�ݺ�ߣshows by User: maverickRRV

�ݺ�ߣshows by User: maverickRRV / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: maverickRRV / Mon, 15 Jul 2024 05:24:18 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: maverickRRV Sustainable Manufacturing (ENERCO Energy) /slideshow/sustainable-manufacturing-enerco-energy/270246135 sustainablemanufacturingenercoenergy-240715052419-38b5490d
In recent years, the concept of sustainable manufacturing has gained significant traction across industries worldwide. As concerns about climate change, resource depletion, and environmental degradation continue to grow, companies are increasingly recognizing the importance of integrating sustainability principles into their manufacturing processes. Sustainable manufacturing goes beyond simply reducing environmental impact; it encompasses a holistic approach to production that considers social, economic, and environmental dimensions. In this article, we explore the key aspects of sustainable manufacturing and highlight the benefits, challenges, and best practices associated with its implementation. The Pillars of Sustainable Manufacturing: 1. Environmental Sustainability 2. Social Responsibility 3. Economic Viability Benefits of Sustainable Manufacturing: 1. Cost Savings 2. Risk Mitigation 3. Market Differentiation 4. Innovation and Collaboration Challenges and best practices: 1. Set Clear Goals and Targets 2. Engage Stakeholders 3. Invest in Training and Education 4. Embrace Technology and Innovation 5. Collaborate Across Value Chains 6. Measure and Report Progress Conclusion Sustainable manufacturing is not just a buzzword; it's a fundamental shift in how companies operate and compete in today's rapidly changing business landscape. By embracing sustainability principles and integrating them into their manufacturing processes, companies can create value, drive innovation, and build resilience while simultaneously contributing to a more sustainable and prosperous future for all. In conclusion, sustainable manufacturing is not only a moral imperative but also a strategic imperative for companies seeking long-term success and competitiveness in the 21st century. By prioritizing environmental stewardship, social responsibility, and economic viability, companies can achieve a triple bottom line of people, planet, and profit, creating shared value for society, the environment, and the economy alike. We at ENERCO Energy Solutions LLP are actively working across India and the middle-East on sustainability projects and solutions. Our primary offerings are on carbon neutrality (decarbonization), Net-zero, RE100, solar energy, wind-solar hybrid and sustainability solutions.]]>
In recent years, the concept of sustainable manufacturing has gained significant traction across industries worldwide. As concerns about climate change, resource depletion, and environmental degradation continue to grow, companies are increasingly recognizing the importance of integrating sustainability principles into their manufacturing processes. Sustainable manufacturing goes beyond simply reducing environmental impact; it encompasses a holistic approach to production that considers social, economic, and environmental dimensions. In this article, we explore the key aspects of sustainable manufacturing and highlight the benefits, challenges, and best practices associated with its implementation. The Pillars of Sustainable Manufacturing: 1. Environmental Sustainability 2. Social Responsibility 3. Economic Viability Benefits of Sustainable Manufacturing: 1. Cost Savings 2. Risk Mitigation 3. Market Differentiation 4. Innovation and Collaboration Challenges and best practices: 1. Set Clear Goals and Targets 2. Engage Stakeholders 3. Invest in Training and Education 4. Embrace Technology and Innovation 5. Collaborate Across Value Chains 6. Measure and Report Progress Conclusion Sustainable manufacturing is not just a buzzword; it's a fundamental shift in how companies operate and compete in today's rapidly changing business landscape. By embracing sustainability principles and integrating them into their manufacturing processes, companies can create value, drive innovation, and build resilience while simultaneously contributing to a more sustainable and prosperous future for all. In conclusion, sustainable manufacturing is not only a moral imperative but also a strategic imperative for companies seeking long-term success and competitiveness in the 21st century. By prioritizing environmental stewardship, social responsibility, and economic viability, companies can achieve a triple bottom line of people, planet, and profit, creating shared value for society, the environment, and the economy alike. We at ENERCO Energy Solutions LLP are actively working across India and the middle-East on sustainability projects and solutions. Our primary offerings are on carbon neutrality (decarbonization), Net-zero, RE100, solar energy, wind-solar hybrid and sustainability solutions.]]> Mon, 15 Jul 2024 05:24:18 GMT /slideshow/sustainable-manufacturing-enerco-energy/270246135 maverickRRV@slideshare.net(maverickRRV) Sustainable Manufacturing (ENERCO Energy) maverickRRV In recent years, the concept of sustainable manufacturing has gained significant traction across industries worldwide. As concerns about climate change, resource depletion, and environmental degradation continue to grow, companies are increasingly recognizing the importance of integrating sustainability principles into their manufacturing processes. Sustainable manufacturing goes beyond simply reducing environmental impact; it encompasses a holistic approach to production that considers social, economic, and environmental dimensions. In this article, we explore the key aspects of sustainable manufacturing and highlight the benefits, challenges, and best practices associated with its implementation. The Pillars of Sustainable Manufacturing: 1. Environmental Sustainability 2. Social Responsibility 3. Economic Viability Benefits of Sustainable Manufacturing: 1. Cost Savings 2. Risk Mitigation 3. Market Differentiation 4. Innovation and Collaboration Challenges and best practices: 1. Set Clear Goals and Targets 2. Engage Stakeholders 3. Invest in Training and Education 4. Embrace Technology and Innovation 5. Collaborate Across Value Chains 6. Measure and Report Progress Conclusion Sustainable manufacturing is not just a buzzword; it's a fundamental shift in how companies operate and compete in today's rapidly changing business landscape. By embracing sustainability principles and integrating them into their manufacturing processes, companies can create value, drive innovation, and build resilience while simultaneously contributing to a more sustainable and prosperous future for all. In conclusion, sustainable manufacturing is not only a moral imperative but also a strategic imperative for companies seeking long-term success and competitiveness in the 21st century. By prioritizing environmental stewardship, social responsibility, and economic viability, companies can achieve a triple bottom line of people, planet, and profit, creating shared value for society, the environment, and the economy alike. We at ENERCO Energy Solutions LLP are actively working across India and the middle-East on sustainability projects and solutions. Our primary offerings are on carbon neutrality (decarbonization), Net-zero, RE100, solar energy, wind-solar hybrid and sustainability solutions. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/sustainablemanufacturingenercoenergy-240715052419-38b5490d-thumbnail.jpg?width=120&height=120&fit=bounds" /> In recent years, the concept of sustainable manufacturing has gained significant traction across industries worldwide. As concerns about climate change, resource depletion, and environmental degradation continue to grow, companies are increasingly recognizing the importance of integrating sustainability principles into their manufacturing processes. Sustainable manufacturing goes beyond simply reducing environmental impact; it encompasses a holistic approach to production that considers social, economic, and environmental dimensions. In this article, we explore the key aspects of sustainable manufacturing and highlight the benefits, challenges, and best practices associated with its implementation. The Pillars of Sustainable Manufacturing: 1. Environmental Sustainability 2. Social Responsibility 3. Economic Viability Benefits of Sustainable Manufacturing: 1. Cost Savings 2. Risk Mitigation 3. Market Differentiation 4. Innovation and Collaboration Challenges and best practices: 1. Set Clear Goals and Targets 2. Engage Stakeholders 3. Invest in Training and Education 4. Embrace Technology and Innovation 5. Collaborate Across Value Chains 6. Measure and Report Progress Conclusion Sustainable manufacturing is not just a buzzword; it's a fundamental shift in how companies operate and compete in today's rapidly changing business landscape. By embracing sustainability principles and integrating them into their manufacturing processes, companies can create value, drive innovation, and build resilience while simultaneously contributing to a more sustainable and prosperous future for all. In conclusion, sustainable manufacturing is not only a moral imperative but also a strategic imperative for companies seeking long-term success and competitiveness in the 21st century. By prioritizing environmental stewardship, social responsibility, and economic viability, companies can achieve a triple bottom line of people, planet, and profit, creating shared value for society, the environment, and the economy alike. We at ENERCO Energy Solutions LLP are actively working across India and the middle-East on sustainability projects and solutions. Our primary offerings are on carbon neutrality (decarbonization), Net-zero, RE100, solar energy, wind-solar hybrid and sustainability solutions.

