Verdicorp, Inc. is helping solve the world’s energy problems by producing electricity from heat that would otherwise be wasted into the atmosphere. Verdicorp’s Verdi~Sys combines award-winning technology with an Organic Rankine Cycle (ORC) System to capture waste heat from a variety of heat sources. It is particularly well-suited to transforming natural gas transmission engine exhaust into electricity, which means saving money.
Verdicorp President, Ron Conry and members of the corporate staff will be exhibiting the Verdi~Sys ORC system at the NAPE North American Petroleum Expo at the George R. Brown Convention Center in Houston, Texas on August 18-19, 2011. We look forward to speaking with you at the NAPE Expo in Houston. We will be in booth #2700.
You can learn more about Verdicorp by going to www.verdicorp.com
This document provides information about BROAD, a Chinese company that manufactures non-electric chillers and combined heat and power (CHP) systems. It discusses BROAD's history and achievements, product lines, applications of CHP technology, and case studies of BROAD CHP installations around the world. The case studies describe how BROAD systems utilize waste heat from on-site power generation to provide cooling and heating in an efficient manner, reducing energy costs and carbon emissions significantly compared to conventional systems.
The energy-saving audit project in Malaysia aimed to implement advanced energy-saving technologies from Japanese companies at selected model companies in Malaysia to help reduce energy costs and carbon emissions, with the project selecting 2-3 large processed food or beverage companies to conduct free audits and provide recommendations, and requesting MGTC's help in recommending model companies and linking the project to Malaysia's Green Technology Financing Scheme.
2012 Reenergize the Americas 1A: Reinhard PeterReenergize
This document discusses renewable energy solutions from Solarzentrum North America and presents information on their photovoltaic and solar thermal products and technologies. It highlights their hybrid PV-Therm module, which combines a solar photovoltaic panel and solar thermal collector into one unit to provide both electricity and heated water. The PV-Therm module has received certification from TUV Rheinland confirming it meets international safety and quality standards. Potential applications of the PV-Therm technology include water heating for pools, hotels, schools, and more.
This document discusses high quality LED flood lights that can save energy and money. It describes two LED flood light models - the LFL16-225TG and LFL15-290TG. The lights offer benefits like high brightness of 100 lumens per watt, a long lifespan of up to 50,000 hours, an IP65 rating for outdoor use, and energy savings of 50-70% compared to traditional lamps. They are suitable for uses like factories, gyms, and outdoor lighting.
The document discusses Thermax's Renewable Energy Growth Unit which provides turnkey cooling and heating solutions utilizing solar energy. The unit aims to be a pioneering player in developing affordable solar energy solutions. It has manufacturing facilities in Pune and has implemented several demonstration projects across India integrating solar thermal technology with heating and cooling applications for customers in industries like hotels, automotive, and research. The document outlines Thermax's product offerings and technology details, and provides descriptions of three solar thermal projects for cooling applications in Chennai, Gurgaon, and Pune.
Invest in NI - Olive Hill - CBI NI Annual Energy ForumAJCBI
This document summarizes a forum on annual energy hosted by CBI NI. It discusses evidence of climate change and mounting evidence from sources like NREL. It outlines state renewable portfolio standards and headlines projecting massive investments needed in energy infrastructure. It explores opportunities in growing renewable energy markets and Invest NI's interests in supporting climate change targets, renewables, and energy efficiency. Technology options are outlined on timelines from short to long term across diverse areas like wind, marine, biomass and other renewable technologies. R&D commitments and challenges are noted for the next generation of technologies. Four key development opportunities are identified around building technologies, offshore energy, bioenergy, and energy storage. An integrated approach is advocated to enable transformational change
This document provides information about BROAD, a Chinese company that manufactures non-electric chillers and combined heat and power (CHP) systems. It discusses BROAD's history and achievements, product lines, applications of CHP technology, and case studies of BROAD CHP installations around the world. The case studies describe how BROAD systems utilize waste heat from on-site power generation to provide cooling and heating in an efficient manner, reducing energy costs and carbon emissions significantly compared to conventional systems.
The energy-saving audit project in Malaysia aimed to implement advanced energy-saving technologies from Japanese companies at selected model companies in Malaysia to help reduce energy costs and carbon emissions, with the project selecting 2-3 large processed food or beverage companies to conduct free audits and provide recommendations, and requesting MGTC's help in recommending model companies and linking the project to Malaysia's Green Technology Financing Scheme.
2012 Reenergize the Americas 1A: Reinhard PeterReenergize
This document discusses renewable energy solutions from Solarzentrum North America and presents information on their photovoltaic and solar thermal products and technologies. It highlights their hybrid PV-Therm module, which combines a solar photovoltaic panel and solar thermal collector into one unit to provide both electricity and heated water. The PV-Therm module has received certification from TUV Rheinland confirming it meets international safety and quality standards. Potential applications of the PV-Therm technology include water heating for pools, hotels, schools, and more.
