheet, PV, and net for the trays. The hybrid solar dryer discussed in the papers in the literature review is a prominent practical technology that can dry various crops under all weather conditions. Temperatures in the drying cabinet can be expected to range between 40 to 70ºC. Compared to traditional drying, the hybrid dryer produces a better quality product and can reduce the drying time by up to 50 to 70 %.]]> Sat, 26 Mar 2022 19:28:52 GMT /slideshow/design-and-development-of-hybrid-solar-dryers-for-domestic-applications/251435496 sangeetkhule@slideshare.net(sangeetkhule) Design And Development of Hybrid Solar Dryers For Domestic Applications sangeetkhule INTRODUCTION COMMERCIAL ASPECT LITERATURE REVIEW OUTCOME OF LITERATURE REVIEW METHODOLOGY DESIGN CAD MODEL & SIMULATION CONCLUSION REFERENCES Solar energy is a primary renewable energy source with the potential to meet several challenges faced by humankind. Solar technologies convert sunlight into electrical energy either through photovoltaic (PV) panels or through mirrors that concentrate solar radiation. There are two basic mechanisms involved in the drying process of solar drying; are: The migration of moisture from the interior of the substance to be dried, and the second is the evaporation of moisture from the surface to the surrounding air. The solar drying system utilizes the solar energy to heat air and to dry any food substance which is loaded, which is not only beneficial but also it reduces wastage of agricultural products and helps in the preservation of agricultural products, but it also makes transportation of such dried product quickly and promotes the health and welfare of the people. So, the development of a hybrid solar-energy dryer using a photovoltaic (PV) solar panel to power the heating element coil and charge the battery, which had a storage energy system, was developed and constructed with readily available materials market was proposed. This report presents the basics of the solar dryer, and the Literature review contains recent innovative techniques used for developments of different types like direct, indirect, mixed-mode, and hybrid solar dryers are discussed from the duration of the previous two to three decades. Also, a comprehensive report of the fundamental principles governing the drying process with the classification of the practically realized various designs and selection of solar dryers for drying agricultural and marine products has been presented. The dryer comprises a solar collector (air heater) with the baffles and a solar drying chamber containing a rack of four net trays, both being assimilated together. The air allowed in through the air inlet is heated up in the solar collector chamber andchannelled through the drying chamber, where it is utilized in drying (removing the moisture content from the food substances or agricultural product loaded in it). Locally materials were used for the construction are wood, glass, aluminium metal sheet, PV, and net for the trays. The hybrid solar dryer discussed in the papers in the literature review is a prominent practical technology that can dry various crops under all weather conditions. Temperatures in the drying cabinet can be expected to range between 40 to 70ºC. Compared to traditional drying, the hybrid dryer produces a better quality product and can reduce the drying time by up to 50 to 70 %. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/groupno-220326192852-thumbnail.jpg?width=120&height=120&fit=bounds" /> INTRODUCTION COMMERCIAL ASPECT LITERATURE REVIEW OUTCOME OF LITERATURE REVIEW METHODOLOGY DESIGN CAD MODEL & SIMULATION CONCLUSION REFERENCES Solar energy is a primary renewable energy source with the potential to meet several challenges faced by humankind. Solar technologies convert sunlight into electrical energy either through photovoltaic (PV) panels or through mirrors that concentrate solar radiation. There are two basic mechanisms involved in the drying process of solar drying; are: The migration of moisture from the interior of the substance to be dried, and the second is the evaporation of moisture from the surface to the surrounding air. The solar drying system utilizes the solar energy to heat air and to dry any food substance which is loaded, which is not only beneficial but also it reduces wastage of agricultural products and helps in the preservation of agricultural products, but it also makes transportation of such dried product quickly and promotes the health and welfare of the people. So, the development of a hybrid solar-energy dryer using a photovoltaic (PV) solar panel to power the heating element coil and charge the battery, which had a storage energy system, was developed and constructed with readily available materials market was proposed. This report presents the basics of the solar dryer, and the Literature review contains recent innovative techniques used for developments of different types like direct, indirect, mixed-mode, and hybrid solar dryers are discussed from the duration of the previous two to three decades. Also, a comprehensive report of the fundamental principles governing the drying process with the classification of the practically realized various designs and selection of solar dryers for drying agricultural and marine products has been presented. The dryer comprises a solar collector (air heater) with the baffles and a solar drying chamber containing a rack of four net trays, both being assimilated together. The air allowed in through the air inlet is heated up in the solar collector chamber andchannelled through the drying chamber, where it is utilized in drying (removing the moisture content from the food substances or agricultural product loaded in it). Locally materials were used for the construction are wood, glass, aluminium metal sheet, PV, and net for the trays. The hybrid solar dryer discussed in the papers in the literature review is a prominent practical technology that can dry various crops under all weather conditions. Temperatures in the drying cabinet can be expected to range between 40 to 70ºC. Compared to traditional drying, the hybrid dryer produces a better quality product and can reduce the drying time by up to 50 to 70 %.