Sustainable Manufacturing (ENERCO Energy) from Enerco Energy Solutions LLP

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0 Solar Energy vs Wind-Solar Hybrid Energy (ENERCO Energy) - Which is the right one for you? /slideshow/solar-energy-vs-wind-solar-hybrid-energy-enerco-energy-which-is-the-right-one-for-you/269893881 solarvswind-solarhybridenerco-240626054955-b9cbb019
When deciding between a solar-only system and a wind-solar hybrid system for energy generation, it’s important to understand the benefits and limitations of each approach. Key factors that one needs to consider are power consumption trend for mapping, generation simulation, Central and State Govt. regulations, commercial viability, risks and opportunities etc. Wind-Solar hybrid system is gradually gaining popularity due complementary nature of the two technologies. However, is it really the best solution or is a stand-alone solar system better? Solar-Only System Advantages: 1. Simplicity and Lower Initial Cost: Solar systems are generally simpler to install and have lower initial capital costs compared to hybrid systems. Many developers are coming up with solar parks with ready infrastructure and financial support under group captive and 3rd party mechanisms. 2. Low cost of power generation: Solar PV is among the cheapest sources of power with cost of generation @ INR 2.50 per kWh (based on simple amortization of 10 years) making a strong business sense. A typical solar project gives an excellent IRR of 18%+ based on general industrial tariff. 3. Predictability and consistency: Power generation is reasonably consistent with no major concentrations or major lean periods. For eg. In wind turbines the major power generation happens during the monsoon and low to very low generation during other months. The predictability and consistency are a major advantage in stand-alone solar systems. (Power generation chart shared below) 4. Scalability: Solar systems can be easily scaled up or down to meet changing energy demands by adding or removing panels. This is possible due to the modular nature of the system. For eg. One may choose to go for any capacity i.e. 2.5 MWp / 5.4 Mwp / 22 MWp etc. unlike in wind where 3.3 MW turbines are the minimum and then in those multiples. 5. Decentralization: Solar projects can be installed on rooftops thereby enabling decentralization of power and cutting losses that occur due to transmission and distribution over long distances. Several States also promote net-metering thereby ensuring usage of solar power during non-sunny hours. 6. Lower Maintenance: Solar panels have fewer moving parts, resulting in lower maintenance requirements and costs. Perhaps the major recurring activity is cleaning of PV modules which could be weekly / fortnightly / monthly depending on the site conditions. Other O&M checks are done on quarterly / biannually. 7. Abundant Solar Resource: In regions with high solar irradiance, solar systems can provide a significant amount of clean energy. Typically solar PV will work in any region (with varying performance) and does not need any specific pocket. 8. Environmental impact: Solar PV power generation is one of the greenest methodologies. Its energy payback is less than 2.5 years. It gives 10x more energy than that was consumed during its production.]]>
When deciding between a solar-only system and a wind-solar hybrid system for energy generation, it’s important to understand the benefits and limitations of each approach. Key factors that one needs to consider are power consumption trend for mapping, generation simulation, Central and State Govt. regulations, commercial viability, risks and opportunities etc. Wind-Solar hybrid system is gradually gaining popularity due complementary nature of the two technologies. However, is it really the best solution or is a stand-alone solar system better? Solar-Only System Advantages: 1. Simplicity and Lower Initial Cost: Solar systems are generally simpler to install and have lower initial capital costs compared to hybrid systems. Many developers are coming up with solar parks with ready infrastructure and financial support under group captive and 3rd party mechanisms. 2. Low cost of power generation: Solar PV is among the cheapest sources of power with cost of generation @ INR 2.50 per kWh (based on simple amortization of 10 years) making a strong business sense. A typical solar project gives an excellent IRR of 18%+ based on general industrial tariff. 3. Predictability and consistency: Power generation is reasonably consistent with no major concentrations or major lean periods. For eg. In wind turbines the major power generation happens during the monsoon and low to very low generation during other months. The predictability and consistency are a major advantage in stand-alone solar systems. (Power generation chart shared below) 4. Scalability: Solar systems can be easily scaled up or down to meet changing energy demands by adding or removing panels. This is possible due to the modular nature of the system. For eg. One may choose to go for any capacity i.e. 2.5 MWp / 5.4 Mwp / 22 MWp etc. unlike in wind where 3.3 MW turbines are the minimum and then in those multiples. 5. Decentralization: Solar projects can be installed on rooftops thereby enabling decentralization of power and cutting losses that occur due to transmission and distribution over long distances. Several States also promote net-metering thereby ensuring usage of solar power during non-sunny hours. 6. Lower Maintenance: Solar panels have fewer moving parts, resulting in lower maintenance requirements and costs. Perhaps the major recurring activity is cleaning of PV modules which could be weekly / fortnightly / monthly depending on the site conditions. Other O&M checks are done on quarterly / biannually. 7. Abundant Solar Resource: In regions with high solar irradiance, solar systems can provide a significant amount of clean energy. Typically solar PV will work in any region (with varying performance) and does not need any specific pocket. 8. Environmental impact: Solar PV power generation is one of the greenest methodologies. Its energy payback is less than 2.5 years. It gives 10x more energy than that was consumed during its production.]]> Wed, 26 Jun 2024 05:49:54 GMT /slideshow/solar-energy-vs-wind-solar-hybrid-energy-enerco-energy-which-is-the-right-one-for-you/269893881 maverickRRV@slideshare.net(maverickRRV) Solar Energy vs Wind-Solar Hybrid Energy (ENERCO Energy) - Which is the right one for you? maverickRRV When deciding between a solar-only system and a wind-solar hybrid system for energy generation, it’s important to understand the benefits and limitations of each approach. Key factors that one needs to consider are power consumption trend for mapping, generation simulation, Central and State Govt. regulations, commercial viability, risks and opportunities etc. Wind-Solar hybrid system is gradually gaining popularity due complementary nature of the two technologies. However, is it really the best solution or is a stand-alone solar system better? Solar-Only System Advantages: 1. Simplicity and Lower Initial Cost: Solar systems are generally simpler to install and have lower initial capital costs compared to hybrid systems. Many developers are coming up with solar parks with ready infrastructure and financial support under group captive and 3rd party mechanisms. 2. Low cost of power generation: Solar PV is among the cheapest sources of power with cost of generation @ INR 2.50 per kWh (based on simple amortization of 10 years) making a strong business sense. A typical solar project gives an excellent IRR of 18%+ based on general industrial tariff. 3. Predictability and consistency: Power generation is reasonably consistent with no major concentrations or major lean periods. For eg. In wind turbines the major power generation happens during the monsoon and low to very low generation during other months. The predictability and consistency are a major advantage in stand-alone solar systems. (Power generation chart shared below) 4. Scalability: Solar systems can be easily scaled up or down to meet changing energy demands by adding or removing panels. This is possible due to the modular nature of the system. For eg. One may choose to go for any capacity i.e. 2.5 MWp / 5.4 Mwp / 22 MWp etc. unlike in wind where 3.3 MW turbines are the minimum and then in those multiples. 5. Decentralization: Solar projects can be installed on rooftops thereby enabling decentralization of power and cutting losses that occur due to transmission and distribution over long distances. Several States also promote net-metering thereby ensuring usage of solar power during non-sunny hours. 6. Lower Maintenance: Solar panels have fewer moving parts, resulting in lower maintenance requirements and costs. Perhaps the major recurring activity is cleaning of PV modules which could be weekly / fortnightly / monthly depending on the site conditions. Other O&M checks are done on quarterly / biannually. 7. Abundant Solar Resource: In regions with high solar irradiance, solar systems can provide a significant amount of clean energy. Typically solar PV will work in any region (with varying performance) and does not need any specific pocket. 8. Environmental impact: Solar PV power generation is one of the greenest methodologies. Its energy payback is less than 2.5 years. It gives 10x more energy than that was consumed during its production. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/solarvswind-solarhybridenerco-240626054955-b9cbb019-thumbnail.jpg?width=120&height=120&fit=bounds" /> When deciding between a solar-only system and a wind-solar hybrid system for energy generation, it’s important to understand the benefits and limitations of each approach. Key factors that one needs to consider are power consumption trend for mapping, generation simulation, Central and State Govt. regulations, commercial viability, risks and opportunities etc. Wind-Solar hybrid system is gradually gaining popularity due complementary nature of the two technologies. However, is it really the best solution or is a stand-alone solar system better? Solar-Only System Advantages: 1. Simplicity and Lower Initial Cost: Solar systems are generally simpler to install and have lower initial capital costs compared to hybrid systems. Many developers are coming up with solar parks with ready infrastructure and financial support under group captive and 3rd party mechanisms. 2. Low cost of power generation: Solar PV is among the cheapest sources of power with cost of generation @ INR 2.50 per kWh (based on simple amortization of 10 years) making a strong business sense. A typical solar project gives an excellent IRR of 18%+ based on general industrial tariff. 3. Predictability and consistency: Power generation is reasonably consistent with no major concentrations or major lean periods. For eg. In wind turbines the major power generation happens during the monsoon and low to very low generation during other months. The predictability and consistency are a major advantage in stand-alone solar systems. (Power generation chart shared below) 4. Scalability: Solar systems can be easily scaled up or down to meet changing energy demands by adding or removing panels. This is possible due to the modular nature of the system. For eg. One may choose to go for any capacity i.e. 2.5 MWp / 5.4 Mwp / 22 MWp etc. unlike in wind where 3.3 MW turbines are the minimum and then in those multiples. 5. Decentralization: Solar projects can be installed on rooftops thereby enabling decentralization of power and cutting losses that occur due to transmission and distribution over long distances. Several States also promote net-metering thereby ensuring usage of solar power during non-sunny hours. 6. Lower Maintenance: Solar panels have fewer moving parts, resulting in lower maintenance requirements and costs. Perhaps the major recurring activity is cleaning of PV modules which could be weekly / fortnightly / monthly depending on the site conditions. Other O&M checks are done on quarterly / biannually. 7. Abundant Solar Resource: In regions with high solar irradiance, solar systems can provide a significant amount of clean energy. Typically solar PV will work in any region (with varying performance) and does not need any specific pocket. 8. Environmental impact: Solar PV power generation is one of the greenest methodologies. Its energy payback is less than 2.5 years. It gives 10x more energy than that was consumed during its production.