This document discusses high quality LED flood lights that can save energy and money. It describes two LED flood light models - the LFL16-225TG and LFL15-290TG. The lights offer benefits like high brightness of 100 lumens per watt, a long lifespan of up to 50,000 hours, an IP65 rating for outdoor use, and energy savings of 50-70% compared to traditional lamps. They are suitable for uses like factories, gyms, and outdoor lighting.
The document discusses Thermax's Renewable Energy Growth Unit which provides turnkey cooling and heating solutions utilizing solar energy. The unit aims to be a pioneering player in developing affordable solar energy solutions. It has manufacturing facilities in Pune and has implemented several demonstration projects across India integrating solar thermal technology with heating and cooling applications for customers in industries like hotels, automotive, and research. The document outlines Thermax's product offerings and technology details, and provides descriptions of three solar thermal projects for cooling applications in Chennai, Gurgaon, and Pune.
Invest in NI - Olive Hill - CBI NI Annual Energy ForumAJCBI
This document summarizes a forum on annual energy hosted by CBI NI. It discusses evidence of climate change and mounting evidence from sources like NREL. It outlines state renewable portfolio standards and headlines projecting massive investments needed in energy infrastructure. It explores opportunities in growing renewable energy markets and Invest NI's interests in supporting climate change targets, renewables, and energy efficiency. Technology options are outlined on timelines from short to long term across diverse areas like wind, marine, biomass and other renewable technologies. R&D commitments and challenges are noted for the next generation of technologies. Four key development opportunities are identified around building technologies, offshore energy, bioenergy, and energy storage. An integrated approach is advocated to enable transformational change
This document provides an overview of biomass heating systems and considerations for biomass heating project analysis. It discusses biomass heating system components, peak versus base load systems, district heating systems, biomass fuels, examples of system costs, project considerations, and the RETScreen biomass heating project model. The key information presented includes the components and operation of biomass heating systems, advantages of district heating systems, important biomass fuel characteristics and considerations, and a tool for analyzing the energy production, costs and emissions of biomass heating projects.
This document provides tips for saving energy and money at home. It recommends conducting a home energy audit to identify areas of high energy use and suggests insulating attics, walls, crawl spaces, and basements according to DOE recommendations. Installing proper insulation and sealing air leaks throughout the entire home is identified as one of the most cost-effective ways to reduce energy waste and lower utility bills.
MST and Zenith Solar develop concentrated photovoltaic systems to efficiently generate solar electricity. Agam Energy develops highly efficient engine and HVAC technologies, including an engine that uses 1/5 the fuel and emits 1/10 the pollution of conventional engines. Bitum is a leading Israeli manufacturer of sealing and insulating products that has developed environmentally friendly construction materials.
Mitsubishi Electric offers efficient, individual room heating and cooling systems that provide precise temperature control without ductwork. Their systems use innovative INVERTER technology and advanced filters to provide comfortable, clean air while reducing energy costs compared to traditional systems. Customers can enjoy customized comfort in different rooms through flexible installation options.
This document provides an overview of the ZED Woods apartment complex, highlighting its green and sustainable features. It is India's first Platinum-rated residential building under the Indian green Business Council rating system. Some key points:
1) ZED Woods has expansive landscaped areas that provide fresh air and privacy while reducing heat. It is one of the highest rated green buildings in the world.
2) The development utilizes sustainable materials and technologies to minimize energy and water usage and rely less on municipal infrastructure.
3) Residents benefit from many amenities while living in an environmentally-friendly community that supports health, comfort and green living.
The Exorg Group introduces itself as an upcoming company in South India's market established in 2012 in Kerala. It provides innovative solar energy and energy efficient products like solar power plants, solar water heaters, LED lights, and voltage stabilizers. These products aim to provide uninterrupted power supply, reduce electricity bills and carbon footprint, and save nature.
Quantum total light management provides three key benefits:
1) It improves comfort and productivity in buildings while saving up to 70% on energy costs through automatically managing electric lighting and daylight.
2) Specific examples show it saves over $315,000 per year for the New York Times building through precisely controlling 1,500 lighting fixtures and 15,000 shades.
3) It uses occupancy sensors, daylight sensors, time scheduling, and manual controls to optimize light levels based on occupancy and daylight availability, reducing energy usage by typically 60% compared to uncontrolled lighting.
The document summarizes Daewoo Enertec's electric floor heating system. It describes how the system provides a healthy and energy efficient heating alternative to traditional gas or oil heating. The floor heating system uses electric cables under floors to circulate heat and can reduce utility costs compared to other styles of western heating. Installing the system is described as easy and it allows homeowners to enjoy warm floors and a cozy environment.
