Cogeneration and On-Site Utility (PPA): Definition and BenefitsBobby Green
What is Cogeneration and why should you invest in it? In this presentation, GREENCROWN Energy defines Cogeneration and discusses its many benefits for your organization. How can this help your company? Read on for more information.
Additionally, this presentation contains information on Power Purchase Agreement (PPA)/On-Site Utility.
Cogeneration, or combined heat and power (CHP), involves generating electricity and useful thermal energy from a single fuel source. This is more efficient than separate generation of power and heat, with overall efficiencies potentially over 75%. Cogeneration can reduce fuel costs by 40-50% and lower carbon dioxide emissions. It provides reliable, lower cost power for industrial processes and other applications like district heating. Widespread adoption of cogeneration could cut India's fuel use and greenhouse gas emissions significantly.
SolarCool provides innovative solar thermal solutions for commercial businesses to reduce energy consumption and costs. Their solutions include retrofitting solar panels and collection units to existing refrigeration, HVAC, and chiller systems to boost their efficiency. Case studies report efficiency increases of over 50% according to clients like Cable & Wireless, with one system achieving 63% efficiency. SolarCool also offers funding programs to cover the costs of their green technology solutions.
CHP / Cogeneration As An Alternative Energy ResourceJohn Thornton
Combined heat and power (CHP), also known as cogeneration, is the concurrent production of electricity and useful thermal energy from a single energy source. It provides higher efficiency than separate generation by capturing heat that would otherwise be wasted. CHP can reduce energy costs for facilities that have thermal loads throughout the year, such as hospitals, universities, and manufacturing plants. Analysis shows the technical potential for CHP in the Pacific Northwest is over 15 gigawatts, which could save money while lowering emissions. CHP may be a good option for facilities interested in reducing energy use and environmental impacts.
This document provides an overview of cogeneration technology. It discusses the basic principles of cogeneration, which involves generating both electricity and heat from a single fuel source. It describes the main types of cogeneration systems, including those using gas turbines, steam turbines, reciprocating engines, and combined cycles. Key components like generators, heat recovery boilers, and transmission systems are also outlined. The document concludes with industrial case studies and discussions of equipment, operations, performance analysis, and control/monitoring at Ugar Sugar Works Ltd.
Abengoa Solar, power for a sustainable worldAbengoa
Abengoa leads the solar thermal industry with solar thermal electric power tower and parabolic trough technology, thermal energy storage systems, hybrid solar plants, conventional and high concentration photovoltaic installations. Discover Abengoa Solar.
Combined Heat and Power (CHP) generation. The use of industrial power and heat, resulting into high efficiency of the industrial unit and high profits. Reliability on energy provider is reduced.
This document discusses cogeneration/combined heat and power (CHP) systems. It defines CHP as the integrated production of usable heat and power from a single system. The key benefits of CHP systems are outlined as increased efficiency, environmental benefits from reduced emissions, and economic benefits from lower energy costs. The document describes common CHP configurations including combustion turbines/reciprocating engines with heat recovery and steam boilers with steam turbines. It also discusses assessing CHP system performance and provides examples of applications for CHP technology.
Cogeneration and On-Site Utility (PPA): Definition and BenefitsBobby Green
What is Cogeneration and why should you invest in it? In this presentation, GREENCROWN Energy defines Cogeneration and discusses its many benefits for your organization. How can this help your company? Read on for more information.
Additionally, this presentation contains information on Power Purchase Agreement (PPA)/On-Site Utility.
Cogeneration, or combined heat and power (CHP), involves generating electricity and useful thermal energy from a single fuel source. This is more efficient than separate generation of power and heat, with overall efficiencies potentially over 75%. Cogeneration can reduce fuel costs by 40-50% and lower carbon dioxide emissions. It provides reliable, lower cost power for industrial processes and other applications like district heating. Widespread adoption of cogeneration could cut India's fuel use and greenhouse gas emissions significantly.
SolarCool provides innovative solar thermal solutions for commercial businesses to reduce energy consumption and costs. Their solutions include retrofitting solar panels and collection units to existing refrigeration, HVAC, and chiller systems to boost their efficiency. Case studies report efficiency increases of over 50% according to clients like Cable & Wireless, with one system achieving 63% efficiency. SolarCool also offers funding programs to cover the costs of their green technology solutions.
CHP / Cogeneration As An Alternative Energy ResourceJohn Thornton
Combined heat and power (CHP), also known as cogeneration, is the concurrent production of electricity and useful thermal energy from a single energy source. It provides higher efficiency than separate generation by capturing heat that would otherwise be wasted. CHP can reduce energy costs for facilities that have thermal loads throughout the year, such as hospitals, universities, and manufacturing plants. Analysis shows the technical potential for CHP in the Pacific Northwest is over 15 gigawatts, which could save money while lowering emissions. CHP may be a good option for facilities interested in reducing energy use and environmental impacts.
This document provides an overview of cogeneration technology. It discusses the basic principles of cogeneration, which involves generating both electricity and heat from a single fuel source. It describes the main types of cogeneration systems, including those using gas turbines, steam turbines, reciprocating engines, and combined cycles. Key components like generators, heat recovery boilers, and transmission systems are also outlined. The document concludes with industrial case studies and discussions of equipment, operations, performance analysis, and control/monitoring at Ugar Sugar Works Ltd.
Abengoa Solar, power for a sustainable worldAbengoa
Abengoa leads the solar thermal industry with solar thermal electric power tower and parabolic trough technology, thermal energy storage systems, hybrid solar plants, conventional and high concentration photovoltaic installations. Discover Abengoa Solar.
Combined Heat and Power (CHP) generation. The use of industrial power and heat, resulting into high efficiency of the industrial unit and high profits. Reliability on energy provider is reduced.