Solar Energy vs Wind-Solar Hybrid Energy (ENERCO Energy) - Which is the right one for you? from Enerco Energy Solutions LLP

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0 Green H2 (ENERCO Energy) - Why the hype? /slideshow/green-h2-enerco-energy-why-the-hype/267684128 greenh2hypeenercoenergy-240501035242-466f1979
ENERCO Energy is active in Green H2 space. The hype surrounding green hydrogen, often referred to simply as "green H2," has been growing in recent years due to its potential to address key challenges related to energy transition, decarbonization, and sustainability. Green hydrogen is produced using renewable energy sources through a process called electrolysis, which splits water molecules into hydrogen and oxygen. Here are some reasons behind the increasing hype around green hydrogen: Clean Energy Transition: Green hydrogen is considered a key enabler of the transition to a low-carbon and renewable energy future. It offers a versatile and scalable energy storage solution that can complement intermittent renewable energy sources like solar and wind power. By converting excess renewable energy into hydrogen during periods of oversupply, green hydrogen can be stored and used later to produce electricity, heat, or fuel. Decarbonization of Hard-to-Abate Sectors: Green hydrogen has the potential to decarbonize sectors that are challenging to electrify directly, such as heavy industry, transportation (including aviation and shipping), and heating. By replacing fossil fuels in these sectors with hydrogen-based fuels or feedstocks, emissions can be significantly reduced, contributing to global efforts to mitigate climate change. Technological Advancements: Advances in electrolysis technology, renewable energy integration, and hydrogen infrastructure have made green hydrogen production more efficient, cost-effective, and scalable. Continuous innovation and research efforts are driving down the costs of electrolyzers and improving the performance of hydrogen production processes. Policy Support and Investments: Governments around the world are increasingly recognizing the potential of green hydrogen and implementing supportive policies, incentives, and funding mechanisms to accelerate its deployment. National hydrogen strategies, investment programs, and public-private partnerships aim to stimulate demand, scale up production, and build a robust hydrogen economy. Industry and Market Momentum: Major industries, energy companies, and technology providers are increasingly investing in green hydrogen projects and initiatives. Collaborations and partnerships across sectors, value chains, and regions are driving innovation, scaling up production, and commercializing hydrogen-based applications. Global Momentum and Cooperation: Green hydrogen has garnered attention as a global priority in international forums, initiatives, and agreements focused on sustainable development, climate action, and clean energy. Cooperation among countries, regions, and stakeholders is essential to unlock the full potential of green hydrogen and address common challenges related to technology deployment, infrastructure development, and market integration.]]>
ENERCO Energy is active in Green H2 space. The hype surrounding green hydrogen, often referred to simply as "green H2," has been growing in recent years due to its potential to address key challenges related to energy transition, decarbonization, and sustainability. Green hydrogen is produced using renewable energy sources through a process called electrolysis, which splits water molecules into hydrogen and oxygen. Here are some reasons behind the increasing hype around green hydrogen: Clean Energy Transition: Green hydrogen is considered a key enabler of the transition to a low-carbon and renewable energy future. It offers a versatile and scalable energy storage solution that can complement intermittent renewable energy sources like solar and wind power. By converting excess renewable energy into hydrogen during periods of oversupply, green hydrogen can be stored and used later to produce electricity, heat, or fuel. Decarbonization of Hard-to-Abate Sectors: Green hydrogen has the potential to decarbonize sectors that are challenging to electrify directly, such as heavy industry, transportation (including aviation and shipping), and heating. By replacing fossil fuels in these sectors with hydrogen-based fuels or feedstocks, emissions can be significantly reduced, contributing to global efforts to mitigate climate change. Technological Advancements: Advances in electrolysis technology, renewable energy integration, and hydrogen infrastructure have made green hydrogen production more efficient, cost-effective, and scalable. Continuous innovation and research efforts are driving down the costs of electrolyzers and improving the performance of hydrogen production processes. Policy Support and Investments: Governments around the world are increasingly recognizing the potential of green hydrogen and implementing supportive policies, incentives, and funding mechanisms to accelerate its deployment. National hydrogen strategies, investment programs, and public-private partnerships aim to stimulate demand, scale up production, and build a robust hydrogen economy. Industry and Market Momentum: Major industries, energy companies, and technology providers are increasingly investing in green hydrogen projects and initiatives. Collaborations and partnerships across sectors, value chains, and regions are driving innovation, scaling up production, and commercializing hydrogen-based applications. Global Momentum and Cooperation: Green hydrogen has garnered attention as a global priority in international forums, initiatives, and agreements focused on sustainable development, climate action, and clean energy. Cooperation among countries, regions, and stakeholders is essential to unlock the full potential of green hydrogen and address common challenges related to technology deployment, infrastructure development, and market integration.]]> Wed, 01 May 2024 03:52:42 GMT /slideshow/green-h2-enerco-energy-why-the-hype/267684128 maverickRRV@slideshare.net(maverickRRV) Green H2 (ENERCO Energy) - Why the hype? maverickRRV ENERCO Energy is active in Green H2 space. The hype surrounding green hydrogen, often referred to simply as "green H2," has been growing in recent years due to its potential to address key challenges related to energy transition, decarbonization, and sustainability. Green hydrogen is produced using renewable energy sources through a process called electrolysis, which splits water molecules into hydrogen and oxygen. Here are some reasons behind the increasing hype around green hydrogen: Clean Energy Transition: Green hydrogen is considered a key enabler of the transition to a low-carbon and renewable energy future. It offers a versatile and scalable energy storage solution that can complement intermittent renewable energy sources like solar and wind power. By converting excess renewable energy into hydrogen during periods of oversupply, green hydrogen can be stored and used later to produce electricity, heat, or fuel. Decarbonization of Hard-to-Abate Sectors: Green hydrogen has the potential to decarbonize sectors that are challenging to electrify directly, such as heavy industry, transportation (including aviation and shipping), and heating. By replacing fossil fuels in these sectors with hydrogen-based fuels or feedstocks, emissions can be significantly reduced, contributing to global efforts to mitigate climate change. Technological Advancements: Advances in electrolysis technology, renewable energy integration, and hydrogen infrastructure have made green hydrogen production more efficient, cost-effective, and scalable. Continuous innovation and research efforts are driving down the costs of electrolyzers and improving the performance of hydrogen production processes. Policy Support and Investments: Governments around the world are increasingly recognizing the potential of green hydrogen and implementing supportive policies, incentives, and funding mechanisms to accelerate its deployment. National hydrogen strategies, investment programs, and public-private partnerships aim to stimulate demand, scale up production, and build a robust hydrogen economy. Industry and Market Momentum: Major industries, energy companies, and technology providers are increasingly investing in green hydrogen projects and initiatives. Collaborations and partnerships across sectors, value chains, and regions are driving innovation, scaling up production, and commercializing hydrogen-based applications. Global Momentum and Cooperation: Green hydrogen has garnered attention as a global priority in international forums, initiatives, and agreements focused on sustainable development, climate action, and clean energy. Cooperation among countries, regions, and stakeholders is essential to unlock the full potential of green hydrogen and address common challenges related to technology deployment, infrastructure development, and market integration. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/greenh2hypeenercoenergy-240501035242-466f1979-thumbnail.jpg?width=120&height=120&fit=bounds" /> ENERCO Energy is active in Green H2 space. The hype surrounding green hydrogen, often referred to simply as "green H2," has been growing in recent years due to its potential to address key challenges related to energy transition, decarbonization, and sustainability. Green hydrogen is produced using renewable energy sources through a process called electrolysis, which splits water molecules into hydrogen and oxygen. Here are some reasons behind the increasing hype around green hydrogen: Clean Energy Transition: Green hydrogen is considered a key enabler of the transition to a low-carbon and renewable energy future. It offers a versatile and scalable energy storage solution that can complement intermittent renewable energy sources like solar and wind power. By converting excess renewable energy into hydrogen during periods of oversupply, green hydrogen can be stored and used later to produce electricity, heat, or fuel. Decarbonization of Hard-to-Abate Sectors: Green hydrogen has the potential to decarbonize sectors that are challenging to electrify directly, such as heavy industry, transportation (including aviation and shipping), and heating. By replacing fossil fuels in these sectors with hydrogen-based fuels or feedstocks, emissions can be significantly reduced, contributing to global efforts to mitigate climate change. Technological Advancements: Advances in electrolysis technology, renewable energy integration, and hydrogen infrastructure have made green hydrogen production more efficient, cost-effective, and scalable. Continuous innovation and research efforts are driving down the costs of electrolyzers and improving the performance of hydrogen production processes. Policy Support and Investments: Governments around the world are increasingly recognizing the potential of green hydrogen and implementing supportive policies, incentives, and funding mechanisms to accelerate its deployment. National hydrogen strategies, investment programs, and public-private partnerships aim to stimulate demand, scale up production, and build a robust hydrogen economy. Industry and Market Momentum: Major industries, energy companies, and technology providers are increasingly investing in green hydrogen projects and initiatives. Collaborations and partnerships across sectors, value chains, and regions are driving innovation, scaling up production, and commercializing hydrogen-based applications. Global Momentum and Cooperation: Green hydrogen has garnered attention as a global priority in international forums, initiatives, and agreements focused on sustainable development, climate action, and clean energy. Cooperation among countries, regions, and stakeholders is essential to unlock the full potential of green hydrogen and address common challenges related to technology deployment, infrastructure development, and market integration.