This document describes Emerald Villas, luxury homes located in Thessaloniki, Greece. The homes feature exquisite architecture on private land overlooking Thermaikos Bay. At 850 square meters with over 2,000 square meters of land, each home provides modern amenities and state-of-the-art technology for comfort and convenience including smart home automation, multimedia systems, and eco-friendly energy features like solar panels and a heat pump. Security systems ensure privacy and safety at the high-end residences.
LED lights are more efficient, durable and longer lasting than incandescent and CFL lights. LEDs use semiconductors to produce light from electricity in an efficient manner, producing little heat. They come in different colors and white light is produced by mixing colors or using phosphor coatings. LED lights use less power, last 50,000 hours on average compared to 1,200 hours for incandescents, and have lower operating costs. They are more durable and resistant to humidity and temperature changes. LED lighting provides environmental benefits over other lights by reducing greenhouse gas emissions and containing no mercury.
ITI Energy has developed advanced gasification technology and wants to build an energy plant. The plant will use municipal solid waste as fuel and include mechanical biological treatment to produce pellets for gasification. The plant will generate electricity, heat and ash for construction materials. Key activities over 5 weeks include selecting equipment, designing site layout and logistics, finalizing building designs, and finishing tasks.
The document summarizes Daewoo Enertec's electric floor heating system. It discusses how the system provides warm floors using electric cables or films instead of a boiler, saving on oil and gas costs. The system is easy to install, provides comfort and warmth, and allows homeowners to enjoy reduced utility bills through maximized energy efficiency. Daewoo Enertec guarantees their heating systems meet high standards.
This energy efficient home utilizes various appliances and design features to minimize energy usage. It has 10 rooms, venetian blinds for air flow control, and energy efficient LED lights, appliances, and electronics that operate at far less wattage than regular items. A daily schedule and power limitations help ensure overages do not exceed allotments.
Located at Panorama Thessaloniki Greece
Its really designed as a place you choose to house your world .
It is one of the most impotant thinks you will ever do for your self and should nean nothink but excellence
This is exactly we build for you
Total of 850 m2 with over than 2000m2 of land ,including private gardens ,parking lots and magnificent pool area
Start 2010 end 2012
2011 Passive House Conference, Synergy Case StudyTE Studio
High-performance is inherently linked to higher first-day cost. Most assume that it only exists at the top of the market. Affordability is often confused with cheap upfront cost. The two present a seemingly irreconcilable conundrum.
TE Studio’s approach defines affordability as something that is financially sustainable over a given period of time. Within this paradigm, first-day costs become a line item on a laundry list of lifecycle cost an owner is typically faced with. The Synergy case study aims to clarify the difference between first-day cost and total cost of ownership, thus redefining affordability and the impact of high-performance design on sustainable and financially viable structures in cold climates (Climate Zone 6).
Synergy is a highly energy efficient, durable and flexible compact home designed as a conversation starter which aims to make high performance accessible to a broad section of owners and developers. Entirely designed without client input and in our free time, Synergy is TE Studio’s testbed for affordability as well as high-performance assemblies and systems. Synergy has not been built but is currently being considered by different entities for projects in 2012.
The slideshow contains a lot of full-screen images but no subtitles, therefore omitting some of the information which would have been given verbally during the presentation.
New Brochure - Be Inspired with EcoSmart Fire.
Available to ship now, the new 2011 "Be Inspired with EcoSmart Fire" brochure features the new additions from the summer launch, includes all new imagery and an updated style.
Solar lighting provides a cost-effective alternative to grid-connected lighting for pathways and trails. Solar lights can be installed at a lower cost than trenching, wiring, and connecting to the electrical grid. They also avoid environmental impacts from installing underground infrastructure. Solar lights are powered by the sun and produce no greenhouse gases. They provide safety and security for trails at night without requiring electrical service or equipment.
The document describes a thermal energy storage system for grid-scale energy storage using graphite. The system, called KST, captures excess electricity from renewables or base load energy and stores it as thermal energy in graphite. The graphite and inert gas are enclosed safely and can store thermal energy effectively for extended periods with low loss. This allows the stored energy to be discharged later to meet peak energy demands. The system has a higher energy density than batteries, operates continuously for 6+ hours, improves efficiency of power plants, and reduces CO2 emissions by absorbing excess energy on the grid.
biomass boiler to steam turbine to power generationAbhishekBobade4
Biomass boilers represent a sustainable and environmentally friendly approach to heating and energy production. They utilize organic materials such as wood pellets, wood chips, agricultural residues, or even dedicated energy crops to generate heat or electricity. These systems have gained traction as a renewable energy solution, particularly in areas where biomass resources are abundant. In this comprehensive overview, we'll delve into the workings, benefits, challenges, and applications of biomass boilers.
### Introduction to Biomass Boilers
Biomass boilers function similarly to conventional boilers, but with a focus on utilizing biomass fuels instead of fossil fuels like coal, oil, or natural gas. The combustion of biomass materials within these boilers releases energy in the form of heat, which can be utilized for various heating purposes, including space heating, hot water production, or even industrial processes.