This document discusses cogeneration/combined heat and power (CHP) systems. It defines CHP as the integrated production of usable heat and power from a single system. The key benefits of CHP systems are outlined as increased efficiency, environmental benefits from reduced emissions, and economic benefits from lower energy costs. The document describes common CHP configurations including combustion turbines/reciprocating engines with heat recovery and steam boilers with steam turbines. It also discusses assessing CHP system performance and provides examples of applications for CHP technology.
This document discusses Combined Heat and Power (CHP) production and its advantages. It notes that CHP is an efficient use of resources that can produce both electricity and heat from one fuel source. CHP has significant global potential for growth, as it can utilize various renewable and waste fuels flexibly at both large and small scales. The document also discusses Fortum's strategy and vision, with CHP playing a key role. Fortum has many existing CHP plants and is constructing a new one in Klaipėda, Lithuania to provide heat and electricity using local biofuels and waste in a sustainable manner.
Süka is a German company that is the industry leader in solar photovoltaic (PV) heating and electric heating systems. Their solar PV and heater products provide green, renewable energy that reduces CO2 emissions and electricity bills while their heaters offer versatility, efficiency, and a 15-year guarantee. Choosing Süka's products allows businesses and homeowners to benefit from cost savings, reliability, and helping the environment.
This document summarizes a 64.25 kWp solar PV system installed at Sykes Timber in Atherstone, Warwickshire by GYO Energy. The system consists of 257 solar panels mounted on 3 buildings and is predicted to generate 54,500 kWh annually. It provides Sykes Timber with an excellent 14.8% return on investment while offsetting 38 tons of CO2 emissions per year.
Cogeneration involves the sequential conversion of fuel into multiple usable energy forms. It can produce both electrical and thermal energy, unlike conventional systems. There are two types of cogeneration systems - inplant power generation and reject heat utilization. Inplant power generation produces steam at a higher temperature than needed for manufacturing to also generate electricity using a turbine generator. Reject heat utilization uses excess steam from a power plant for manufacturing. Topping cycles produce electricity first while bottoming cycles produce heat first. Cogeneration provides benefits like fuel economy, lower capital costs, and protection from power outages. Common technologies are steam turbine, gas turbine, combined cycle, and diesel engine systems.
Many thanks to ESC for the invitation to speak at TMAF last week. I am happy to share the presentation Enviro Power we provided at this great event.
The Enviro Power SmartWatt Boiler is the only mCHP system
in the market that is a competitively priced, fully functional heating system, which also generates electricity and provides backup power. In other words, for $8,000 our 175,000 BTU/hour boiler will generate 6 kW of electricity and provide backup power. As the system is fully dispatchable, our SmartWatt Boiler operates as part of a virtual power plant (VPP), providing ancillary services that enable the integration of more wind and solar into the US Grid. All for the price of your next boiler.
OVERVIEW OF COGENERATION OPPORTUNITIES IN NEPALESE SUGAR SECTOR eecfncci
This document provides an overview of cogeneration opportunities in the Nepalese sugar sector. It discusses how cogeneration works by using fuel to generate both steam for industrial processes and electricity. The sugar sector in Nepal is described, including annual sugarcane production and bagasse production. Current practices and configurations in sugar plants are outlined. The document proposes upgrading to higher pressure boilers and turbines to increase power generation potential. Estimates suggest upgrading several plants could generate over 50 MW of surplus power for the grid. Interventions to realize this cogeneration potential are recommended, such as feasibility studies, assessing utility benefits, and developing incentive programs.
SUGAR COGEN PPT PPP NTPC DIM MNRE 25APR15 Ram Kaul
The document provides an overview of a presentation on sugar cogeneration and public-private partnerships in India. It discusses India's energy needs and resources, outlines a build-own-operate-transfer model for sugar cogeneration projects, and analyzes the technical and financial feasibility of potential projects at various sugar mills based on their operating parameters and fuel availability. Real-time integrated analysis of sample projects is presented, including heat and mass balances, capital costs, revenue projections, and financial analyses.
The document discusses cogeneration (CHP), which is the simultaneous production of heat and power from a single fuel source. It describes various cogeneration technologies that can be used and their applications in industrial settings. Cogeneration improves energy efficiency compared to separate production of heat and electricity and can reduce costs for businesses if the heat is utilized properly. The economics of cogeneration depend on factors like fuel and electricity prices and carbon credits, and it offers benefits like reduced emissions and more reliable energy.
The document proposes a business model where Sammo Energy Ltd would provide a full energy solution for shopping malls to help them lower costs and environmental footprint. Sammo would invest to install solar concentrators, wind turbines, bio digesters, and other renewable energy sources at malls along with power generation and storage systems like absorption chillers and batteries. This would generate electricity on-site along with heat for air conditioning to reduce energy costs for malls through a long-term purchase agreement, while Sammo shares in benefits from emissions reductions incentives.
This file includes the presentation for Energy Systems course final project entitled Micro-grid Design for Ozyegin University.
The numbers and the ideas should not be used as a reference for other applications. The presentation is not meant to represent a real case study.
The Power Behind Renewables - Trefor Evans (First Light Energy)ecoconnect
FirstLight Energy focuses on renewable energy technologies like solar thermal, wind turbines, and hybrid lighting to provide sustainable energy solutions. The company is researching technologies like phase change materials for energy storage and advanced heat pumps. FirstLight is negotiating distribution deals and working on R&D projects to advance these technologies.
The Co-Generation Plant at UConn generates all the power needed for campus using natural gas-powered turbines. It is more efficient than a conventional power plant, producing both electricity and steam for heating and cooling. The plant costs $80 million to build but saves $10 million per year in energy costs. It uses water reclamation facilities and produces steam with boilers and turbines, distributing it through an underground piping system to buildings across campus.