Green H2 (ENERCO Energy) - Why the hype? from Enerco Energy Solutions LLP

]]> 37 0 https://cdn.slidesharecdn.com/ss_thumbnails/greenh2hypeenercoenergy-240501035242-466f1979-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post

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0 ENERCO Energy Green Steel Presentation.pdf /slideshow/enerco-energy-green-steel-presentationpdf/267193700 enercoenergygreensteelpresentation-240410102948-a3c36c23
Steel industry is witnessing rapid development to move towards GREEN STEEL Green Steel demands a premium pricing in the market vs normal steel. Other alternative is low-carbon steel, the demand for which is also picking up. ]]>
Steel industry is witnessing rapid development to move towards GREEN STEEL Green Steel demands a premium pricing in the market vs normal steel. Other alternative is low-carbon steel, the demand for which is also picking up. ]]> Wed, 10 Apr 2024 10:29:48 GMT /slideshow/enerco-energy-green-steel-presentationpdf/267193700 maverickRRV@slideshare.net(maverickRRV) ENERCO Energy Green Steel Presentation.pdf maverickRRV Steel industry is witnessing rapid development to move towards GREEN STEEL Green Steel demands a premium pricing in the market vs normal steel. Other alternative is low-carbon steel, the demand for which is also picking up. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/enercoenergygreensteelpresentation-240410102948-a3c36c23-thumbnail.jpg?width=120&height=120&fit=bounds" /> Steel industry is witnessing rapid development to move towards GREEN STEEL Green Steel demands a premium pricing in the market vs normal steel. Other alternative is low-carbon steel, the demand for which is also picking up.

ENERCO Energy Green Steel Presentation.pdf from Enerco Energy Solutions LLP

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0 5 methods to reduce CO2 in manufacturing (ENERCO Energy) /slideshow/5-methods-to-reduce-co2-in-manufacturing-enerco-energy/267048696 5methodstoreduceco2inmanufacturingenercoenergy-240401050616-c20f73a1
The manufacturing sector plays a critical role in global economic growth and development; however, it is also a significant contributor to carbon emissions, with various industrial processes and energy-intensive operations leading to environmental challenges. The pressing need to address carbon emissions in manufacturing has become a paramount focus in the pursuit of sustainable and environmentally responsible production practices.]]>
The manufacturing sector plays a critical role in global economic growth and development; however, it is also a significant contributor to carbon emissions, with various industrial processes and energy-intensive operations leading to environmental challenges. The pressing need to address carbon emissions in manufacturing has become a paramount focus in the pursuit of sustainable and environmentally responsible production practices.]]> Mon, 01 Apr 2024 05:06:16 GMT /slideshow/5-methods-to-reduce-co2-in-manufacturing-enerco-energy/267048696 maverickRRV@slideshare.net(maverickRRV) 5 methods to reduce CO2 in manufacturing (ENERCO Energy) maverickRRV The manufacturing sector plays a critical role in global economic growth and development; however, it is also a significant contributor to carbon emissions, with various industrial processes and energy-intensive operations leading to environmental challenges. The pressing need to address carbon emissions in manufacturing has become a paramount focus in the pursuit of sustainable and environmentally responsible production practices. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/5methodstoreduceco2inmanufacturingenercoenergy-240401050616-c20f73a1-thumbnail.jpg?width=120&height=120&fit=bounds" /> The manufacturing sector plays a critical role in global economic growth and development; however, it is also a significant contributor to carbon emissions, with various industrial processes and energy-intensive operations leading to environmental challenges. The pressing need to address carbon emissions in manufacturing has become a paramount focus in the pursuit of sustainable and environmentally responsible production practices.

5 methods to reduce CO2 in manufacturing (ENERCO Energy) from Enerco Energy Solutions LLP

]]> 36 0 https://cdn.slidesharecdn.com/ss_thumbnails/5methodstoreduceco2inmanufacturingenercoenergy-240401050616-c20f73a1-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post

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0 Energy Audit Report (Steel Plant) /slideshow/steel-plant-energy-audit-actual-sample/266614414 sampleenergyauditreportnew-240304070545-1da1064f
In simple terms an Energy Audit is a complex technical assessment of present energy consumption of an Industrial Unit or a Commercial Facility or a Community Complex (Hospital, Offices, Shopping Malls etc.) for the purpose of reduction in wasteful consumption. The Objective • Accumulating data at various energy points • Identifying energy losses and critical junctions • Enabling energy conservation and cost savings The Methodology • Analyzing the performance of each equipment by Certified B.E.E. Energy Audit Experts using most advanced instruments and equipment • Collating the parameter data with benchmarks • Manifesting and implementing corrective measures What it covers • All operations, processes, products and departments in the organization • All forms of energy – specifically electrical + thermal • Operational efficiency of equipment like diesel generator sets, turbo generator sets and utilization of power from the electricity supply authority • Evaluation of different components of the electrical network like transformers, lighting, motors, capacitors and the distribution network • Study of utility equipment like air compressors, fans, pumps, blowers, air-conditioning and refrigeration, evaporative cooling, cooling towers, boilers, furnaces, thermal fluid heaters What it leads to • Energy balance • Heat and mass balance • Establishing specific energy consumption • Identifying opportunities for energy efficiency What it helps achieve • Compliance with Government regulations • Lower energy costs • Enable faster recovery of investments • Achieve better performance and lower downtime • Enhanced power quality and productivity • Reduced emission levels • Improved Age of Equipment and complete system • Reducing Global Warming ]]>
In simple terms an Energy Audit is a complex technical assessment of present energy consumption of an Industrial Unit or a Commercial Facility or a Community Complex (Hospital, Offices, Shopping Malls etc.) for the purpose of reduction in wasteful consumption. The Objective • Accumulating data at various energy points • Identifying energy losses and critical junctions • Enabling energy conservation and cost savings The Methodology • Analyzing the performance of each equipment by Certified B.E.E. Energy Audit Experts using most advanced instruments and equipment • Collating the parameter data with benchmarks • Manifesting and implementing corrective measures What it covers • All operations, processes, products and departments in the organization • All forms of energy – specifically electrical + thermal • Operational efficiency of equipment like diesel generator sets, turbo generator sets and utilization of power from the electricity supply authority • Evaluation of different components of the electrical network like transformers, lighting, motors, capacitors and the distribution network • Study of utility equipment like air compressors, fans, pumps, blowers, air-conditioning and refrigeration, evaporative cooling, cooling towers, boilers, furnaces, thermal fluid heaters What it leads to • Energy balance • Heat and mass balance • Establishing specific energy consumption • Identifying opportunities for energy efficiency What it helps achieve • Compliance with Government regulations • Lower energy costs • Enable faster recovery of investments • Achieve better performance and lower downtime • Enhanced power quality and productivity • Reduced emission levels • Improved Age of Equipment and complete system • Reducing Global Warming ]]> Mon, 04 Mar 2024 07:05:45 GMT /slideshow/steel-plant-energy-audit-actual-sample/266614414 maverickRRV@slideshare.net(maverickRRV) Energy Audit Report (Steel Plant) maverickRRV In simple terms an Energy Audit is a complex technical assessment of present energy consumption of an Industrial Unit or a Commercial Facility or a Community Complex (Hospital, Offices, Shopping Malls etc.) for the purpose of reduction in wasteful consumption. The Objective • Accumulating data at various energy points • Identifying energy losses and critical junctions • Enabling energy conservation and cost savings The Methodology • Analyzing the performance of each equipment by Certified B.E.E. Energy Audit Experts using most advanced instruments and equipment • Collating the parameter data with benchmarks • Manifesting and implementing corrective measures What it covers • All operations, processes, products and departments in the organization • All forms of energy – specifically electrical + thermal • Operational efficiency of equipment like diesel generator sets, turbo generator sets and utilization of power from the electricity supply authority • Evaluation of different components of the electrical network like transformers, lighting, motors, capacitors and the distribution network • Study of utility equipment like air compressors, fans, pumps, blowers, air-conditioning and refrigeration, evaporative cooling, cooling towers, boilers, furnaces, thermal fluid heaters What it leads to • Energy balance • Heat and mass balance • Establishing specific energy consumption • Identifying opportunities for energy efficiency What it helps achieve • Compliance with Government regulations • Lower energy costs • Enable faster recovery of investments • Achieve better performance and lower downtime • Enhanced power quality and productivity • Reduced emission levels • Improved Age of Equipment and complete system • Reducing Global Warming <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/sampleenergyauditreportnew-240304070545-1da1064f-thumbnail.jpg?width=120&height=120&fit=bounds" /> In simple terms an Energy Audit is a complex technical assessment of present energy consumption of an Industrial Unit or a Commercial Facility or a Community Complex (Hospital, Offices, Shopping Malls etc.) for the purpose of reduction in wasteful consumption. The Objective • Accumulating data at various energy points • Identifying energy losses and critical junctions • Enabling energy conservation and cost savings The Methodology • Analyzing the performance of each equipment by Certified B.E.E. Energy Audit Experts using most advanced instruments and equipment • Collating the parameter data with benchmarks • Manifesting and implementing corrective measures What it covers • All operations, processes, products and departments in the organization • All forms of energy – specifically electrical + thermal • Operational efficiency of equipment like diesel generator sets, turbo generator sets and utilization of power from the electricity supply authority • Evaluation of different components of the electrical network like transformers, lighting, motors, capacitors and the distribution network • Study of utility equipment like air compressors, fans, pumps, blowers, air-conditioning and refrigeration, evaporative cooling, cooling towers, boilers, furnaces, thermal fluid heaters What it leads to • Energy balance • Heat and mass balance • Establishing specific energy consumption • Identifying opportunities for energy efficiency What it helps achieve • Compliance with Government regulations • Lower energy costs • Enable faster recovery of investments • Achieve better performance and lower downtime • Enhanced power quality and productivity • Reduced emission levels • Improved Age of Equipment and complete system • Reducing Global Warming