Design And Development of Hybrid Solar Dryers For Domestic Applications from sangeetkhule

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0 DESIGN AND DEVELOPMENT OF HYBRID SOLAR DRYER FOR DOMESTIC APPLICATIONS /slideshow/solar-dryer-251435468/251435468 groupno-220326192128
Introduction Role of The Sun Importance of Renewable Energy Sources Solar Drying Basics of Solar Energy Working of Solar Cell Basics of Solar Thermal Conversions Outline of Thesis Solar Dryer Basics of Solar Dryers Need For Dryers Various Methods of Drying Basics of Solar Drying Technique Difference Between OSD & Solar Drying Various Types of Solar Dryers Working Consist of Hybrid Solar Dryer Advantages & Reasons For Limited Use In India Applications of Solar Dryers Literature Review Direct Solar Dryer Indirect Solar Dryer Mixed Mode Solar Dryer Hybrid Solar Dryer Conclusions The outcome of Literature Review Selection of Food Products Methodology And Design Criterion Methodology Design Criterion Selection of Solar Dryer Type Design of Solar Dryer Working of Model Design Calculations The Fan/Blower Design Computer-Aided Design of Hybrid Solar Dryer Solar Collector Drying Chamber Trays Stand Computational Analysis Pre-Processor PostProcessor Economic Analysis Economic Analysis of Dried Food Products Bill Actual Components For Fabricating Commercial Solar Dryers Other Locations Conclusion And Recommendations Conclusion Recommendations References Power Requirements Optimum Angle of Inclination Solar Collector Area Calculations Calculation of Components]]>
Introduction Role of The Sun Importance of Renewable Energy Sources Solar Drying Basics of Solar Energy Working of Solar Cell Basics of Solar Thermal Conversions Outline of Thesis Solar Dryer Basics of Solar Dryers Need For Dryers Various Methods of Drying Basics of Solar Drying Technique Difference Between OSD & Solar Drying Various Types of Solar Dryers Working Consist of Hybrid Solar Dryer Advantages & Reasons For Limited Use In India Applications of Solar Dryers Literature Review Direct Solar Dryer Indirect Solar Dryer Mixed Mode Solar Dryer Hybrid Solar Dryer Conclusions The outcome of Literature Review Selection of Food Products Methodology And Design Criterion Methodology Design Criterion Selection of Solar Dryer Type Design of Solar Dryer Working of Model Design Calculations The Fan/Blower Design Computer-Aided Design of Hybrid Solar Dryer Solar Collector Drying Chamber Trays Stand Computational Analysis Pre-Processor PostProcessor Economic Analysis Economic Analysis of Dried Food Products Bill Actual Components For Fabricating Commercial Solar Dryers Other Locations Conclusion And Recommendations Conclusion Recommendations References Power Requirements Optimum Angle of Inclination Solar Collector Area Calculations Calculation of Components]]> Sat, 26 Mar 2022 19:21:27 GMT /slideshow/solar-dryer-251435468/251435468 sangeetkhule@slideshare.net(sangeetkhule) DESIGN AND DEVELOPMENT OF HYBRID SOLAR DRYER FOR DOMESTIC APPLICATIONS sangeetkhule Introduction Role of The Sun Importance of Renewable Energy Sources Solar Drying Basics of Solar Energy Working of Solar Cell Basics of Solar Thermal Conversions Outline of Thesis Solar Dryer Basics of Solar Dryers Need For Dryers Various Methods of Drying Basics of Solar Drying Technique Difference Between OSD & Solar Drying Various Types of Solar Dryers Working Consist of Hybrid Solar Dryer Advantages & Reasons For Limited Use In India Applications of Solar Dryers Literature Review Direct Solar Dryer Indirect Solar Dryer Mixed Mode Solar Dryer Hybrid Solar Dryer Conclusions The outcome of Literature Review Selection of Food Products Methodology And Design Criterion Methodology Design Criterion Selection of Solar Dryer Type Design of Solar Dryer Working of Model Design Calculations The Fan/Blower Design Computer-Aided Design of Hybrid Solar Dryer Solar Collector Drying Chamber Trays Stand Computational Analysis Pre-Processor PostProcessor Economic Analysis Economic Analysis of Dried Food Products Bill Actual Components For Fabricating Commercial Solar Dryers Other Locations Conclusion And Recommendations Conclusion Recommendations References Power Requirements Optimum Angle of Inclination Solar Collector Area Calculations Calculation of Components <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/groupno-220326192128-thumbnail.jpg?width=120&height=120&fit=bounds" /> Introduction Role of The Sun Importance of Renewable Energy Sources Solar Drying Basics of Solar Energy Working of Solar Cell Basics of Solar Thermal Conversions Outline of Thesis Solar Dryer Basics of Solar Dryers Need For Dryers Various Methods of Drying Basics of Solar Drying Technique Difference Between OSD & Solar Drying Various Types of Solar Dryers Working Consist of Hybrid Solar Dryer Advantages & Reasons For Limited Use In India Applications of Solar Dryers Literature Review Direct Solar Dryer Indirect Solar Dryer Mixed Mode Solar Dryer Hybrid Solar Dryer Conclusions The outcome of Literature Review Selection of Food Products Methodology And Design Criterion Methodology Design Criterion Selection of Solar Dryer Type Design of Solar Dryer Working of Model Design Calculations The Fan/Blower Design Computer-Aided Design of Hybrid Solar Dryer Solar Collector Drying Chamber Trays Stand Computational Analysis Pre-Processor PostProcessor Economic Analysis Economic Analysis of Dried Food Products Bill Actual Components For Fabricating Commercial Solar Dryers Other Locations Conclusion And Recommendations Conclusion Recommendations References Power Requirements Optimum Angle of Inclination Solar Collector Area Calculations Calculation of Components