### Working Principles
The operation of a biomass boiler typically involves several key stages:
1. **Fuel Feed:** Biomass fuel, such as wood pellets or chips, is automatically or manually fed into the combustion chamber.
2. **Combustion:** Inside the combustion chamber, the biomass undergoes combustion, releasing heat energy.
3. **Heat Transfer:** Heat from the combustion process is transferred to water, steam, or air via heat exchangers.
4. **Heat Distribution:** The heated medium (water, steam, or air) is circulated through a distribution system to provide heat to the desired application.
5. **Emissions Control:** Advanced biomass boilers often incorporate emission control technologies to minimize pollutants released during combustion, ensuring environmental compliance.
### Types of Biomass Boilers
Biomass boilers come in various configurations, including:
1. **Stoker Boilers:** These feature a grate where biomass fuel is fed, allowing for continuous combustion.
2. **Fluidized Bed Boilers:** Utilize a bed of inert material (e.g., sand) to support and burn biomass fuel, offering high combustion efficiency.
3. **Pellet Boilers:** Specifically designed to burn wood pellets efficiently, offering automated feeding and combustion processes.
4. **Gasification Boilers:** Employ a two-stage process involving pyrolysis and gasification of biomass to produce a combustible gas that is then burned in the boiler.
#BiomassBoilers
#RenewableEnergy
#SustainableHeating
#GreenEnergy
#CleanHeat
#BiomassEnergy
#ClimateAction
#EnergyEfficiency
#Bioenergy
#CarbonNeutral
The present study focuses on the development of software (general mathematical optimization model) which has the following characteristics:
• It will be able to find the optimal combination of installed equipment (power & heat generation etc) in a Shopping Mall (micro-grid)
• With multi-objective to maximize the cost at the same time as minimizing the environmental impacts (i.e. CO2 emissions).
• To date, this tool is scarce to the industry (similar to DER-CAM, Homer).
The document discusses cogeneration and waste heat recovery. Cogeneration, or combined heat and power (CHP), simultaneously generates electricity and useful heat. Trigeneration adds cooling to CHP. Cogeneration improves efficiency and reduces emissions and costs. Waste heat recovery units transfer heat from high-temperature processes to improve efficiency. Common applications of waste heat recovery include preheating, steam generation, and power generation. Cogeneration offers economic and environmental benefits over conventional power generation.
This document provides an overview of biomass heating systems and considerations for biomass heating project analysis. It discusses biomass heating system components, peak versus base load systems, district heating systems, biomass fuels, examples of system costs, project considerations, and the RETScreen biomass heating project model. The key information presented includes the components and operation of biomass heating systems, advantages of district heating systems, important biomass fuel characteristics and considerations, and a tool for analyzing the energy production, costs and emissions of biomass heating projects.
This document provides tips for saving energy and money at home. It recommends conducting a home energy audit to identify areas of high energy use and suggests insulating attics, walls, crawl spaces, and basements according to DOE recommendations. Installing proper insulation and sealing air leaks throughout the entire home is identified as one of the most cost-effective ways to reduce energy waste and lower utility bills.
MST and Zenith Solar develop concentrated photovoltaic systems to efficiently generate solar electricity. Agam Energy develops highly efficient engine and HVAC technologies, including an engine that uses 1/5 the fuel and emits 1/10 the pollution of conventional engines. Bitum is a leading Israeli manufacturer of sealing and insulating products that has developed environmentally friendly construction materials.
Mitsubishi Electric offers efficient, individual room heating and cooling systems that provide precise temperature control without ductwork. Their systems use innovative INVERTER technology and advanced filters to provide comfortable, clean air while reducing energy costs compared to traditional systems. Customers can enjoy customized comfort in different rooms through flexible installation options.
This document provides an overview of the ZED Woods apartment complex, highlighting its green and sustainable features. It is India's first Platinum-rated residential building under the Indian green Business Council rating system. Some key points:
1) ZED Woods has expansive landscaped areas that provide fresh air and privacy while reducing heat. It is one of the highest rated green buildings in the world.
2) The development utilizes sustainable materials and technologies to minimize energy and water usage and rely less on municipal infrastructure.
3) Residents benefit from many amenities while living in an environmentally-friendly community that supports health, comfort and green living.
The Exorg Group introduces itself as an upcoming company in South India's market established in 2012 in Kerala. It provides innovative solar energy and energy efficient products like solar power plants, solar water heaters, LED lights, and voltage stabilizers. These products aim to provide uninterrupted power supply, reduce electricity bills and carbon footprint, and save nature.
Quantum total light management provides three key benefits:
1) It improves comfort and productivity in buildings while saving up to 70% on energy costs through automatically managing electric lighting and daylight.