Energy Audit Report (Steel Plant) from Enerco Energy Solutions LLP

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0 Solar Energy Projects - 8 reasons for under-performance (ENERCO Energy).pdf /slideshow/solar-energy-projects-8-reasons-for-underperformance-enerco-energypdf/266553889 solarprojects-8reasonsforunder-performanceenercoenergy-240229071309-1cad4dcc
Solar energy projects may underperform for various reasons, and identifying these factors is crucial for optimizing the efficiency and output of solar installations. Majority of the installations in India are i.e. more than 70% of the projects studied by us are underperforming i.e. the PR is below 75% or generation has fallen below 1300 kWh/kWp/year. There are various reasons for the same viz., Incorrect System Design, Faulty or degraded solar panels, Inverter issues, Shading and obstructions, Inadequate maintenance or lack of O&M best-practices etc. However these issues could be avoided with adequate pre-project due diligence and onboarding a domain expert such as ENERCO Energy from concept to commissioning of the solar project.]]>
Solar energy projects may underperform for various reasons, and identifying these factors is crucial for optimizing the efficiency and output of solar installations. Majority of the installations in India are i.e. more than 70% of the projects studied by us are underperforming i.e. the PR is below 75% or generation has fallen below 1300 kWh/kWp/year. There are various reasons for the same viz., Incorrect System Design, Faulty or degraded solar panels, Inverter issues, Shading and obstructions, Inadequate maintenance or lack of O&M best-practices etc. However these issues could be avoided with adequate pre-project due diligence and onboarding a domain expert such as ENERCO Energy from concept to commissioning of the solar project.]]> Thu, 29 Feb 2024 07:13:09 GMT /slideshow/solar-energy-projects-8-reasons-for-underperformance-enerco-energypdf/266553889 maverickRRV@slideshare.net(maverickRRV) Solar Energy Projects - 8 reasons for under-performance (ENERCO Energy).pdf maverickRRV Solar energy projects may underperform for various reasons, and identifying these factors is crucial for optimizing the efficiency and output of solar installations. Majority of the installations in India are i.e. more than 70% of the projects studied by us are underperforming i.e. the PR is below 75% or generation has fallen below 1300 kWh/kWp/year. There are various reasons for the same viz., Incorrect System Design, Faulty or degraded solar panels, Inverter issues, Shading and obstructions, Inadequate maintenance or lack of O&M best-practices etc. However these issues could be avoided with adequate pre-project due diligence and onboarding a domain expert such as ENERCO Energy from concept to commissioning of the solar project. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/solarprojects-8reasonsforunder-performanceenercoenergy-240229071309-1cad4dcc-thumbnail.jpg?width=120&height=120&fit=bounds" /> Solar energy projects may underperform for various reasons, and identifying these factors is crucial for optimizing the efficiency and output of solar installations. Majority of the installations in India are i.e. more than 70% of the projects studied by us are underperforming i.e. the PR is below 75% or generation has fallen below 1300 kWh/kWp/year. There are various reasons for the same viz., Incorrect System Design, Faulty or degraded solar panels, Inverter issues, Shading and obstructions, Inadequate maintenance or lack of O&M best-practices etc. However these issues could be avoided with adequate pre-project due diligence and onboarding a domain expert such as ENERCO Energy from concept to commissioning of the solar project.

Solar Energy Projects - 8 reasons for under-performance (ENERCO Energy).pdf from Enerco Energy Solutions LLP

]]> 23 0 https://cdn.slidesharecdn.com/ss_thumbnails/solarprojects-8reasonsforunder-performanceenercoenergy-240229071309-1cad4dcc-thumbnail.jpg?width=120&height=120&fit=bounds document Black http://activitystrea.ms/schema/1.0/post

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0 Solar energy project (reduce cost by 9%) /slideshow/solar-energy-project-reduce-cost-by-9/250941848 solarenergyproject-costreductionenerco-220104130905
Solar energy projects costs are falling and can be further reduced by 9%. Enerco involvement in your project ensures least cost project without impacting quality. Whether it is procurement, services, project management and EPC contract framing., cost-saving can be achieved in all aspects of a PV Solar power project.]]>
Solar energy projects costs are falling and can be further reduced by 9%. Enerco involvement in your project ensures least cost project without impacting quality. Whether it is procurement, services, project management and EPC contract framing., cost-saving can be achieved in all aspects of a PV Solar power project.]]> Tue, 04 Jan 2022 13:09:05 GMT /slideshow/solar-energy-project-reduce-cost-by-9/250941848 maverickRRV@slideshare.net(maverickRRV) Solar energy project (reduce cost by 9%) maverickRRV Solar energy projects costs are falling and can be further reduced by 9%. Enerco involvement in your project ensures least cost project without impacting quality. Whether it is procurement, services, project management and EPC contract framing., cost-saving can be achieved in all aspects of a PV Solar power project. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/solarenergyproject-costreductionenerco-220104130905-thumbnail.jpg?width=120&height=120&fit=bounds" /> Solar energy projects costs are falling and can be further reduced by 9%. Enerco involvement in your project ensures least cost project without impacting quality. Whether it is procurement, services, project management and EPC contract framing., cost-saving can be achieved in all aspects of a PV Solar power project.

Solar energy project (reduce cost by 9%) from Enerco Energy Solutions LLP

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0 Solar Energy (PV) - Top 5 things to know ! /slideshow/solar-energy-pv-top-5-things-to-know/250052402 solartop5enerco-210826052259
Solar Energy (Photo Voltaic) is gaining momentum in India with falling cost of Solar power project, increased awareness and push from the Government. There are a few things that a project stakeholder should know before going for a Solar PV Power project. Knowing these basic things will help in ensuring a high quality and durable project with optimum performance (output / kWh / power generation). This slide pack will help one in understanding the nitty-gritties of the Solar project. ]]>
Solar Energy (Photo Voltaic) is gaining momentum in India with falling cost of Solar power project, increased awareness and push from the Government. There are a few things that a project stakeholder should know before going for a Solar PV Power project. Knowing these basic things will help in ensuring a high quality and durable project with optimum performance (output / kWh / power generation). This slide pack will help one in understanding the nitty-gritties of the Solar project. ]]> Thu, 26 Aug 2021 05:22:59 GMT /slideshow/solar-energy-pv-top-5-things-to-know/250052402 maverickRRV@slideshare.net(maverickRRV) Solar Energy (PV) - Top 5 things to know ! maverickRRV Solar Energy (Photo Voltaic) is gaining momentum in India with falling cost of Solar power project, increased awareness and push from the Government. There are a few things that a project stakeholder should know before going for a Solar PV Power project. Knowing these basic things will help in ensuring a high quality and durable project with optimum performance (output / kWh / power generation). This slide pack will help one in understanding the nitty-gritties of the Solar project. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/solartop5enerco-210826052259-thumbnail.jpg?width=120&height=120&fit=bounds" /> Solar Energy (Photo Voltaic) is gaining momentum in India with falling cost of Solar power project, increased awareness and push from the Government. There are a few things that a project stakeholder should know before going for a Solar PV Power project. Knowing these basic things will help in ensuring a high quality and durable project with optimum performance (output / kWh / power generation). This slide pack will help one in understanding the nitty-gritties of the Solar project.