DESIGN AND DEVELOPMENT OF HYBRID SOLAR DRYER FOR DOMESTIC APPLICATIONS from sangeetkhule

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0 Design of Stand-Alone Solar PV System /sangeetkhule/design-calculations-for-solar-water-heating-system-250970369 60sangeetkhuleta-2-220110110902
Chapter 1 City of Residence Chapter 2 Estimation of Available Solar Resources Chapter 3 Site Survey Chapter 4 Load Estimation Chapter 5 Electricity Bill & Estimated Load Chapter 6 Design of BOS & Market Survey Chapter 7 Economical Analysis & Estimation of Payback Period Chapter 8 Conclusion ]]>
Chapter 1 City of Residence Chapter 2 Estimation of Available Solar Resources Chapter 3 Site Survey Chapter 4 Load Estimation Chapter 5 Electricity Bill & Estimated Load Chapter 6 Design of BOS & Market Survey Chapter 7 Economical Analysis & Estimation of Payback Period Chapter 8 Conclusion ]]> Mon, 10 Jan 2022 11:09:01 GMT /sangeetkhule/design-calculations-for-solar-water-heating-system-250970369 sangeetkhule@slideshare.net(sangeetkhule) Design of Stand-Alone Solar PV System sangeetkhule Chapter 1 City of Residence Chapter 2 Estimation of Available Solar Resources Chapter 3 Site Survey Chapter 4 Load Estimation Chapter 5 Electricity Bill & Estimated Load Chapter 6 Design of BOS & Market Survey Chapter 7 Economical Analysis & Estimation of Payback Period Chapter 8 Conclusion <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/60sangeetkhuleta-2-220110110902-thumbnail.jpg?width=120&height=120&fit=bounds" /> Chapter 1 City of Residence Chapter 2 Estimation of Available Solar Resources Chapter 3 Site Survey Chapter 4 Load Estimation Chapter 5 Electricity Bill & Estimated Load Chapter 6 Design of BOS & Market Survey Chapter 7 Economical Analysis & Estimation of Payback Period Chapter 8 Conclusion

Design of Stand-Alone Solar PV System from sangeetkhule

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0 Design Calculations for Solar Water Heating System /sangeetkhule/design-calculations-for-solar-water-heating-system 60sangeetkhuleta-3-220110110537
Chapter 1 City of Residence Chapter 2 Estimation of Available Solar Resources Chapter 3 Site Survey Chapter 4 Load Estimation Chapter 5 Estimation of Required Absorber Area Chapter 6 Market Survey & Estimation of No. of Tubes for ETC Chapter 7 Economical Analysis & Estimation of Payback Period Chapter 8 Conclusion]]>
Chapter 1 City of Residence Chapter 2 Estimation of Available Solar Resources Chapter 3 Site Survey Chapter 4 Load Estimation Chapter 5 Estimation of Required Absorber Area Chapter 6 Market Survey & Estimation of No. of Tubes for ETC Chapter 7 Economical Analysis & Estimation of Payback Period Chapter 8 Conclusion]]> Mon, 10 Jan 2022 11:05:37 GMT /sangeetkhule/design-calculations-for-solar-water-heating-system sangeetkhule@slideshare.net(sangeetkhule) Design Calculations for Solar Water Heating System sangeetkhule Chapter 1 City of Residence Chapter 2 Estimation of Available Solar Resources Chapter 3 Site Survey Chapter 4 Load Estimation Chapter 5 Estimation of Required Absorber Area Chapter 6 Market Survey & Estimation of No. of Tubes for ETC Chapter 7 Economical Analysis & Estimation of Payback Period Chapter 8 Conclusion <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/60sangeetkhuleta-3-220110110537-thumbnail.jpg?width=120&height=120&fit=bounds" /> Chapter 1 City of Residence Chapter 2 Estimation of Available Solar Resources Chapter 3 Site Survey Chapter 4 Load Estimation Chapter 5 Estimation of Required Absorber Area Chapter 6 Market Survey & Estimation of No. of Tubes for ETC Chapter 7 Economical Analysis & Estimation of Payback Period Chapter 8 Conclusion

Design Calculations for Solar Water Heating System from sangeetkhule

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0 OPTICAL MICROSCOPY AND COORDINATE MEASURING MACHINE /slideshow/optical-microscopy-and-coordinate-measuring-machine/250970333 omcmm-220110105936
Introduction Working principle Classification Construction and working Different types of an optical scope Process capabilities and analysis Testing Process parameters Components and machine structure Confocal laser scanning microscopy Microscopic Advantages Applications Advancement in CMM Machine characteristics Process parameters of CMM Animation video Research papers Bar graphs and tables Conclusion References]]>
Introduction Working principle Classification Construction and working Different types of an optical scope Process capabilities and analysis Testing Process parameters Components and machine structure Confocal laser scanning microscopy Microscopic Advantages Applications Advancement in CMM Machine characteristics Process parameters of CMM Animation video Research papers Bar graphs and tables Conclusion References]]> Mon, 10 Jan 2022 10:59:36 GMT /slideshow/optical-microscopy-and-coordinate-measuring-machine/250970333 sangeetkhule@slideshare.net(sangeetkhule) OPTICAL MICROSCOPY AND COORDINATE MEASURING MACHINE sangeetkhule Introduction Working principle Classification Construction and working Different types of an optical scope Process capabilities and analysis Testing Process parameters Components and machine structure Confocal laser scanning microscopy Microscopic Advantages Applications Advancement in CMM Machine characteristics Process parameters of CMM Animation video Research papers Bar graphs and tables Conclusion References <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/omcmm-220110105936-thumbnail.jpg?width=120&height=120&fit=bounds" /> Introduction Working principle Classification Construction and working Different types of an optical scope Process capabilities and analysis Testing Process parameters Components and machine structure Confocal laser scanning microscopy Microscopic Advantages Applications Advancement in CMM Machine characteristics Process parameters of CMM Animation video Research papers Bar graphs and tables Conclusion References