2) Specific examples show it saves over $315,000 per year for the New York Times building through precisely controlling 1,500 lighting fixtures and 15,000 shades.
3) It uses occupancy sensors, daylight sensors, time scheduling, and manual controls to optimize light levels based on occupancy and daylight availability, reducing energy usage by typically 60% compared to uncontrolled lighting.
The document summarizes Daewoo Enertec's electric floor heating system. It describes how the system provides a healthy and energy efficient heating alternative to traditional gas or oil heating. The floor heating system uses electric cables under floors to circulate heat and can reduce utility costs compared to other styles of western heating. Installing the system is described as easy and it allows homeowners to enjoy warm floors and a cozy environment.
This document describes Emerald Villas, luxury homes located in Thessaloniki, Greece. The homes feature exquisite architecture on private land overlooking Thermaikos Bay. At 850 square meters with over 2,000 square meters of land, each home provides modern amenities and state-of-the-art technology for comfort and convenience including smart home automation, multimedia systems, and eco-friendly energy features like solar panels and a heat pump. Security systems ensure privacy and safety at the high-end residences.
LED lights are more efficient, durable and longer lasting than incandescent and CFL lights. LEDs use semiconductors to produce light from electricity in an efficient manner, producing little heat. They come in different colors and white light is produced by mixing colors or using phosphor coatings. LED lights use less power, last 50,000 hours on average compared to 1,200 hours for incandescents, and have lower operating costs. They are more durable and resistant to humidity and temperature changes. LED lighting provides environmental benefits over other lights by reducing greenhouse gas emissions and containing no mercury.
ITI Energy has developed advanced gasification technology and wants to build an energy plant. The plant will use municipal solid waste as fuel and include mechanical biological treatment to produce pellets for gasification. The plant will generate electricity, heat and ash for construction materials. Key activities over 5 weeks include selecting equipment, designing site layout and logistics, finalizing building designs, and finishing tasks.
The document summarizes Daewoo Enertec's electric floor heating system. It discusses how the system provides warm floors using electric cables or films instead of a boiler, saving on oil and gas costs. The system is easy to install, provides comfort and warmth, and allows homeowners to enjoy reduced utility bills through maximized energy efficiency. Daewoo Enertec guarantees their heating systems meet high standards.
This energy efficient home utilizes various appliances and design features to minimize energy usage. It has 10 rooms, venetian blinds for air flow control, and energy efficient LED lights, appliances, and electronics that operate at far less wattage than regular items. A daily schedule and power limitations help ensure overages do not exceed allotments.
Located at Panorama Thessaloniki Greece
Its really designed as a place you choose to house your world .
It is one of the most impotant thinks you will ever do for your self and should nean nothink but excellence
This is exactly we build for you
Total of 850 m2 with over than 2000m2 of land ,including private gardens ,parking lots and magnificent pool area
Start 2010 end 2012
2011 Passive House Conference, Synergy Case StudyTE Studio
High-performance is inherently linked to higher first-day cost. Most assume that it only exists at the top of the market. Affordability is often confused with cheap upfront cost. The two present a seemingly irreconcilable conundrum.
TE Studio’s approach defines affordability as something that is financially sustainable over a given period of time. Within this paradigm, first-day costs become a line item on a laundry list of lifecycle cost an owner is typically faced with. The Synergy case study aims to clarify the difference between first-day cost and total cost of ownership, thus redefining affordability and the impact of high-performance design on sustainable and financially viable structures in cold climates (Climate Zone 6).
Synergy is a highly energy efficient, durable and flexible compact home designed as a conversation starter which aims to make high performance accessible to a broad section of owners and developers. Entirely designed without client input and in our free time, Synergy is TE Studio’s testbed for affordability as well as high-performance assemblies and systems. Synergy has not been built but is currently being considered by different entities for projects in 2012.
The slideshow contains a lot of full-screen images but no subtitles, therefore omitting some of the information which would have been given verbally during the presentation.
New Brochure - Be Inspired with EcoSmart Fire.
Available to ship now, the new 2011 "Be Inspired with EcoSmart Fire" brochure features the new additions from the summer launch, includes all new imagery and an updated style.
Solar lighting provides a cost-effective alternative to grid-connected lighting for pathways and trails. Solar lights can be installed at a lower cost than trenching, wiring, and connecting to the electrical grid. They also avoid environmental impacts from installing underground infrastructure. Solar lights are powered by the sun and produce no greenhouse gases. They provide safety and security for trails at night without requiring electrical service or equipment.