Solar Energy (PV) - Top 5 things to know ! from Enerco Energy Solutions LLP

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0 Industry 4.0 IIoT Webinar PPT PDF (ENERCO Energy Solutions LLP) /slideshow/industry-40-iiot-webinar-ppt-pdf-enerco-energy-solutions-llp/236810230 industry4-200711121914
Industry 4.0, the 4th Industrial revolution, is redefining manufacturing in 2020. Smart Factory, Smart Manufacturing, Digital Manufacturing, Artificial Intelligence, Big Data etc. are commonly herd terms nowadays. But what exactly do they mean? What is Industry 4.0? What were Industry 1.0, 2.0 and 3.0? How does Industry 4.0 positively impact the way a Factory manufactures? What are the benefits of Industry 4.0? How can a factory become a Smart Factory? How to get started with Industry 4.0 journey? How to achieve manufacturing excellence using Industry 4.0 route? What is Digital Manufacturing and Smart Manufacturing? These and some of these questions are answered in this updated (July 2020) Industry 4.0 IIoT Webinar Presentation (PPT, PDF).]]>
Industry 4.0, the 4th Industrial revolution, is redefining manufacturing in 2020. Smart Factory, Smart Manufacturing, Digital Manufacturing, Artificial Intelligence, Big Data etc. are commonly herd terms nowadays. But what exactly do they mean? What is Industry 4.0? What were Industry 1.0, 2.0 and 3.0? How does Industry 4.0 positively impact the way a Factory manufactures? What are the benefits of Industry 4.0? How can a factory become a Smart Factory? How to get started with Industry 4.0 journey? How to achieve manufacturing excellence using Industry 4.0 route? What is Digital Manufacturing and Smart Manufacturing? These and some of these questions are answered in this updated (July 2020) Industry 4.0 IIoT Webinar Presentation (PPT, PDF).]]> Sat, 11 Jul 2020 12:19:14 GMT /slideshow/industry-40-iiot-webinar-ppt-pdf-enerco-energy-solutions-llp/236810230 maverickRRV@slideshare.net(maverickRRV) Industry 4.0 IIoT Webinar PPT PDF (ENERCO Energy Solutions LLP) maverickRRV Industry 4.0, the 4th Industrial revolution, is redefining manufacturing in 2020. Smart Factory, Smart Manufacturing, Digital Manufacturing, Artificial Intelligence, Big Data etc. are commonly herd terms nowadays. But what exactly do they mean? What is Industry 4.0? What were Industry 1.0, 2.0 and 3.0? How does Industry 4.0 positively impact the way a Factory manufactures? What are the benefits of Industry 4.0? How can a factory become a Smart Factory? How to get started with Industry 4.0 journey? How to achieve manufacturing excellence using Industry 4.0 route? What is Digital Manufacturing and Smart Manufacturing? These and some of these questions are answered in this updated (July 2020) Industry 4.0 IIoT Webinar Presentation (PPT, PDF). <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/industry4-200711121914-thumbnail.jpg?width=120&height=120&fit=bounds" /> Industry 4.0, the 4th Industrial revolution, is redefining manufacturing in 2020. Smart Factory, Smart Manufacturing, Digital Manufacturing, Artificial Intelligence, Big Data etc. are commonly herd terms nowadays. But what exactly do they mean? What is Industry 4.0? What were Industry 1.0, 2.0 and 3.0? How does Industry 4.0 positively impact the way a Factory manufactures? What are the benefits of Industry 4.0? How can a factory become a Smart Factory? How to get started with Industry 4.0 journey? How to achieve manufacturing excellence using Industry 4.0 route? What is Digital Manufacturing and Smart Manufacturing? These and some of these questions are answered in this updated (July 2020) Industry 4.0 IIoT Webinar Presentation (PPT, PDF).

Industry 4.0 IIoT Webinar PPT PDF (ENERCO Energy Solutions LLP) from Enerco Energy Solutions LLP

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0 Industry 4.0 IIoT Audit - What, How, When & Where ? /slideshow/industry-40-iiot-audit-what-how-when-where/235641748 industry4-200615161437
Industry 4.0 IIoT adopts a top-down approach going from business use-cases and fragmented into simpler technical use-cases. This approach ensures that IIoT has a direct impact on business goals by adoption of Industry 4.0. We at ENERCO adopt an iterative or agile approach which is the most popular software development models. The difference here is that the agile methodology is applied to the entire project as a system. The IIoT audit consists of understanding the existing business, manufacturing plant setup, technical processes, business processes, equipment set up etc. In addition to understanding the present setup the IIoT audit also consists of detailed discussions with the plant team from various divisions including business, maintenance and production. Upon understanding a firm’s business goals it is transformed into a simple system architecture in this stage. This basic architecture consists of an outline of the proposed IIoT solution based upon the existing setup as well as expectations from the proposed solution. In a nutshell, IIoT Audit forms the stepping stone on the larger goal and strategic objective of attaining Industry 4.0 for a Manufacturing Company.]]>
Industry 4.0 IIoT adopts a top-down approach going from business use-cases and fragmented into simpler technical use-cases. This approach ensures that IIoT has a direct impact on business goals by adoption of Industry 4.0. We at ENERCO adopt an iterative or agile approach which is the most popular software development models. The difference here is that the agile methodology is applied to the entire project as a system. The IIoT audit consists of understanding the existing business, manufacturing plant setup, technical processes, business processes, equipment set up etc. In addition to understanding the present setup the IIoT audit also consists of detailed discussions with the plant team from various divisions including business, maintenance and production. Upon understanding a firm’s business goals it is transformed into a simple system architecture in this stage. This basic architecture consists of an outline of the proposed IIoT solution based upon the existing setup as well as expectations from the proposed solution. In a nutshell, IIoT Audit forms the stepping stone on the larger goal and strategic objective of attaining Industry 4.0 for a Manufacturing Company.]]> Mon, 15 Jun 2020 16:14:37 GMT /slideshow/industry-40-iiot-audit-what-how-when-where/235641748 maverickRRV@slideshare.net(maverickRRV) Industry 4.0 IIoT Audit - What, How, When & Where ? maverickRRV Industry 4.0 IIoT adopts a top-down approach going from business use-cases and fragmented into simpler technical use-cases. This approach ensures that IIoT has a direct impact on business goals by adoption of Industry 4.0. We at ENERCO adopt an iterative or agile approach which is the most popular software development models. The difference here is that the agile methodology is applied to the entire project as a system. The IIoT audit consists of understanding the existing business, manufacturing plant setup, technical processes, business processes, equipment set up etc. In addition to understanding the present setup the IIoT audit also consists of detailed discussions with the plant team from various divisions including business, maintenance and production. Upon understanding a firm’s business goals it is transformed into a simple system architecture in this stage. This basic architecture consists of an outline of the proposed IIoT solution based upon the existing setup as well as expectations from the proposed solution. In a nutshell, IIoT Audit forms the stepping stone on the larger goal and strategic objective of attaining Industry 4.0 for a Manufacturing Company. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/industry4-200615161437-thumbnail.jpg?width=120&height=120&fit=bounds" /> Industry 4.0 IIoT adopts a top-down approach going from business use-cases and fragmented into simpler technical use-cases. This approach ensures that IIoT has a direct impact on business goals by adoption of Industry 4.0. We at ENERCO adopt an iterative or agile approach which is the most popular software development models. The difference here is that the agile methodology is applied to the entire project as a system. The IIoT audit consists of understanding the existing business, manufacturing plant setup, technical processes, business processes, equipment set up etc. In addition to understanding the present setup the IIoT audit also consists of detailed discussions with the plant team from various divisions including business, maintenance and production. Upon understanding a firm’s business goals it is transformed into a simple system architecture in this stage. This basic architecture consists of an outline of the proposed IIoT solution based upon the existing setup as well as expectations from the proposed solution. In a nutshell, IIoT Audit forms the stepping stone on the larger goal and strategic objective of attaining Industry 4.0 for a Manufacturing Company.

Industry 4.0 IIoT Audit - What, How, When & Where ? from Enerco Energy Solutions LLP

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0 Industry 4.0 IIoT vs SCADA /slideshow/industry-40-iiot-vs-scada/234540431 iiotvsscada-200525065435
Industry 4.0 (IIoT) is changing the face of manufacturing like never before. Global situation of tariff war and re-shoring are catalysts driving this change in addition to technology adaption. Check out this Comparative Analysis between Industry 4.0 (IIoT) and SCADA systems to understand the basic differences between the two. ]]>
Industry 4.0 (IIoT) is changing the face of manufacturing like never before. Global situation of tariff war and re-shoring are catalysts driving this change in addition to technology adaption. Check out this Comparative Analysis between Industry 4.0 (IIoT) and SCADA systems to understand the basic differences between the two. ]]> Mon, 25 May 2020 06:54:35 GMT /slideshow/industry-40-iiot-vs-scada/234540431 maverickRRV@slideshare.net(maverickRRV) Industry 4.0 IIoT vs SCADA maverickRRV Industry 4.0 (IIoT) is changing the face of manufacturing like never before. Global situation of tariff war and re-shoring are catalysts driving this change in addition to technology adaption. Check out this Comparative Analysis between Industry 4.0 (IIoT) and SCADA systems to understand the basic differences between the two. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/iiotvsscada-200525065435-thumbnail.jpg?width=120&height=120&fit=bounds" /> Industry 4.0 (IIoT) is changing the face of manufacturing like never before. Global situation of tariff war and re-shoring are catalysts driving this change in addition to technology adaption. Check out this Comparative Analysis between Industry 4.0 (IIoT) and SCADA systems to understand the basic differences between the two.