Sakina Energy Solutions is a black-owned South African company that has been in the solar energy industry for 5 years. Their mission is to become trusted experts for their customers by specializing in energy efficiency and clean energy generation solutions. They seek to provide a return on investment for customers through applying energy efficient and renewable energy solutions like solar photovoltaic systems and solar water heating systems, resulting in cost savings on energy and reduced environmental footprint. Their target markets include residential, commercial, and industrial customers.
Sammo Energy proposes an energy solution for airports that would reduce costs and environmental footprint. They would invest in installing solar concentrators, absorption chillers, wind turbines, and a bio-digester to generate heat, electricity, and biogas from organic waste onsite. This integrated system would provide the airport's energy needs while allowing them to share benefits like emissions reductions incentives without investment.
Cogeneration, also known as combined heat and power (CHP), is the simultaneous production of electricity and useful thermal energy from a single fuel source. It is classified based on the sequence of energy production as either topping cycle, where electrical energy is produced first followed by heat, or bottoming cycle where heat is produced first followed by electricity. Cogeneration is more efficient than separate thermal and electric generation systems and provides advantages such as reduced greenhouse gas emissions, distributed generation benefits, and potential tax incentives. It finds applications in industries that require simultaneous steam and power production such as infrastructure projects, shopping malls, airports, mines, and sugar mills.
O2E Recycling Technologies has developed a patented gasification technology that converts waste wood and biomass into syngas, which can then be used to generate heat, power, steam, or cooling. The modular system is containerized for easy transport and installation. It uses downdraft gasification, which is considered the cleanest and most efficient method, along with an innovative process to produce one of the purest fuels available. Combined heat and power generators are used to produce electricity and thermal energy from the syngas. The goal is to create a sustainable closed-loop system to handle waste recycling and conversion needs.
This document discusses elements of energy conservation and management in different sectors including transport, agriculture, power generation, domestic, and industry. It provides examples of ways to conserve energy in each sector such as planning travel to reduce wasteful driving, regularly servicing farm machinery, optimizing power line length ratios, turning off lights when not in use, and recovering waste heat in industries. It also introduces the Energy Star concept which sets standards for energy efficient consumer products established by the EPA.
This document summarizes a commercial roof-mounted solar installation project in Tibshelf, Derbyshire. An 83.5 kWp solar photovoltaic system was installed on the roof of Storetec UK, consisting of 334 solar panels. The system was expected to generate 67,000 kWh annually and provide Storetec with an excellent 13.5% return on investment. The installation was carried out by GYO Energy and helps Storetec reduce their carbon footprint while their customers increasingly focus on environmental impacts.
This document discusses elements of energy conservation and management. It defines energy and different forms of energy. The law of conservation of energy states that energy cannot be created or destroyed, only converted from one form to another. India faces increasing energy problems due to its growing population, industrialization, and transportation sector. The document outlines concepts, needs, and principles of energy conservation. It provides examples of conserving electrical and other types of energy. Energy conservation has benefits like economic and environmental gains as well as saving foreign exchange. Conservation efforts can help in the transport, agriculture, power, domestic, and industries sectors.
Rooftop Solar System in Raheja Eternity, MumbaiADDA
The Raheja Eternity Housing Society initiated several energy conservation and renewable energy projects from December 2016 to September 2017 to reduce their high energy consumption and bills. They replaced over 600 lights with LED bulbs, installed 55 motion sensors, and implemented a two-phase rooftop solar system totaling 81.5 kW. These measures reduced their monthly energy consumption by 74% from 25,900 to 6,800 units and lowered their energy bill by 94% from Rs. 3,59,280 to Rs. 20,000. The projects also decreased their CO2 emissions by 66% and contributed to a 78% reduction in monthly maintenance fees.
Super inverter epcen08 114-catalogues_english (2)Henry Hollands
The document discusses Daikin's RZQ Super Inverter air conditioning system. It provides high energy efficiency through its use of inverter technology, DC fan motors, and refrigerants like R-410A. The system ensures maximum comfort with stable temperatures and sound levels as low as 43dB. It can connect to various indoor units and offers benefits like reusing existing piping and a operating range of -15°C to 50°C.
Steam_E_RevA_202109_Rev.1_0_Mitsubishi Power.pdfHafidz Akbar
The document discusses Mitsubishi Power's steam power plant technology and products. Some key points:
- Mitsubishi Power provides steam power plants using highly efficient ultra-supercritical boiler and steam turbine technology. Their plants can generate up to 1,100 MW of power while reducing CO2 emissions.
- They offer drum boilers and once-through boilers for steam power generation. Key components include the superheater, economizer, and furnace.
- Mitsubishi Power has over a century of experience developing steam turbines. They provide turbines for applications from small industrial units to large utility plants, with a proven track record of over 360,000 MW of delivered capacity.
This document discusses Combined Heat and Power (CHP) production and its advantages. It notes that CHP is an efficient use of resources that can produce both electricity and heat from one fuel source. CHP has significant global potential for growth, as it can utilize various renewable and waste fuels flexibly at both large and small scales. The document also discusses Fortum's strategy and vision, with CHP playing a key role. Fortum has many existing CHP plants and is constructing a new one in Klaipėda, Lithuania to provide heat and electricity using local biofuels and waste in a sustainable manner.
Süka is a German company that is the industry leader in solar photovoltaic (PV) heating and electric heating systems. Their solar PV and heater products provide green, renewable energy that reduces CO2 emissions and electricity bills while their heaters offer versatility, efficiency, and a 15-year guarantee. Choosing Süka's products allows businesses and homeowners to benefit from cost savings, reliability, and helping the environment.