The document describes a thermal energy storage system for grid-scale energy storage using graphite. The system, called KST, captures excess electricity from renewables or base load energy and stores it as thermal energy in graphite. The graphite and inert gas are enclosed safely and can store thermal energy effectively for extended periods with low loss. This allows the stored energy to be discharged later to meet peak energy demands. The system has a higher energy density than batteries, operates continuously for 6+ hours, improves efficiency of power plants, and reduces CO2 emissions by absorbing excess energy on the grid.
biomass boiler to steam turbine to power generationAbhishekBobade4
Biomass boilers represent a sustainable and environmentally friendly approach to heating and energy production. They utilize organic materials such as wood pellets, wood chips, agricultural residues, or even dedicated energy crops to generate heat or electricity. These systems have gained traction as a renewable energy solution, particularly in areas where biomass resources are abundant. In this comprehensive overview, we'll delve into the workings, benefits, challenges, and applications of biomass boilers.
### Introduction to Biomass Boilers
Biomass boilers function similarly to conventional boilers, but with a focus on utilizing biomass fuels instead of fossil fuels like coal, oil, or natural gas. The combustion of biomass materials within these boilers releases energy in the form of heat, which can be utilized for various heating purposes, including space heating, hot water production, or even industrial processes.
### Working Principles
The operation of a biomass boiler typically involves several key stages:
1. **Fuel Feed:** Biomass fuel, such as wood pellets or chips, is automatically or manually fed into the combustion chamber.
2. **Combustion:** Inside the combustion chamber, the biomass undergoes combustion, releasing heat energy.
3. **Heat Transfer:** Heat from the combustion process is transferred to water, steam, or air via heat exchangers.
4. **Heat Distribution:** The heated medium (water, steam, or air) is circulated through a distribution system to provide heat to the desired application.
5. **Emissions Control:** Advanced biomass boilers often incorporate emission control technologies to minimize pollutants released during combustion, ensuring environmental compliance.
### Types of Biomass Boilers
Biomass boilers come in various configurations, including:
1. **Stoker Boilers:** These feature a grate where biomass fuel is fed, allowing for continuous combustion.
2. **Fluidized Bed Boilers:** Utilize a bed of inert material (e.g., sand) to support and burn biomass fuel, offering high combustion efficiency.
3. **Pellet Boilers:** Specifically designed to burn wood pellets efficiently, offering automated feeding and combustion processes.
4. **Gasification Boilers:** Employ a two-stage process involving pyrolysis and gasification of biomass to produce a combustible gas that is then burned in the boiler.
#BiomassBoilers
#RenewableEnergy
#SustainableHeating
#GreenEnergy
#CleanHeat
#BiomassEnergy
#ClimateAction
#EnergyEfficiency
#Bioenergy
#CarbonNeutral
The present study focuses on the development of software (general mathematical optimization model) which has the following characteristics:
• It will be able to find the optimal combination of installed equipment (power & heat generation etc) in a Shopping Mall (micro-grid)
• With multi-objective to maximize the cost at the same time as minimizing the environmental impacts (i.e. CO2 emissions).
• To date, this tool is scarce to the industry (similar to DER-CAM, Homer).
The document discusses cogeneration and waste heat recovery. Cogeneration, or combined heat and power (CHP), simultaneously generates electricity and useful heat. Trigeneration adds cooling to CHP. Cogeneration improves efficiency and reduces emissions and costs. Waste heat recovery units transfer heat from high-temperature processes to improve efficiency. Common applications of waste heat recovery include preheating, steam generation, and power generation. Cogeneration offers economic and environmental benefits over conventional power generation.
An Introduction to Air to water, Air Source, Heat Pump SystemsSpaceAir
The document provides an introduction to air to water heat pump systems. It discusses how air to water heat pumps work, different system types and layouts, industry standards, case studies, and benefits of air to water heat pumps. It also covers topics like controls, installation requirements, efficiencies, and examples of outdoor/indoor unit installations.
Biomass can be converted into a gaseous fuel through gasification which can then be used to generate electricity. This is more cost effective than diesel generation and reduces carbon dioxide emissions since biomass absorbs the same amount of CO2 that it emits when burned. Biomass gasification systems convert solid biomass into a combustible gas mixture through a thermo-chemical process to fuel engines or generators. This provides a renewable source of power that saves on diesel costs while being more environmentally friendly than fossil fuels.
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.
The document describes Ingersoll Rand's 250 kW microturbines. The microturbines produce clean on-site energy using various waste fuels. They reduce operating costs and emissions while generating revenue. Key features include high efficiency, reliability, and an integrated heat recovery system. The microturbines can power facilities using landfill gas, biogas, or associated gases from oil and gas production. Ingersoll Rand offers global service and support to optimize performance of the microturbine systems.
The document summarizes recent trends in natural gas technologies for new buildings in France. There are three main trends: 1) more energy efficient natural gas technologies like natural gas engine heat pumps and absorption heat pumps; 2) hybrid technologies that combine different energy sources; and 3) decentralized power generation technologies. Specific technologies discussed include high modulation boilers, electric heat pumps added to condensing boilers, solar water heaters combined with natural gas boilers, and natural gas micro-CHP systems. Barriers and future developments are mentioned for each technology.