Industry 4.0 IIoT vs SCADA from Enerco Energy Solutions LLP

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0 Industry 4.0 PPT PDF for Smart Manufacturing using IIoT (Industrial IoT i.e. Internet of Things) for a Smart Connected Factory /slideshow/industry-40-ppt-pdf-for-smart-manufacturing-using-iiot-industrial-iot-ie-internet-of-things-for-a-smart-connected-factory/192315971 industry4-191111135954
Industry 4.0 has widespread application across Industries (Manufacturing, Logistics, Mobility etc.). In case of manufacturing and processing industries Industry 4.0 means Smart Manufacturing using IIoT (Industrial Internet of Things or simply Industrial IoT) in a connected smart factory. It enables an Organization to make smart data-driven decisions based on Big Data, Artificial Intelligence and Machine Learning. Industry 4.0 IIoT has several benefits such as Resource Optimization, Cost Reduction, Automation, Predictive Maintenance and Prescriptive Analytics and Control etc.]]>
Industry 4.0 has widespread application across Industries (Manufacturing, Logistics, Mobility etc.). In case of manufacturing and processing industries Industry 4.0 means Smart Manufacturing using IIoT (Industrial Internet of Things or simply Industrial IoT) in a connected smart factory. It enables an Organization to make smart data-driven decisions based on Big Data, Artificial Intelligence and Machine Learning. Industry 4.0 IIoT has several benefits such as Resource Optimization, Cost Reduction, Automation, Predictive Maintenance and Prescriptive Analytics and Control etc.]]> Mon, 11 Nov 2019 13:59:54 GMT /slideshow/industry-40-ppt-pdf-for-smart-manufacturing-using-iiot-industrial-iot-ie-internet-of-things-for-a-smart-connected-factory/192315971 maverickRRV@slideshare.net(maverickRRV) Industry 4.0 PPT PDF for Smart Manufacturing using IIoT (Industrial IoT i.e. Internet of Things) for a Smart Connected Factory maverickRRV Industry 4.0 has widespread application across Industries (Manufacturing, Logistics, Mobility etc.). In case of manufacturing and processing industries Industry 4.0 means Smart Manufacturing using IIoT (Industrial Internet of Things or simply Industrial IoT) in a connected smart factory. It enables an Organization to make smart data-driven decisions based on Big Data, Artificial Intelligence and Machine Learning. Industry 4.0 IIoT has several benefits such as Resource Optimization, Cost Reduction, Automation, Predictive Maintenance and Prescriptive Analytics and Control etc. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/industry4-191111135954-thumbnail.jpg?width=120&height=120&fit=bounds" /> Industry 4.0 has widespread application across Industries (Manufacturing, Logistics, Mobility etc.). In case of manufacturing and processing industries Industry 4.0 means Smart Manufacturing using IIoT (Industrial Internet of Things or simply Industrial IoT) in a connected smart factory. It enables an Organization to make smart data-driven decisions based on Big Data, Artificial Intelligence and Machine Learning. Industry 4.0 IIoT has several benefits such as Resource Optimization, Cost Reduction, Automation, Predictive Maintenance and Prescriptive Analytics and Control etc.

Industry 4.0 PPT PDF for Smart Manufacturing using IIoT (Industrial IoT i.e. Internet of Things) for a Smart Connected Factory from Enerco Energy Solutions LLP

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0 Solar Energy Presentation - OPEX / RESCO / BOOT with 100% Funding /slideshow/solar-energy-presentation-boot-resco-with-100-funding/45649377 solarenergy-bootrescopresentation-150310051557-conversion-gate01
Solar Energy is making great inroads in India and it is expected to become one of the leading sources of power in the coming times. This is mainly attributed to the ease of installation and operation of Photo Voltaic technology. Enerco Energy Solutions LLP has recently launched RESCO (Renewable Energy Service Contract) also known as BOOT (Build-Own-Operate-Transfer) or OPEX financial model in India for Solar Energy power projects. Enerco Energy Solutions LLP undertakes the 100% financing and execution of Solar Energy power projects on a turnkey basis +O&M of the project. The business model also known as RESCO (Renewable Energy Service Company) or OPEX model is about investing in Solar Energy projects at a Client side with the entire investment by the executing Company i.e. Enerco Energy Solutions LLP. A Power Purchase Agreement (PPA) is signed with the consumer and the Solar tariff is generally at a price lower than grid tariff. Benefits of this model : 1. The consumer (typically Industrial / Commercial) does not have to invest any amount in the project - the project is 100% funded by the execution company. 2. The consumer starts saving on cost from first day of operations as the Solar tariff is lesser than grid tariff (and certainly much lesser than cost of power from D.G. set). 3. The O&M and upkeep of the project is the responsibility of the execution company. 4. The project is installed at consuming company's site - thereby projecting it's image as an energy and environment conscious company. 5. The project is transferred free of cost or at a nominal cost to the consumer - subject to the agreement terms.]]>
Solar Energy is making great inroads in India and it is expected to become one of the leading sources of power in the coming times. This is mainly attributed to the ease of installation and operation of Photo Voltaic technology. Enerco Energy Solutions LLP has recently launched RESCO (Renewable Energy Service Contract) also known as BOOT (Build-Own-Operate-Transfer) or OPEX financial model in India for Solar Energy power projects. Enerco Energy Solutions LLP undertakes the 100% financing and execution of Solar Energy power projects on a turnkey basis +O&M of the project. The business model also known as RESCO (Renewable Energy Service Company) or OPEX model is about investing in Solar Energy projects at a Client side with the entire investment by the executing Company i.e. Enerco Energy Solutions LLP. A Power Purchase Agreement (PPA) is signed with the consumer and the Solar tariff is generally at a price lower than grid tariff. Benefits of this model : 1. The consumer (typically Industrial / Commercial) does not have to invest any amount in the project - the project is 100% funded by the execution company. 2. The consumer starts saving on cost from first day of operations as the Solar tariff is lesser than grid tariff (and certainly much lesser than cost of power from D.G. set). 3. The O&M and upkeep of the project is the responsibility of the execution company. 4. The project is installed at consuming company's site - thereby projecting it's image as an energy and environment conscious company. 5. The project is transferred free of cost or at a nominal cost to the consumer - subject to the agreement terms.]]> Tue, 10 Mar 2015 05:15:57 GMT /slideshow/solar-energy-presentation-boot-resco-with-100-funding/45649377 maverickRRV@slideshare.net(maverickRRV) Solar Energy Presentation - OPEX / RESCO / BOOT with 100% Funding maverickRRV Solar Energy is making great inroads in India and it is expected to become one of the leading sources of power in the coming times. This is mainly attributed to the ease of installation and operation of Photo Voltaic technology. Enerco Energy Solutions LLP has recently launched RESCO (Renewable Energy Service Contract) also known as BOOT (Build-Own-Operate-Transfer) or OPEX financial model in India for Solar Energy power projects. Enerco Energy Solutions LLP undertakes the 100% financing and execution of Solar Energy power projects on a turnkey basis +O&M of the project. The business model also known as RESCO (Renewable Energy Service Company) or OPEX model is about investing in Solar Energy projects at a Client side with the entire investment by the executing Company i.e. Enerco Energy Solutions LLP. A Power Purchase Agreement (PPA) is signed with the consumer and the Solar tariff is generally at a price lower than grid tariff. Benefits of this model : 1. The consumer (typically Industrial / Commercial) does not have to invest any amount in the project - the project is 100% funded by the execution company. 2. The consumer starts saving on cost from first day of operations as the Solar tariff is lesser than grid tariff (and certainly much lesser than cost of power from D.G. set). 3. The O&M and upkeep of the project is the responsibility of the execution company. 4. The project is installed at consuming company's site - thereby projecting it's image as an energy and environment conscious company. 5. The project is transferred free of cost or at a nominal cost to the consumer - subject to the agreement terms. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/solarenergy-bootrescopresentation-150310051557-conversion-gate01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Solar Energy is making great inroads in India and it is expected to become one of the leading sources of power in the coming times. This is mainly attributed to the ease of installation and operation of Photo Voltaic technology. Enerco Energy Solutions LLP has recently launched RESCO (Renewable Energy Service Contract) also known as BOOT (Build-Own-Operate-Transfer) or OPEX financial model in India for Solar Energy power projects. Enerco Energy Solutions LLP undertakes the 100% financing and execution of Solar Energy power projects on a turnkey basis +O&M of the project. The business model also known as RESCO (Renewable Energy Service Company) or OPEX model is about investing in Solar Energy projects at a Client side with the entire investment by the executing Company i.e. Enerco Energy Solutions LLP. A Power Purchase Agreement (PPA) is signed with the consumer and the Solar tariff is generally at a price lower than grid tariff. Benefits of this model : 1. The consumer (typically Industrial / Commercial) does not have to invest any amount in the project - the project is 100% funded by the execution company. 2. The consumer starts saving on cost from first day of operations as the Solar tariff is lesser than grid tariff (and certainly much lesser than cost of power from D.G. set). 3. The O&M and upkeep of the project is the responsibility of the execution company. 4. The project is installed at consuming company's site - thereby projecting it's image as an energy and environment conscious company. 5. The project is transferred free of cost or at a nominal cost to the consumer - subject to the agreement terms.