This document summarizes a 64.25 kWp solar PV system installed at Sykes Timber in Atherstone, Warwickshire by GYO Energy. The system consists of 257 solar panels mounted on 3 buildings and is predicted to generate 54,500 kWh annually. It provides Sykes Timber with an excellent 14.8% return on investment while offsetting 38 tons of CO2 emissions per year.
Cogeneration involves the sequential conversion of fuel into multiple usable energy forms. It can produce both electrical and thermal energy, unlike conventional systems. There are two types of cogeneration systems - inplant power generation and reject heat utilization. Inplant power generation produces steam at a higher temperature than needed for manufacturing to also generate electricity using a turbine generator. Reject heat utilization uses excess steam from a power plant for manufacturing. Topping cycles produce electricity first while bottoming cycles produce heat first. Cogeneration provides benefits like fuel economy, lower capital costs, and protection from power outages. Common technologies are steam turbine, gas turbine, combined cycle, and diesel engine systems.
Many thanks to ESC for the invitation to speak at TMAF last week. I am happy to share the presentation Enviro Power we provided at this great event.
The Enviro Power SmartWatt Boiler is the only mCHP system
in the market that is a competitively priced, fully functional heating system, which also generates electricity and provides backup power. In other words, for $8,000 our 175,000 BTU/hour boiler will generate 6 kW of electricity and provide backup power. As the system is fully dispatchable, our SmartWatt Boiler operates as part of a virtual power plant (VPP), providing ancillary services that enable the integration of more wind and solar into the US Grid. All for the price of your next boiler.
OVERVIEW OF COGENERATION OPPORTUNITIES IN NEPALESE SUGAR SECTOR eecfncci
This document provides an overview of cogeneration opportunities in the Nepalese sugar sector. It discusses how cogeneration works by using fuel to generate both steam for industrial processes and electricity. The sugar sector in Nepal is described, including annual sugarcane production and bagasse production. Current practices and configurations in sugar plants are outlined. The document proposes upgrading to higher pressure boilers and turbines to increase power generation potential. Estimates suggest upgrading several plants could generate over 50 MW of surplus power for the grid. Interventions to realize this cogeneration potential are recommended, such as feasibility studies, assessing utility benefits, and developing incentive programs.
SUGAR COGEN PPT PPP NTPC DIM MNRE 25APR15 Ram Kaul
The document provides an overview of a presentation on sugar cogeneration and public-private partnerships in India. It discusses India's energy needs and resources, outlines a build-own-operate-transfer model for sugar cogeneration projects, and analyzes the technical and financial feasibility of potential projects at various sugar mills based on their operating parameters and fuel availability. Real-time integrated analysis of sample projects is presented, including heat and mass balances, capital costs, revenue projections, and financial analyses.
The document discusses cogeneration (CHP), which is the simultaneous production of heat and power from a single fuel source. It describes various cogeneration technologies that can be used and their applications in industrial settings. Cogeneration improves energy efficiency compared to separate production of heat and electricity and can reduce costs for businesses if the heat is utilized properly. The economics of cogeneration depend on factors like fuel and electricity prices and carbon credits, and it offers benefits like reduced emissions and more reliable energy.
The document proposes a business model where Sammo Energy Ltd would provide a full energy solution for shopping malls to help them lower costs and environmental footprint. Sammo would invest to install solar concentrators, wind turbines, bio digesters, and other renewable energy sources at malls along with power generation and storage systems like absorption chillers and batteries. This would generate electricity on-site along with heat for air conditioning to reduce energy costs for malls through a long-term purchase agreement, while Sammo shares in benefits from emissions reductions incentives.
This file includes the presentation for Energy Systems course final project entitled Micro-grid Design for Ozyegin University.
The numbers and the ideas should not be used as a reference for other applications. The presentation is not meant to represent a real case study.
The Power Behind Renewables - Trefor Evans (First Light Energy)ecoconnect
FirstLight Energy focuses on renewable energy technologies like solar thermal, wind turbines, and hybrid lighting to provide sustainable energy solutions. The company is researching technologies like phase change materials for energy storage and advanced heat pumps. FirstLight is negotiating distribution deals and working on R&D projects to advance these technologies.
The Co-Generation Plant at UConn generates all the power needed for campus using natural gas-powered turbines. It is more efficient than a conventional power plant, producing both electricity and steam for heating and cooling. The plant costs $80 million to build but saves $10 million per year in energy costs. It uses water reclamation facilities and produces steam with boilers and turbines, distributing it through an underground piping system to buildings across campus.
Sakina Energy Solutions is a black-owned South African company that has been in the solar energy industry for 5 years. Their mission is to become trusted experts for their customers by specializing in energy efficiency and clean energy generation solutions. They seek to provide a return on investment for customers through applying energy efficient and renewable energy solutions like solar photovoltaic systems and solar water heating systems, resulting in cost savings on energy and reduced environmental footprint. Their target markets include residential, commercial, and industrial customers.
Sammo Energy proposes an energy solution for airports that would reduce costs and environmental footprint. They would invest in installing solar concentrators, absorption chillers, wind turbines, and a bio-digester to generate heat, electricity, and biogas from organic waste onsite. This integrated system would provide the airport's energy needs while allowing them to share benefits like emissions reductions incentives without investment.
Cogeneration, also known as combined heat and power (CHP), is the simultaneous production of electricity and useful thermal energy from a single fuel source. It is classified based on the sequence of energy production as either topping cycle, where electrical energy is produced first followed by heat, or bottoming cycle where heat is produced first followed by electricity. Cogeneration is more efficient than separate thermal and electric generation systems and provides advantages such as reduced greenhouse gas emissions, distributed generation benefits, and potential tax incentives. It finds applications in industries that require simultaneous steam and power production such as infrastructure projects, shopping malls, airports, mines, and sugar mills.