OPTICAL MICROSCOPY AND COORDINATE MEASURING MACHINE from sangeetkhule

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0 THE GREEN BUILDING /sangeetkhule/the-green-building sangeetkhule60mech-220110104007
THE GREEN BUILDING INTRODUCTION HISTORY COMPARISON NEED FOR GREEN BUILDINGS IN INDIA HOW TO MAKE OUR BUILDINGS GREEN? STRATEGIES & TECHNOLOGY BENEFITS & LIMITATIONS FEATURES, MATERIALS & METHODS CHARACTERISTICS OF A GREEN BUILDING TYPES OF GREEN BUILDING LEED RATING SYSTEM SOME GREEN BUILDINGS IN INDIA CONCLUSION REFERENCES]]>
THE GREEN BUILDING INTRODUCTION HISTORY COMPARISON NEED FOR GREEN BUILDINGS IN INDIA HOW TO MAKE OUR BUILDINGS GREEN? STRATEGIES & TECHNOLOGY BENEFITS & LIMITATIONS FEATURES, MATERIALS & METHODS CHARACTERISTICS OF A GREEN BUILDING TYPES OF GREEN BUILDING LEED RATING SYSTEM SOME GREEN BUILDINGS IN INDIA CONCLUSION REFERENCES]]> Mon, 10 Jan 2022 10:40:06 GMT /sangeetkhule/the-green-building sangeetkhule@slideshare.net(sangeetkhule) THE GREEN BUILDING sangeetkhule THE GREEN BUILDING INTRODUCTION HISTORY COMPARISON NEED FOR GREEN BUILDINGS IN INDIA HOW TO MAKE OUR BUILDINGS GREEN? STRATEGIES & TECHNOLOGY BENEFITS & LIMITATIONS FEATURES, MATERIALS & METHODS CHARACTERISTICS OF A GREEN BUILDING TYPES OF GREEN BUILDING LEED RATING SYSTEM SOME GREEN BUILDINGS IN INDIA CONCLUSION REFERENCES <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/sangeetkhule60mech-220110104007-thumbnail.jpg?width=120&height=120&fit=bounds" /> THE GREEN BUILDING INTRODUCTION HISTORY COMPARISON NEED FOR GREEN BUILDINGS IN INDIA HOW TO MAKE OUR BUILDINGS GREEN? STRATEGIES & TECHNOLOGY BENEFITS & LIMITATIONS FEATURES, MATERIALS & METHODS CHARACTERISTICS OF A GREEN BUILDING TYPES OF GREEN BUILDING LEED RATING SYSTEM SOME GREEN BUILDINGS IN INDIA CONCLUSION REFERENCES

THE GREEN BUILDING from sangeetkhule

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0 Heat Transfer Applications /sangeetkhule/heat-transfer-applications finalpresentationhtgroupproject-210821210711
Heat Transfer Applications Heat transfer is a discipline of thermal engineering that concerns the generation, use, conversion, and exchange of thermal energy between physical systems. Heat transfer is classified into various mechanisms, such as thermal conduction, thermal convection, thermal radiation, and transfer of energy by phase changes. Introduction Applications References conclusion]]>
Heat Transfer Applications Heat transfer is a discipline of thermal engineering that concerns the generation, use, conversion, and exchange of thermal energy between physical systems. Heat transfer is classified into various mechanisms, such as thermal conduction, thermal convection, thermal radiation, and transfer of energy by phase changes. Introduction Applications References conclusion]]> Sat, 21 Aug 2021 21:07:10 GMT /sangeetkhule/heat-transfer-applications sangeetkhule@slideshare.net(sangeetkhule) Heat Transfer Applications sangeetkhule Heat Transfer Applications Heat transfer is a discipline of thermal engineering that concerns the generation, use, conversion, and exchange of thermal energy between physical systems. Heat transfer is classified into various mechanisms, such as thermal conduction, thermal convection, thermal radiation, and transfer of energy by phase changes. Introduction Applications References conclusion <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/finalpresentationhtgroupproject-210821210711-thumbnail.jpg?width=120&height=120&fit=bounds" /> Heat Transfer Applications Heat transfer is a discipline of thermal engineering that concerns the generation, use, conversion, and exchange of thermal energy between physical systems. Heat transfer is classified into various mechanisms, such as thermal conduction, thermal convection, thermal radiation, and transfer of energy by phase changes. Introduction Applications References conclusion