This document discusses sustainable energy and power sources. It defines renewable energy as energy from natural resources that are replenished within a human lifetime without long-term environmental damage. The major renewable resources described are solar, thermal, wind, tidal, wave, hydroelectric, biomass and geothermal energy. It then provides details on each type of energy source, including their advantages and disadvantages. Energy efficiency technologies are also discussed to improve energy usage.
A one day symposium on zero/low carbon sustainable homes took place at The University of Nottingham on the 24th October, 2012. The event offered professionals within the construction industry a unique opportunity to gain added and significant insight into the innovations, policies and legislation which are driving the construction of zero/low carbon energy efficient homes both here in the UK and elsewhere in Europe. It explored solutions to sustainability issues “beyond” the zero carbon agenda. BZCH followed on from the successful ‘Towards Zero Carbon Housing’ symposium the University hosted in 2007. This event is part of the Europe Wide Ten Act10n project which is supported by the European Commission Intelligent Energy Europe.
UTILISING CAPTURED CO₂ TO PRODUCE RENEWABLE METHANEiQHub
Electrochaea has developed a 2-step system to convert carbon dioxide and renewable hydrogen into methane using proprietary archaea biocatalysts. The system is scalable and can utilize various carbon dioxide sources like industrial emissions or landfill gas. The archaea convert every molecule of carbon dioxide into methane without using fossil fuels. Electrochaea has successfully piloted the technology at scales up to 50 Nm3/h and is working to further commercialize the system to provide renewable energy storage and carbon reuse through methane injection into gas pipelines. A 100 MWe plant could mitigate emissions equivalent to 5.9 million trees annually and power the equivalent of 4,000 natural gas vehicles.
UTILISING CAPTURED CO₂ TO PRODUCE RENEWABLE METHANEiQHub
Electrochaea has developed a 2-step system to convert carbon dioxide and renewable hydrogen into methane using proprietary archaea biocatalysts. The system is scalable and can utilize various carbon dioxide sources like industrial emissions or landfill gas. The archaea convert every molecule of carbon dioxide into methane without using fossil fuels. Electrochaea has successfully piloted the technology at scales up to 50 Nm3/h and is working to further commercialize the system to provide renewable energy storage and carbon reuse through methane injection into gas pipelines. A 100 MWe plant could mitigate emissions equivalent to 5.9 million trees annually and power the equivalent of 4,000 natural gas vehicles.
Cogeneration or Combined Heat and Power (CHP) is the combined generation of heat and power. It is not a single technology, but an integrated energy system. Cogeneration first involves producing power from a specific fuel source, such as natural gas, biomass, coal, or oil. During fuel combustion, Cogeneration captures the excess heat which would have otherwise been wasted.
The captured heat can be used to boil water, create steam, heat buildings, etc. For instance, in the oil sands, steam is required to produce bitumen. By using Cogeneration, energy companies can simultaneously produce steam for production and electricity on site. By minimizing waste, Cogeneration plants generally convert 75-80% of the fuel source into usable energy, in comparison with conventional systems which only covert about 45% When the heat captured is used to produce electricity, the process is referred to as Combined cycle.
Cogeneration has multiple economic and environmental benefits. By reducing the amount of fuel needed to generate electricity and heat, companies that use Cogeneration increase self-sufficiency, decrease costs and reduce greenhouse gas emissions and pollutants.
Globally, Cogeneration is becoming more widely adopted for meeting heat and electricity needs. Cogeneration technologies provide over 11% of electricity needs in Europe. China and India are expected to increase power production through Cogeneration by 28% before 2030. Cost-efficiency improvements and demand for climate change mitigation will increase the adoption of Cogeneration.
Turtle Turbines is the global Manufacturer of Steam Turbines in India. For more Information please visit on https://turtleturbines.com
AD ENER-G designs, installs, finances, and operates anaerobic digestion systems that convert organic waste into biogas. As a one-stop-shop, they handle all aspects of developing an anaerobic digestion facility for clients. The biogas produced is used to fuel combined heat and power (CHP) units that generate electricity and heat, providing a renewable energy solution while reducing waste disposal costs and environmental impacts for clients. AD ENER-G has over 20 years of experience delivering these anaerobic digestion and biogas energy systems.
System Layout and Applications
Low Mass vs High Mass
Radiant Panels
Fan Coils
Domestic Hot Water
Solar Thermal
Balance Point Strategies
Heat Pump Application Software
Mono-Valent
Mono-Energetic
Bi-Valent
Programming for Energy Savings with User Interface
Ankur Scientific Energy Technologies Pvt. Ltd. proposes using biomass gasification and distributed power generation to provide sustainable economic development for rural areas of India and Africa. The company focuses on implementing distributed power generation systems from 500 kWe to 2 MWe, connected to rural 11 kV grids, and smaller 10-kWe systems for individual village electrification. Biomass gasification is presented as an attractive technology for decentralized distributed generation that addresses issues of biomass resource management and distribution compared to larger centralized plants.