O2E Recycling Technologies has developed a patented gasification technology that converts waste wood and biomass into syngas, which can then be used to generate heat, power, steam, or cooling. The modular system is containerized for easy transport and installation. It uses downdraft gasification, which is considered the cleanest and most efficient method, along with an innovative process to produce one of the purest fuels available. Combined heat and power generators are used to produce electricity and thermal energy from the syngas. The goal is to create a sustainable closed-loop system to handle waste recycling and conversion needs.
This document discusses elements of energy conservation and management in different sectors including transport, agriculture, power generation, domestic, and industry. It provides examples of ways to conserve energy in each sector such as planning travel to reduce wasteful driving, regularly servicing farm machinery, optimizing power line length ratios, turning off lights when not in use, and recovering waste heat in industries. It also introduces the Energy Star concept which sets standards for energy efficient consumer products established by the EPA.
This document summarizes a commercial roof-mounted solar installation project in Tibshelf, Derbyshire. An 83.5 kWp solar photovoltaic system was installed on the roof of Storetec UK, consisting of 334 solar panels. The system was expected to generate 67,000 kWh annually and provide Storetec with an excellent 13.5% return on investment. The installation was carried out by GYO Energy and helps Storetec reduce their carbon footprint while their customers increasingly focus on environmental impacts.
This document discusses elements of energy conservation and management. It defines energy and different forms of energy. The law of conservation of energy states that energy cannot be created or destroyed, only converted from one form to another. India faces increasing energy problems due to its growing population, industrialization, and transportation sector. The document outlines concepts, needs, and principles of energy conservation. It provides examples of conserving electrical and other types of energy. Energy conservation has benefits like economic and environmental gains as well as saving foreign exchange. Conservation efforts can help in the transport, agriculture, power, domestic, and industries sectors.
Rooftop Solar System in Raheja Eternity, MumbaiADDA
The Raheja Eternity Housing Society initiated several energy conservation and renewable energy projects from December 2016 to September 2017 to reduce their high energy consumption and bills. They replaced over 600 lights with LED bulbs, installed 55 motion sensors, and implemented a two-phase rooftop solar system totaling 81.5 kW. These measures reduced their monthly energy consumption by 74% from 25,900 to 6,800 units and lowered their energy bill by 94% from Rs. 3,59,280 to Rs. 20,000. The projects also decreased their CO2 emissions by 66% and contributed to a 78% reduction in monthly maintenance fees.
Super inverter epcen08 114-catalogues_english (2)Henry Hollands
The document discusses Daikin's RZQ Super Inverter air conditioning system. It provides high energy efficiency through its use of inverter technology, DC fan motors, and refrigerants like R-410A. The system ensures maximum comfort with stable temperatures and sound levels as low as 43dB. It can connect to various indoor units and offers benefits like reusing existing piping and a operating range of -15°C to 50°C.
Steam_E_RevA_202109_Rev.1_0_Mitsubishi Power.pdfHafidz Akbar
The document discusses Mitsubishi Power's steam power plant technology and products. Some key points:
- Mitsubishi Power provides steam power plants using highly efficient ultra-supercritical boiler and steam turbine technology. Their plants can generate up to 1,100 MW of power while reducing CO2 emissions.
- They offer drum boilers and once-through boilers for steam power generation. Key components include the superheater, economizer, and furnace.
- Mitsubishi Power has over a century of experience developing steam turbines. They provide turbines for applications from small industrial units to large utility plants, with a proven track record of over 360,000 MW of delivered capacity.
The document discusses strategies for reducing energy costs through green energy solutions. It recommends conducting an energy audit first to understand current energy usage and costs before implementing efficiency upgrades or renewable energy sources. Energy efficiency measures like improved lighting and controls can save significantly on costs. Solar PV is also presented as a key renewable resource that provides distributed generation to reduce grid usage. Overall the presentation focuses on using energy audits and efficiency upgrades to lower costs before investing in more expensive renewable options.
Future Solar Air Conditioning offers solar-powered air conditioning systems for both large-scale and future household applications. The systems use solar thermal energy and operate without compressors or CFCs, providing cooling through absorption technology with over 93% COP efficiency. Benefits include huge electricity savings, free hot and cool water production, a payback period of less than two years, and eligibility for eco-friendly awards. The systems are suitable for various commercial and residential buildings.
Reduce Energy Consumption with LED Lighting, Co-generation, & Wireless Automa...The Brewer-Garrett Company
This document summarizes strategies for reducing energy consumption in facilities through newer technologies like LED lighting, cogeneration, and wireless automation systems. It discusses the cost and benefits of these technologies, where they can be applied, and available funding to assist with return on investment. The presentation covers LED lighting technologies and applications, different types of cogeneration systems from microturbines to gas turbines and their applications, and uses of wireless automation using technologies like Zigbee and EnOcean. It provides examples of calculating return on investment for these systems and discusses available rebates.
Future Solar Air Conditioning offers solar-powered air conditioning systems for both large-scale and future household applications. The systems use solar thermal energy and operate without compressors or CFCs, providing silent, eco-friendly cooling and potential savings on electricity bills. They can fulfill daily cooling requirements for offices, homes, and other buildings in an environmentally friendly way.
The document discusses SolarCool, a technology that uses solar thermal energy to increase the efficiency of air conditioning and refrigeration systems. It works by using solar panels to heat refrigerant gases, taking work off the compressor and reducing energy consumption by up to 70%. SolarCool has over 6,000 commercial installations worldwide retrofitted onto existing HVAC and refrigeration equipment. Customers report significant energy and cost savings compared to conventional compression systems, with returns on investment reached in 1.5 to 3 years.