Heat Transfer Applications from sangeetkhule

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0 A to D Convertors /slideshow/a-to-d-convertors/250019962 group12rollnos-5657585960-210820234645
A to D Convertors work to convert analog (continuous, infinitely variable) signals to digital (discrete-time, discrete-amplitude) signals. In more practical terms, an ADC converts an analog input, such as a microphone collecting sound, into a digital signal.]]>
A to D Convertors work to convert analog (continuous, infinitely variable) signals to digital (discrete-time, discrete-amplitude) signals. In more practical terms, an ADC converts an analog input, such as a microphone collecting sound, into a digital signal.]]> Fri, 20 Aug 2021 23:46:45 GMT /slideshow/a-to-d-convertors/250019962 sangeetkhule@slideshare.net(sangeetkhule) A to D Convertors sangeetkhule A to D Convertors work to convert analog (continuous, infinitely variable) signals to digital (discrete-time, discrete-amplitude) signals. In more practical terms, an ADC converts an analog input, such as a microphone collecting sound, into a digital signal. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/group12rollnos-5657585960-210820234645-thumbnail.jpg?width=120&height=120&fit=bounds" /> A to D Convertors work to convert analog (continuous, infinitely variable) signals to digital (discrete-time, discrete-amplitude) signals. In more practical terms, an ADC converts an analog input, such as a microphone collecting sound, into a digital signal.

A to D Convertors from sangeetkhule

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0 Composite material /slideshow/composite-material-250019931/250019931 compositematerial-210820232920
Composite material A composite material is a material that is produced from two or more constituent materials. These constituent materials have notably dissimilar chemical or physical properties and are merged to create a material with properties, unlike the individual elements. INTRODUCTION HISTORY OF COMPOSITE MATERIALS COMPONENTS NEED OF COMPOSITE MATERIALS FABRICATION METHODS PROPERTIES CLASSIFICATION OF COMPOSITES NATURAL FIBRES APPLICATIONS ARTIFICIALLY MADE COMPOSITES PARTICLE REINFORCED COMPOSITES FIBRE-REINFORCED COMPOSITES STRUCTURAL COMPOSITES REFERENCES]]>
Composite material A composite material is a material that is produced from two or more constituent materials. These constituent materials have notably dissimilar chemical or physical properties and are merged to create a material with properties, unlike the individual elements. INTRODUCTION HISTORY OF COMPOSITE MATERIALS COMPONENTS NEED OF COMPOSITE MATERIALS FABRICATION METHODS PROPERTIES CLASSIFICATION OF COMPOSITES NATURAL FIBRES APPLICATIONS ARTIFICIALLY MADE COMPOSITES PARTICLE REINFORCED COMPOSITES FIBRE-REINFORCED COMPOSITES STRUCTURAL COMPOSITES REFERENCES]]> Fri, 20 Aug 2021 23:29:20 GMT /slideshow/composite-material-250019931/250019931 sangeetkhule@slideshare.net(sangeetkhule) Composite material sangeetkhule Composite material A composite material is a material that is produced from two or more constituent materials. These constituent materials have notably dissimilar chemical or physical properties and are merged to create a material with properties, unlike the individual elements. INTRODUCTION HISTORY OF COMPOSITE MATERIALS COMPONENTS NEED OF COMPOSITE MATERIALS FABRICATION METHODS PROPERTIES CLASSIFICATION OF COMPOSITES NATURAL FIBRES APPLICATIONS ARTIFICIALLY MADE COMPOSITES PARTICLE REINFORCED COMPOSITES FIBRE-REINFORCED COMPOSITES STRUCTURAL COMPOSITES REFERENCES <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/compositematerial-210820232920-thumbnail.jpg?width=120&height=120&fit=bounds" /> Composite material A composite material is a material that is produced from two or more constituent materials. These constituent materials have notably dissimilar chemical or physical properties and are merged to create a material with properties, unlike the individual elements. INTRODUCTION HISTORY OF COMPOSITE MATERIALS COMPONENTS NEED OF COMPOSITE MATERIALS FABRICATION METHODS PROPERTIES CLASSIFICATION OF COMPOSITES NATURAL FIBRES APPLICATIONS ARTIFICIALLY MADE COMPOSITES PARTICLE REINFORCED COMPOSITES FIBRE-REINFORCED COMPOSITES STRUCTURAL COMPOSITES REFERENCES