Solar Energy Presentation - OPEX / RESCO / BOOT with 100% Funding from Enerco Energy Solutions LLP

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0 Solar Energy - Why Invest in Solar? /slideshow/solar-energy-why-invest-in-solar/33315612 solarenergy-whyinvestinsolar-140409061049-phpapp02
Solar Energy is gaining immense popularity especially in a Solar-rich and power-deficit Country like India. This presentation is primarily about why a business owner, plant owner or an investor should invest in Solar Energy to gain various benefits including incentives, tax benefits, 80% Accelerated depreciation etc.]]>
Solar Energy is gaining immense popularity especially in a Solar-rich and power-deficit Country like India. This presentation is primarily about why a business owner, plant owner or an investor should invest in Solar Energy to gain various benefits including incentives, tax benefits, 80% Accelerated depreciation etc.]]> Wed, 09 Apr 2014 06:10:49 GMT /slideshow/solar-energy-why-invest-in-solar/33315612 maverickRRV@slideshare.net(maverickRRV) Solar Energy - Why Invest in Solar? maverickRRV Solar Energy is gaining immense popularity especially in a Solar-rich and power-deficit Country like India. This presentation is primarily about why a business owner, plant owner or an investor should invest in Solar Energy to gain various benefits including incentives, tax benefits, 80% Accelerated depreciation etc. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/solarenergy-whyinvestinsolar-140409061049-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> Solar Energy is gaining immense popularity especially in a Solar-rich and power-deficit Country like India. This presentation is primarily about why a business owner, plant owner or an investor should invest in Solar Energy to gain various benefits including incentives, tax benefits, 80% Accelerated depreciation etc.

Solar Energy - Why Invest in Solar? from Enerco Energy Solutions LLP

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0 Electrical Energy Conservation through Power Quality Improvement /slideshow/electrical-conservation-through-power-quality-improvement/12217454 electricalindiaarticle-120330002750-phpapp01
Energy Conservation especially Electrical Energy Conservation is gathering huge interest which is no surprise for a power deficit Country like India. More so in the present scenario wherein the power supply is intermittent in many areas and power prices are increasing exponentially. Energy Conservation should not be looked at in isolation but in totality. For instance Power Quality which is the quality of electrical power in the plant or facility is an important aspect in Energy Conservation. If the power quality is not upto the mark then it can hamper Energy Conservation efforts. Power Quality mainly refers to various important parameters including Harmonics, Voltage Fluctuations, Sags, Swells etc. Of these Harmonics is one of the most serious issues and definitely results in Energy wastage.]]>
Energy Conservation especially Electrical Energy Conservation is gathering huge interest which is no surprise for a power deficit Country like India. More so in the present scenario wherein the power supply is intermittent in many areas and power prices are increasing exponentially. Energy Conservation should not be looked at in isolation but in totality. For instance Power Quality which is the quality of electrical power in the plant or facility is an important aspect in Energy Conservation. If the power quality is not upto the mark then it can hamper Energy Conservation efforts. Power Quality mainly refers to various important parameters including Harmonics, Voltage Fluctuations, Sags, Swells etc. Of these Harmonics is one of the most serious issues and definitely results in Energy wastage.]]> Fri, 30 Mar 2012 00:27:49 GMT /slideshow/electrical-conservation-through-power-quality-improvement/12217454 maverickRRV@slideshare.net(maverickRRV) Electrical Energy Conservation through Power Quality Improvement maverickRRV Energy Conservation especially Electrical Energy Conservation is gathering huge interest which is no surprise for a power deficit Country like India. More so in the present scenario wherein the power supply is intermittent in many areas and power prices are increasing exponentially. Energy Conservation should not be looked at in isolation but in totality. For instance Power Quality which is the quality of electrical power in the plant or facility is an important aspect in Energy Conservation. If the power quality is not upto the mark then it can hamper Energy Conservation efforts. Power Quality mainly refers to various important parameters including Harmonics, Voltage Fluctuations, Sags, Swells etc. Of these Harmonics is one of the most serious issues and definitely results in Energy wastage. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/electricalindiaarticle-120330002750-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Energy Conservation especially Electrical Energy Conservation is gathering huge interest which is no surprise for a power deficit Country like India. More so in the present scenario wherein the power supply is intermittent in many areas and power prices are increasing exponentially. Energy Conservation should not be looked at in isolation but in totality. For instance Power Quality which is the quality of electrical power in the plant or facility is an important aspect in Energy Conservation. If the power quality is not upto the mark then it can hamper Energy Conservation efforts. Power Quality mainly refers to various important parameters including Harmonics, Voltage Fluctuations, Sags, Swells etc. Of these Harmonics is one of the most serious issues and definitely results in Energy wastage.

Electrical Energy Conservation through Power Quality Improvement from Enerco Energy Solutions LLP

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0 Energy Audit / Energy Conservation PPT and PDF /slideshow/energy-audit-for-energy-conservation-and-energy-efficiency/12217310 energyauditwhathowwhere-120330000941-phpapp01
Energy Audit is a thorough exercise carried out for Energy Conservation and Energy Efficiency of Industrial Plants for optimized use of Energy. This is not only important for saving significant production costs but also a environmentally friendly. Energy Conservation and Energy Efficiency are most interchangeably used. However Energy Conservation and Energy Efficiency although related terms are quite different. Energy Conservation is about saving energy in the existing system or setup by plugging wastage. Whereas Energy Efficiency is about minor improvements in existing system or replacement of existing equipment within the system by more energy efficient equipment or retrofits which can deliver same output with lesser energy input. Energy Audit is a highly recommended exercise for manufacturing units as it enables them to gain competitive advantage by cutting down on production costs. Consequently it is also a step in the direction of going green.]]>
Energy Audit is a thorough exercise carried out for Energy Conservation and Energy Efficiency of Industrial Plants for optimized use of Energy. This is not only important for saving significant production costs but also a environmentally friendly. Energy Conservation and Energy Efficiency are most interchangeably used. However Energy Conservation and Energy Efficiency although related terms are quite different. Energy Conservation is about saving energy in the existing system or setup by plugging wastage. Whereas Energy Efficiency is about minor improvements in existing system or replacement of existing equipment within the system by more energy efficient equipment or retrofits which can deliver same output with lesser energy input. Energy Audit is a highly recommended exercise for manufacturing units as it enables them to gain competitive advantage by cutting down on production costs. Consequently it is also a step in the direction of going green.]]> Fri, 30 Mar 2012 00:09:39 GMT /slideshow/energy-audit-for-energy-conservation-and-energy-efficiency/12217310 maverickRRV@slideshare.net(maverickRRV) Energy Audit / Energy Conservation PPT and PDF maverickRRV Energy Audit is a thorough exercise carried out for Energy Conservation and Energy Efficiency of Industrial Plants for optimized use of Energy. This is not only important for saving significant production costs but also a environmentally friendly. Energy Conservation and Energy Efficiency are most interchangeably used. However Energy Conservation and Energy Efficiency although related terms are quite different. Energy Conservation is about saving energy in the existing system or setup by plugging wastage. Whereas Energy Efficiency is about minor improvements in existing system or replacement of existing equipment within the system by more energy efficient equipment or retrofits which can deliver same output with lesser energy input. Energy Audit is a highly recommended exercise for manufacturing units as it enables them to gain competitive advantage by cutting down on production costs. Consequently it is also a step in the direction of going green. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/energyauditwhathowwhere-120330000941-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Energy Audit is a thorough exercise carried out for Energy Conservation and Energy Efficiency of Industrial Plants for optimized use of Energy. This is not only important for saving significant production costs but also a environmentally friendly. Energy Conservation and Energy Efficiency are most interchangeably used. However Energy Conservation and Energy Efficiency although related terms are quite different. Energy Conservation is about saving energy in the existing system or setup by plugging wastage. Whereas Energy Efficiency is about minor improvements in existing system or replacement of existing equipment within the system by more energy efficient equipment or retrofits which can deliver same output with lesser energy input. Energy Audit is a highly recommended exercise for manufacturing units as it enables them to gain competitive advantage by cutting down on production costs. Consequently it is also a step in the direction of going green.

Energy Audit / Energy Conservation PPT and PDF from Enerco Energy Solutions LLP

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0 https://cdn.slidesharecdn.com/profile-photo-maverickRRV-48x48.jpg?cb=1709190760 Enerco Energy Solutions LLP assists Companies to achieve Manufacturing excellence by adoption of Industry 4.0 best-practices and by sustainability measures involving resource optimization and green energy (Solar Energy). Our vision is to be the partner of choice for improving Industrial and Solar plant efficiency as well as ensuring safer and reliable operations through waste reduction, energy efficiency, solar power generation and optimizing operational practices by use of the most contemporary and technically advanced solutions. www.econserve.in https://cdn.slidesharecdn.com/ss_thumbnails/sustainablemanufacturingenercoenergy-240715052419-38b5490d-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/sustainable-manufacturing-enerco-energy/270246135 Sustainable Manufactur... https://cdn.slidesharecdn.com/ss_thumbnails/solarvswind-solarhybridenerco-240626054955-b9cbb019-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/solar-energy-vs-wind-solar-hybrid-energy-enerco-energy-which-is-the-right-one-for-you/269893881 Solar Energy vs Wind-S... https://cdn.slidesharecdn.com/ss_thumbnails/greenh2hypeenercoenergy-240501035242-466f1979-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/green-h2-enerco-energy-why-the-hype/267684128 Green H2 (ENERCO Energ...