IRJET- IC Engine Waste Heat Recovery SystemsIRJET Journal
The document summarizes various waste heat recovery systems for internal combustion engines. It discusses organic Rankine cycle systems and thermoelectric generator systems for recovering heat from engine exhaust gases. Organic Rankine cycle systems use a turbine to convert the thermal energy of exhaust gases into electricity via a Rankine cycle. Thermoelectric generators use the Seebeck effect to directly convert a temperature difference into electricity. The document analyzes the advantages and disadvantages of these waste heat recovery technologies and their potential to improve engine efficiency and reduce emissions.
IRJET - IC Engine Waste Heat Recovery SystemsIRJET Journal
The document discusses waste heat recovery systems for internal combustion engines. It describes two main methods - the organic Rankine cycle and thermoelectric generators. The organic Rankine cycle uses a heat exchanger, turbine, condenser and pump to convert waste heat from exhaust gases into useful work. Thermoelectric generators use the Seebeck effect to directly convert a temperature difference into electricity. Both methods can potentially improve fuel efficiency and reduce emissions by capturing some of the waste heat from engines that would otherwise be lost.
IRJET - An Experimental Evaluation of Automobile Waste Heat Recovery System u...IRJET Journal
This document summarizes an experimental study that evaluated an automobile waste heat recovery system using a thermoelectric generator. The study aimed to recover waste heat from two-wheeler vehicle silencers, which are typically dissipated as heat to the environment. A proof-of-concept model was developed using thermoelectric generators and heat pipes to convert the simulated hot air into electrical power. The results indicate that waste heat from vehicle exhausts, which currently contributes to pollution and energy inefficiency, can be harnessed via thermoelectric generators to improve efficiency and reduce emissions.
The document summarizes information presented at a seminar on heat pumps and renewable energy technologies. It discusses sustainable development and various forms of renewable energy like heat pumps, solar, and wind. It then focuses on heat pumps, explaining how they work, their advantages over gas boilers in terms of cost and carbon emissions, and different types of ground source heat pumps. Micro district heating solutions are also introduced. The document concludes by covering incentives for renewable technologies like the Renewable Heat Incentive and loans available for businesses and organizations.
This document discusses how to save on utility costs through reducing wattage and lessening equipment duty cycles. It provides examples of converting to LED lighting, which can reduce energy use by 70-90%, and installing e-cubes and ECM motors to reduce refrigeration cycling. The company has worked with a large franchisee to implement these solutions across various areas, including lighting, water, refrigeration, and HVAC. Testing indicates the solutions have lowered total energy consumption by up to 40% with payback periods around one year.
Prototech Energy Pvt. Ltd. is an innovative Indian company that develops renewable energy technologies, including air source heat pumps. It was founded in 2003 with a mission to reduce electricity costs and carbon emissions through alternative energy solutions. Prototech manufactures and installs various green energy products like air source heaters, solar thermal systems, and biofuel systems. An air source heater transfers heat from ambient air into water using a refrigeration cycle, providing heated water more efficiently than electric or fossil fuel heaters. Prototech has installed many air source heaters in India for hotels, hospitals, and other commercial and residential customers.
The document is a letter from an energy company promoting heat pump technology. It summarizes several case studies of heat pumps being used in commercial and industrial settings to replace fossil fuels. The case studies show heat pumps being used for applications like pre-heating in manufacturing, hotel hot water, engine pre-heating, and more. The letter highlights the energy savings, cost savings, and emission reductions achieved through installing heat pumps. It aims to convince industry colleagues of the benefits of adopting heat pump technology to decarbonize their operations and reduce energy costs.
The document introduces the Air Conditioning Energy Saver made by Saveair Technologies which can save up to 30% on air conditioning running costs. It works by detecting when the AC system is overcooling and switches off the compressor to avoid wasting energy, still using the stored cooling in the heat exchanger. This intelligent control results in significant energy savings without compromising comfort. The Energy Saver pays for itself within months and extends the lifetime of AC compressors while helping to reduce CO2 emissions.
Combined heat and power (CHP) refers to the use of a production unit's exhaust heat for another process requirement, improving energy utilization. By capturing waste heat, overall thermal efficiency can increase from 40-50% to 70-90%. CHP installations can be large or small, using fuels like natural gas or biomass, and are used for industrial steam production, agriculture heating, district heating, and small-scale building heating. CHP provides benefits like high efficiency, reduced emissions, cost savings, and power reliability.
ECOD short technical presentation ( Ecnology Middle East - Feigin Electric di...Andrew Dmitrev
ECOD Voltage Optimizer
1. Utilizes a unique patented technology, regulating current direction in transformer windings.
2. Has dimensions and weight more than three times smaller than traditional optimizers.
3. Significantly reduces losses, six times or more, contributing to greater efficiency.
4. Optimizes power kWh, peak demand kW, and reactive power kVAr for comprehensive energy management.
5. Takes up less space, offering easy integration into various environments.
6. Increases equipment lifespan and ensures consistent savings of 8 to 12% on bills for selected loads. Choose ECOD for efficient and compact energy optimization.
This document discusses how combined heat and power with spinning reserve (CHP-SR) can benefit multiple parties by balancing intermittent wind power. CHP-SR involves an electrically oversized thermally matched CHP system that normally operates at reduced power output. It can balance high and low wind power periods more efficiently than a standalone gas turbine by recycling waste heat. Economic analysis shows CHP-SR lowers operating costs for an ethanol plant compared to its boiler, and provides cheaper power than a utility's coal plant or a gas turbine balancing wind. CHP-SR benefits include reduced steam costs for the ethanol plant, reliable power for the grid, and help for utilities to address emissions regulations while retaining customers.