Composite material from sangeetkhule

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0 Active suspension system /slideshow/active-suspension-system-250019911/250019911 groupno-210820232242
Active suspension system An active suspension is a type of automotive suspension on a vehicle. It uses an onboard system to control the vertical movement of the vehicle's wheels relative to the chassis or vehicle body rather than the passive suspension provided by large springs where the movement is determined entirely by the road surface. So-called active suspensions are divided into two classes: real active suspensions, and adaptive or semi-active suspensions. While adaptive suspensions only very shock absorber firmness to match changing road or dynamic conditions, active suspensions use some type of actuator to raise and lower the chassis independently at each wheel.]]>
Active suspension system An active suspension is a type of automotive suspension on a vehicle. It uses an onboard system to control the vertical movement of the vehicle's wheels relative to the chassis or vehicle body rather than the passive suspension provided by large springs where the movement is determined entirely by the road surface. So-called active suspensions are divided into two classes: real active suspensions, and adaptive or semi-active suspensions. While adaptive suspensions only very shock absorber firmness to match changing road or dynamic conditions, active suspensions use some type of actuator to raise and lower the chassis independently at each wheel.]]> Fri, 20 Aug 2021 23:22:41 GMT /slideshow/active-suspension-system-250019911/250019911 sangeetkhule@slideshare.net(sangeetkhule) Active suspension system sangeetkhule Active suspension system An active suspension is a type of automotive suspension on a vehicle. It uses an onboard system to control the vertical movement of the vehicle's wheels relative to the chassis or vehicle body rather than the passive suspension provided by large springs where the movement is determined entirely by the road surface. So-called active suspensions are divided into two classes: real active suspensions, and adaptive or semi-active suspensions. While adaptive suspensions only very shock absorber firmness to match changing road or dynamic conditions, active suspensions use some type of actuator to raise and lower the chassis independently at each wheel. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/groupno-210820232242-thumbnail.jpg?width=120&height=120&fit=bounds" /> Active suspension system An active suspension is a type of automotive suspension on a vehicle. It uses an onboard system to control the vertical movement of the vehicle's wheels relative to the chassis or vehicle body rather than the passive suspension provided by large springs where the movement is determined entirely by the road surface. So-called active suspensions are divided into two classes: real active suspensions, and adaptive or semi-active suspensions. While adaptive suspensions only very shock absorber firmness to match changing road or dynamic conditions, active suspensions use some type of actuator to raise and lower the chassis independently at each wheel.

Active suspension system from sangeetkhule

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0 Diamond turn machining /slideshow/diamond-turn-machining-250019865/250019865 diamondturnmachining-210820231321
Diamond Turn Machining Diamond turning is turning using a cutting tool with a diamond tip. It is a process of mechanical machining of precision elements using lathes or derivative machine tools equipped with natural or synthetic diamond-tipped tool bits. Introduction Components and machine structure Different types of equipment Tooling specifications Tolerance and aspect ratios Working principle Control systems and power requirement Process parameters Material to be machined MRR and surface finish Advantages and disadvantages Applications Advancement in DTM Machine characteristics Machine tool requirement Bar graphs and tables Conclusion References Animation video]]>
Diamond Turn Machining Diamond turning is turning using a cutting tool with a diamond tip. It is a process of mechanical machining of precision elements using lathes or derivative machine tools equipped with natural or synthetic diamond-tipped tool bits. Introduction Components and machine structure Different types of equipment Tooling specifications Tolerance and aspect ratios Working principle Control systems and power requirement Process parameters Material to be machined MRR and surface finish Advantages and disadvantages Applications Advancement in DTM Machine characteristics Machine tool requirement Bar graphs and tables Conclusion References Animation video]]> Fri, 20 Aug 2021 23:13:20 GMT /slideshow/diamond-turn-machining-250019865/250019865 sangeetkhule@slideshare.net(sangeetkhule) Diamond turn machining sangeetkhule Diamond Turn Machining Diamond turning is turning using a cutting tool with a diamond tip. It is a process of mechanical machining of precision elements using lathes or derivative machine tools equipped with natural or synthetic diamond-tipped tool bits. Introduction Components and machine structure Different types of equipment Tooling specifications Tolerance and aspect ratios Working principle Control systems and power requirement Process parameters Material to be machined MRR and surface finish Advantages and disadvantages Applications Advancement in DTM Machine characteristics Machine tool requirement Bar graphs and tables Conclusion References Animation video <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/diamondturnmachining-210820231321-thumbnail.jpg?width=120&height=120&fit=bounds" /> Diamond Turn Machining Diamond turning is turning using a cutting tool with a diamond tip. It is a process of mechanical machining of precision elements using lathes or derivative machine tools equipped with natural or synthetic diamond-tipped tool bits. Introduction Components and machine structure Different types of equipment Tooling specifications Tolerance and aspect ratios Working principle Control systems and power requirement Process parameters Material to be machined MRR and surface finish Advantages and disadvantages Applications Advancement in DTM Machine characteristics Machine tool requirement Bar graphs and tables Conclusion References Animation video

Diamond turn machining from sangeetkhule

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0 Regenerative Braking System /slideshow/regenerative-braking-system-250019816/250019816 60sangeetregenerativebrakingsystem-210820224447
Conventional Braking System Introduction OfRegenerative Braking System Necessity Of The System Elements Of Regenerative Braking System Different Types Of Regenerative Braking System Advantages And Disadvantages Research Papers Conclusion Future Scope References]]>
Conventional Braking System Introduction OfRegenerative Braking System Necessity Of The System Elements Of Regenerative Braking System Different Types Of Regenerative Braking System Advantages And Disadvantages Research Papers Conclusion Future Scope References]]> Fri, 20 Aug 2021 22:44:47 GMT /slideshow/regenerative-braking-system-250019816/250019816 sangeetkhule@slideshare.net(sangeetkhule) Regenerative Braking System sangeetkhule Conventional Braking System Introduction Of�Regenerative Braking System Necessity Of The System Elements Of Regenerative Braking System Different Types Of Regenerative Braking System Advantages And Disadvantages Research Papers Conclusion Future Scope References <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/60sangeetregenerativebrakingsystem-210820224447-thumbnail.jpg?width=120&height=120&fit=bounds" /> Conventional Braking System Introduction Of�Regenerative Braking System Necessity Of The System Elements Of Regenerative Braking System Different Types Of Regenerative Braking System Advantages And Disadvantages Research Papers Conclusion Future Scope References

Regenerative Braking System from sangeetkhule

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0 Regenerative Braking System Report /sangeetkhule/regenerative-braking-system-report 60sangeetregenerativebrakingsystem-210820224033
Regenerative Braking System Regenerative braking is a way of taking the wasted energy from the process of slowing down a car and using it to recharge the car's batteries. Introduction Literature Review Recent Research And Development In Hess Case Study Regenerative Braking System In Bus Regenerative Braking System In Railways Conclusion Future Scope References]]>
Regenerative Braking System Regenerative braking is a way of taking the wasted energy from the process of slowing down a car and using it to recharge the car's batteries. Introduction Literature Review Recent Research And Development In Hess Case Study Regenerative Braking System In Bus Regenerative Braking System In Railways Conclusion Future Scope References]]> Fri, 20 Aug 2021 22:40:33 GMT /sangeetkhule/regenerative-braking-system-report sangeetkhule@slideshare.net(sangeetkhule) Regenerative Braking System Report sangeetkhule Regenerative Braking System Regenerative braking is a way of taking the wasted energy from the process of slowing down a car and using it to recharge the car's batteries. Introduction Literature Review Recent Research And Development In Hess Case Study Regenerative Braking System In Bus Regenerative Braking System In Railways Conclusion Future Scope References <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/60sangeetregenerativebrakingsystem-210820224033-thumbnail.jpg?width=120&height=120&fit=bounds" /> Regenerative Braking System Regenerative braking is a way of taking the wasted energy from the process of slowing down a car and using it to recharge the car's batteries. Introduction Literature Review Recent Research And Development In Hess Case Study Regenerative Braking System In Bus Regenerative Braking System In Railways Conclusion Future Scope References

Regenerative Braking System Report from sangeetkhule

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0 AUTOMATIC PORTABLE HAMMERING MACHINE REPORT /slideshow/automatic-portable-hammering-machine-report/250019802 miniprojectreport-210820223654
AUTOMATIC PORTABLE HAMMERING MACHINE TITLE PAGE CERTIFICATE ACKNOWLEDGEMENT ABSTRACT LIST OF FIGURES INTRODUCTION LITERATURE REVIEW INTRODUCTION PROJECT METHODS AND COMPONENT DETAILS DESIGN OF HAMMERING MACHINE CONCLUSION AND DISCUSSION FUTURE SCOPE REFERENCES CAD MODEL]]>
AUTOMATIC PORTABLE HAMMERING MACHINE TITLE PAGE CERTIFICATE ACKNOWLEDGEMENT ABSTRACT LIST OF FIGURES INTRODUCTION LITERATURE REVIEW INTRODUCTION PROJECT METHODS AND COMPONENT DETAILS DESIGN OF HAMMERING MACHINE CONCLUSION AND DISCUSSION FUTURE SCOPE REFERENCES CAD MODEL]]> Fri, 20 Aug 2021 22:36:54 GMT /slideshow/automatic-portable-hammering-machine-report/250019802 sangeetkhule@slideshare.net(sangeetkhule) AUTOMATIC PORTABLE HAMMERING MACHINE REPORT sangeetkhule AUTOMATIC PORTABLE HAMMERING MACHINE TITLE PAGE CERTIFICATE ACKNOWLEDGEMENT ABSTRACT LIST OF FIGURES INTRODUCTION LITERATURE REVIEW INTRODUCTION PROJECT METHODS AND COMPONENT DETAILS DESIGN OF HAMMERING MACHINE CONCLUSION AND DISCUSSION FUTURE SCOPE REFERENCES CAD MODEL <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/miniprojectreport-210820223654-thumbnail.jpg?width=120&height=120&fit=bounds" /> AUTOMATIC PORTABLE HAMMERING MACHINE TITLE PAGE CERTIFICATE ACKNOWLEDGEMENT ABSTRACT LIST OF FIGURES INTRODUCTION LITERATURE REVIEW INTRODUCTION PROJECT METHODS AND COMPONENT DETAILS DESIGN OF HAMMERING MACHINE CONCLUSION AND DISCUSSION FUTURE SCOPE REFERENCES CAD MODEL

AUTOMATIC PORTABLE HAMMERING MACHINE REPORT from sangeetkhule

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0 Etching /slideshow/etching-250019790/250019790 etching-210820223050
Etching In order to form a functional MEMS structure on a substrate, it is necessary to etch the thin films previously deposited and/or the substrate itself. In general, there are two classes of etching processes: Wet etching where the material is dissolved when immersed in a chemical solution Dry etching where the material is sputtered or dissolved using reactive ions or a vapour phase etchant]]>
Etching In order to form a functional MEMS structure on a substrate, it is necessary to etch the thin films previously deposited and/or the substrate itself. In general, there are two classes of etching processes: Wet etching where the material is dissolved when immersed in a chemical solution Dry etching where the material is sputtered or dissolved using reactive ions or a vapour phase etchant]]> Fri, 20 Aug 2021 22:30:49 GMT /slideshow/etching-250019790/250019790 sangeetkhule@slideshare.net(sangeetkhule) Etching sangeetkhule Etching In order to form a functional MEMS structure on a substrate, it is necessary to etch the thin films previously deposited and/or the substrate itself. In general, there are two classes of etching processes: Wet etching where the material is dissolved when immersed in a chemical solution Dry etching where the material is sputtered or dissolved using reactive ions or a vapour phase etchant <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/etching-210820223050-thumbnail.jpg?width=120&height=120&fit=bounds" /> Etching In order to form a functional MEMS structure on a substrate, it is necessary to etch the thin films previously deposited and/or the substrate itself. In general, there are two classes of etching processes: Wet etching where the material is dissolved when immersed in a chemical solution Dry etching where the material is sputtered or dissolved using reactive ions or a vapour phase etchant