The document discusses various energy storage techniques and provides comparisons between them. It describes characteristics like efficiency, capacity, energy density, response time, lifetime, and costs for different storage methods including mechanical storage, electrical storage, thermal storage, and chemical storage technologies. These include pumped hydro, flywheels, capacitors, batteries, fuel cells, and thermal options like cryogenic, latent heat, and sensible heat systems. Comparisons are made between technologies based on these characteristics and their suitability for different applications. The largest existing pumped hydro plant is highlighted as an example system.
Evolving Lifecycles with High Resolution Site Characterization (HRSC) and 3-D...Joshua Orris
The incorporation of a 3DCSM and completion of HRSC provided a tool for enhanced, data-driven, decisions to support a change in remediation closure strategies. Currently, an approved pilot study has been obtained to shut-down the remediation systems (ISCO, P&T) and conduct a hydraulic study under non-pumping conditions. A separate micro-biological bench scale treatability study was competed that yielded positive results for an emerging innovative technology. As a result, a field pilot study has commenced with results expected in nine-twelve months. With the results of the hydraulic study, field pilot studies and an updated risk assessment leading site monitoring optimization cost lifecycle savings upwards of $15MM towards an alternatively evolved best available technology remediation closure strategy.
Kinetic studies on malachite green dye adsorption from aqueous solutions by A...Open Access Research Paper
Water polluted by dyestuffs compounds is a global threat to health and the environment; accordingly, we prepared a green novel sorbent chemical and Physical system from an algae, chitosan and chitosan nanoparticle and impregnated with algae with chitosan nanocomposite for the sorption of Malachite green dye from water. The algae with chitosan nanocomposite by a simple method and used as a recyclable and effective adsorbent for the removal of malachite green dye from aqueous solutions. Algae, chitosan, chitosan nanoparticle and algae with chitosan nanocomposite were characterized using different physicochemical methods. The functional groups and chemical compounds found in algae, chitosan, chitosan algae, chitosan nanoparticle, and chitosan nanoparticle with algae were identified using FTIR, SEM, and TGADTA/DTG techniques. The optimal adsorption conditions, different dosages, pH and Temperature the amount of algae with chitosan nanocomposite were determined. At optimized conditions and the batch equilibrium studies more than 99% of the dye was removed. The adsorption process data matched well kinetics showed that the reaction order for dye varied with pseudo-first order and pseudo-second order. Furthermore, the maximum adsorption capacity of the algae with chitosan nanocomposite toward malachite green dye reached as high as 15.5mg/g, respectively. Finally, multiple times reusing of algae with chitosan nanocomposite and removing dye from a real wastewater has made it a promising and attractive option for further practical applications.
Download the Latest OSHA 10 Answers PDF : oyetrade.comNarendra Jayas
Latest OSHA 10 Test Question and Answers PDF for Construction and General Industry Exam.
Download the full set of 390 MCQ type question and answers - https://www.oyetrade.com/OSHA-10-Answers-2021.php
To Help OSHA 10 trainees to pass their pre-test and post-test we have prepared set of 390 question and answers called OSHA 10 Answers in downloadable PDF format. The OSHA 10 Answers question bank is prepared by our in-house highly experienced safety professionals and trainers. The OSHA 10 Answers document consists of 390 MCQ type question and answers updated for year 2024 exams.
Monitor indicators of genetic diversity from space using Earth Observation dataSpatial Genetics
Genetic diversity within and among populations is essential for species persistence. While targets and indicators for genetic diversity are captured in the Kunming-Montreal Global Biodiversity Framework, assessing genetic diversity across many species at national and regional scales remains challenging. Parties to the Convention on Biological Diversity (CBD) need accessible tools for reliable and efficient monitoring at relevant scales. Here, we describe how Earth Observation satellites (EO) make essential contributions to enable, accelerate, and improve genetic diversity monitoring and preservation. Specifically, we introduce a workflow integrating EO into existing genetic diversity monitoring strategies and present a set of examples where EO data is or can be integrated to improve assessment, monitoring, and conservation. We describe how available EO data can be integrated in innovative ways to support calculation of the genetic diversity indicators of the GBF monitoring framework and to inform management and monitoring decisions, especially in areas with limited research infrastructure or access. We also describe novel, integrative approaches to improve the indicators that can be implemented with the coming generation of EO data, and new capabilities that will provide unprecedented detail to characterize the changes to Earth’s surface and their implications for biodiversity, on a global scale.
Earth Day How has technology changed our life?
Thinkers/Inquiry • How has our ability to think and inquire helped to advance technology?
Vocabulary • Nature Deficit Disorder~ A condition that some people maintain is a spreading affliction especially affecting youth but also their adult counterparts, characterized by an excessive lack of familiarity with the outdoors and the natural world. • Precautionary Principle~ The approach whereby any possible risk associated with the introduction of a new technology is largely avoided, until a full understanding of its impact on health, environment and other areas is available.
What is technology? • Brainstorm a list of technology that you use everyday that your parents or grandparents did not have. • Compare your list with a partner.
BASIC CONCEPT OF ENVIRONMENT AND DIFFERENT CONSTITUTENET OF ENVIRONMENT
Aepl solar thermal germany
1.
2. Value Proposition
Reduce Emissions
Enhance your Brand Image
Set an example for others
Replace Fuel with Green Energy
Pay monthly
Price per Unit X Actual Energy
Delivered to your process
Save the FUTURE, without
sacrificing anything TODAY
3. Why AEPL Thermal?
4x more energy per SQ MTR of roof top space.
Pay-per unit Business model
< 12 Euro cents per unit of thermal energy (1 KWHth = 860 KCal) delivered
Energy security (Freeze Energy Cost for 20 years)
Meet Carbon reduction and Climate Change Commitments.
Protect our future generations from climate change and adverse weather
conditions.