Etching from sangeetkhule

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0 Automated Hammering Machine /slideshow/automated-hammering-machine/250019786 automatedhammeringmachine-210820222353
AUTOMATIC PORTABLE HAMMERING MACHINE TITLE PAGE CERTIFICATE ACKNOWLEDGEMENT ABSTRACT LIST OF FIGURES INTRODUCTION LITERATURE REVIEW INTRODUCTION PROJECT METHODS AND COMPONENT DETAILS DESIGN OF HAMMERING MACHINE CONCLUSION AND DISCUSSION FUTURE SCOPE REFERENCES CAD MODEL]]>
AUTOMATIC PORTABLE HAMMERING MACHINE TITLE PAGE CERTIFICATE ACKNOWLEDGEMENT ABSTRACT LIST OF FIGURES INTRODUCTION LITERATURE REVIEW INTRODUCTION PROJECT METHODS AND COMPONENT DETAILS DESIGN OF HAMMERING MACHINE CONCLUSION AND DISCUSSION FUTURE SCOPE REFERENCES CAD MODEL]]> Fri, 20 Aug 2021 22:23:53 GMT /slideshow/automated-hammering-machine/250019786 sangeetkhule@slideshare.net(sangeetkhule) Automated Hammering Machine sangeetkhule AUTOMATIC PORTABLE HAMMERING MACHINE TITLE PAGE CERTIFICATE ACKNOWLEDGEMENT ABSTRACT LIST OF FIGURES INTRODUCTION LITERATURE REVIEW INTRODUCTION PROJECT METHODS AND COMPONENT DETAILS DESIGN OF HAMMERING MACHINE CONCLUSION AND DISCUSSION FUTURE SCOPE REFERENCES CAD MODEL <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/automatedhammeringmachine-210820222353-thumbnail.jpg?width=120&height=120&fit=bounds" /> AUTOMATIC PORTABLE HAMMERING MACHINE TITLE PAGE CERTIFICATE ACKNOWLEDGEMENT ABSTRACT LIST OF FIGURES INTRODUCTION LITERATURE REVIEW INTRODUCTION PROJECT METHODS AND COMPONENT DETAILS DESIGN OF HAMMERING MACHINE CONCLUSION AND DISCUSSION FUTURE SCOPE REFERENCES CAD MODEL

Automated Hammering Machine from sangeetkhule

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0 AFFORESTATION AND NATIONAL AFFORESTATION PROGRAMME AND ACT - 2016 /slideshow/afforestation-and-national-afforestation-programme-and-act-2016/250019730 napaa2016rn60-210820215657
AFFORESTATION AND NATIONAL AFFORESTATION PROGRAMME AND ACT - 2016 Afforestation is a process where new forests are planted across land without trees. As a forest grows, it naturally removes CO2 from the atmosphere and stores it in its trees.]]>
AFFORESTATION AND NATIONAL AFFORESTATION PROGRAMME AND ACT - 2016 Afforestation is a process where new forests are planted across land without trees. As a forest grows, it naturally removes CO2 from the atmosphere and stores it in its trees.]]> Fri, 20 Aug 2021 21:56:57 GMT /slideshow/afforestation-and-national-afforestation-programme-and-act-2016/250019730 sangeetkhule@slideshare.net(sangeetkhule) AFFORESTATION AND NATIONAL AFFORESTATION PROGRAMME AND ACT - 2016 sangeetkhule AFFORESTATION AND NATIONAL AFFORESTATION PROGRAMME AND ACT - 2016 Afforestation is a process where new forests are planted across land without trees. As a forest grows, it naturally removes CO2 from the atmosphere and stores it in its trees. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/napaa2016rn60-210820215657-thumbnail.jpg?width=120&height=120&fit=bounds" /> AFFORESTATION AND NATIONAL AFFORESTATION PROGRAMME AND ACT - 2016 Afforestation is a process where new forests are planted across land without trees. As a forest grows, it naturally removes CO2 from the atmosphere and stores it in its trees.

AFFORESTATION AND NATIONAL AFFORESTATION PROGRAMME AND ACT - 2016 from sangeetkhule

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0 https://public.slidesharecdn.com/v2/images/profile-picture.png https://cdn.slidesharecdn.com/ss_thumbnails/solardryer1-240130170856-78e833d9-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/solar-dryer-component-design-and-requirement-calculationspdf/265982986 SOLAR DRYER COMPONENT ... https://cdn.slidesharecdn.com/ss_thumbnails/solardryer-240130170554-777f6e8c-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/solar-radiation-calculation-and-solar-collector-surface-areapdf/265982862 SOLAR RADIATION CALCUL... https://cdn.slidesharecdn.com/ss_thumbnails/tiltangle-240130170124-6d38708a-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/optimum-tilt-angle-for-solar-collectorpdf/265982687 OPTIMUM TILT ANGLE FOR...