4. Temperatures PV (Electricity) CSP Thermal AEPL Thermal
(40-120 Deg
Cel)
Cost per MW Euro 1.2
Million
Euro 1 Million Euro 0.8
Million
Area required
per MW
14000 Sq Mtrs
(Roof Top)
6000 Sq Mtrs
(On Ground)
3300 Sq Mtrs
(Roof Top)
All Solar Not Equal
5. We are the proud recipient of CLIMATE SOLVER
AWARD 2013 by WWF - India
High
Temperatures
Low Cost
Per MW
Pay
Monthly
Achieve upto 120 °C by
enhancing proven ETC
technology.
Per Unit
Price and
monthly
billing
linked to
actual
energy
delivered
Low cost per Unit
Auto Hybrid
Operation
Integrate
Solar
thermal
system
with
existing
fuel system
Solar thermal
collectors
mounted on
unused factory
roof tops.
Trussed Roof
Top
Installation
Innovations by AEPL
6. Arun Dish Parabolic Dish
• Parabolic dish : 16 sq.m - Requires min. 35 sq.m of space between each dish.
• Arun dish : 160 Sq.m - RCC required to withstand 15 Ton concentrated load within 3 sq.m
• High cost per MW, Poor pay-back period. Cannot mount on factory roof tops
CSPs Limitations
7. AEPL Thermal
Roof Top Mounted AEPL Thermal Collectors
AEPL Thermal
ETC Glass Tube – 170 C
8. Why Aspiration Energy?
Temperatures
We achieved higher temperatures by innovative additions to existing
technologies and design..
ETC-HXTM , ETC-UTM & ETC - CPCTM
Integrative ConcentrationTM
StayLiquidTM : Pressurized
FlexiFlowTM : Forced circulation & Flow Engineering
HybriHeatTM : Switches from Solar to Fuel & vice versa based on
temperature.
How we achieve?
11. Why Aspiration Energy?
Temperatures
StayLiquidTM Pressurized
At higher temperatures vaporization happens and problems like steaming,
cavitation and stuttering occur. To avoid this we need to pressurize.
We operate the generator side secondary circuit with pressurized hot
water system up to 4 Bar.
This is the coupled to the custo er’s process side through heat
exchangers like Plate Heat Exchanger, Serpentine coil type, Immersion
plate heat exchanger and radiators.
The process fluid may be air, water, chemicals etc.
12. Why Aspiration Energy?
Temperatures
FlexiFlowTM
We need to manage the series parallel connections well, by managing the
flow. We do this by careful calibration, adjustment of flow in each of the
circuit.
We use a pump on the generator / collector side to create forced
circulation of the pressurized hot water.
The flow, temperature and pressure are measured and controlled, so that
we are able to achieve higher temperature, as well as maintain the
required temperature more accurately.
15. Success Stories
Installation -----> Wheels India
Limited
Sona Koyo Steering
Systems Limited
Harita Seating
System limited
Project size & type 630 KWth 210 KWth 360 KWth
Solar thermal
energy delivered
per year
1,000,000 KWH 330,000 KWH 550,000 KWH
Annual carbon
abatement
~ 250 MT ~ 80 MT ~ 140 MT
Application Pre-treatment
process
Pre-treatment
process
Pre-treatment
process
16. 210 KW Solar Thermal System – SONA KOYO STEERING SYSTEMS LIMITED 630 KW Solar Thermal System – WHEELS INDIA LIMITED
Photo Gallery
19. Climate Solver Award 2013
WWF India
Photo : Bhoovarahan Thirumalai, CEO and Manoharan Head Solar Thermal, receiving the award from The Honurable
Union Minister Shri Prakash Javedakar.
21. MNRE ESCO Award
Bhoovarahan Thirumalai of Aspiration Energy was awarded by MNRE for successful development of ESCO projects under
UNDP/GEF Global water heating market transformation and strengthening initiative India country program.
22. • The crowning glory of the UNDP GSWH
Progra … a u disputed exa ple of a win-win
situation for client and the ESCO…marks the
beginning of a new chapter in energy savings by
industries through the ESCO route.. would help
the industries in fulfilling their renewable
purchase obligation and reduce the consumption
of an expensive fossil fuel. I expect all forwarding
looking companies would embrace what
Aspiration Energy has demonstrated.
Sandeep Tandon
Appreciation from UNDP
27. Capabilities, Credentials – About Us
Clean
Energy
Vision
• Revenue USD 30 Million
• A Deloitte and Touche
Fast 500 Asia Company
Award winner for
consecutive 3 years
Profitable IT firm
• Fast Forward to
the Solar Future.
Vision
Pioneers of RESCO model -
capex to opex in solar using Pay
Per Unit business model.
28. 20+ years experienced Entrepreneur
Co-founder, Aspire Systems
Mechanical Engineer from Pondicherry University
MBA from Kellogg School of Management, Northwestern
University, USA
Certified PV Designer.
CEO : Bhoovarahan Thirumalai
Capabilities, Credentials – Management Team
29. Kasthuri Rangan, Head - Solar PV
35+ years of exp. in leading companies like Lucas TVS, etc
Electrical engineer from NIT, Trichy
10+ years Entrepreneurial experience
Passionate photovoltaic designer
Manoharan, Head - Solar Thermal
25+ years of exp, in solar thermal and other thermodynamic systems
Electrical engineer from College of Engg, Guindy
Capabilities, Credentials – Management Team
Gowri Subramaniam, Director
20+ years experienced entrepreneur
Co-founder and CEO of Aspire Systems,
Mechanical Engineer from Pondicherry University
MS - Industrial Engineering from Texas A&M, USA
30. Or call us @ +91 44-42185301
THANKS
Please write to
karthik.k@aspirationenergy.com
Facebook.com/AspirationEnergy