Ankur Scientific Energy Technologies Pvt. Ltd proposes using biomass gasification and distributed power generation to provide sustainable economic development for rural areas of India and Africa. The company focuses on implementing distributed power generation systems from 500kWe to 2MWe, connected to rural 11kV grids, and smaller 10kWe systems for village electrification. Biomass gasification is presented as an attractive decentralized energy technology that addresses issues of biomass resource management and distribution compared to larger centralized plants. Benefits include reliable power for rural areas, reduced transmission and distribution losses, local employment, and use of agricultural waste.
Conventional sources of energy (power generation) 01Abha Tripathi
The document discusses India's power system structure and conventional power sources. It notes that power is primarily owned by state electricity boards and generated through thermal, hydroelectric, nuclear and renewable sources. Thermal power makes up the largest portion at 65% of total installed capacity, with coal being the primary fuel. Key components and processes of thermal, hydroelectric and nuclear power plants are described. Other conventional power sources like gas turbines and diesel engines are also briefly outlined.
ENER·G designs, installs, and operates biogas combined heat and power systems for digestion plants. They provide turnkey biogas CHP projects utilizing the methane-rich biogas produced from anaerobic digestion to run generator engines that produce electricity and heat. As a specialist in biogas CHP, ENER·G offers feasibility studies, system design, manufacturing, installation, operation, and maintenance services. Their solutions maximize the economic and environmental benefits of utilizing biogas for renewable energy generation.
The document discusses various issues facing the global energy system, including oil depletion, high oil prices, global warming, energy security, and air quality. It then examines Italy's energy policy and mix, which relies heavily on oil and gas imports. The policy focuses on market liberalization, diversifying energy sources, increasing energy efficiency, and environmental protection. Various renewable energy technologies are also summarized, like hydropower, geothermal, biomass, wind power.
1. Puttin g t h e Pi e c e s T o g e t h e r
H e l p i n g S o l v e t h e E n v ir o n m e n t a l P u z z l e
2. Developer of Sustainable, Environmentally Friendly Technologies
Turning Waste Heat Into Electricity
Verdicorp is helping solve the world's energy
problems. We produce electricity from heat that
would otherwise be wasted into the
atmosphere, contributing to global warming.
At the heart of our Verdi~Sys technology is
innovations that have received international
awards for energy efficiency and creativity 6
out of the last 7 years, including the prestigious
Environmental Protection Agency (EPA)
2004 Climate Protection Award.
The Verdi~Sys, utilizing multiple award winning
technologies, uses low grade heat sources to
make electricity with:
! No fuel requirement
! Zero additional CO2 emissions
Our technology features:
! Oil-free magnetic bearings
! High efficiency with one moving part
! Lightweight/vibration free/quiet
! Simple operation/easy maintenance
! Portability with small modular design
Verdi~Sys Turbo Expander
The Verdi~Sys is a Renewable Energy Power Plant
that is:
! Factory built
! Modular
! Portable
! Scalable systems from 30 kWe to 1 MWe
! Ideally sized to suit stationary power plants and
marine applications
! Compatible with Combined Heat and Power (CHP)
systems
! Dramatically improves diesel and gas engine
efficiencies
Modular Organic Rankine Cycle coupled with Verdi~Sys
3. The Verdi~Sys captures waste heat from various
sources including:
! Reciprocating and turbine engines
! Biomass boiler systems
! Landfill waste, wood chips and logging
residue
! Industrial boilers/process heat
! Geothermal
! Oil and gas
! Solar Thermal
The Turbo Expander which is in the Verdi~Sys uses
a high speed, high efficiency, variable speed
generator with a non-contact, magnetically levitated
permanent magnet rotor coupled to the custom
designed and optimized aerodynamic nozzle and
impeller set.
The system’s overall efficiency has been maximized
by appropriate selection of:
! effective heat exchangers
! ancillary pumps and
! fans with minimum parasitic losses
The ORC System may be thought of as a refrigeration
chiller running “backwards”. Instead of consuming
electrical energy to remove heat, the ORC System
consumes heat to produce electrical energy. It does so in
a manner similar to conventional steam turbines, which
require high temperature heat to boil the water into high
pressure steam. By replacing water with heavy, organic
refrigerant fluids that boil at lower temperatures, the ORC
System, operating in a closed loop, is able to work with
low quality, lower temperature heat energy to produce
electricity in a compact footprint.
Organic Rankine Cycle (ORC) System
4. Developer of Sustainable, Environmentally Friendly Technologies
Frictionless, oil-free
Technology
Proven Technologies
At the heart of all Verdicorp products is the technology used in the
Danfoss Turbocor Refrigeration Compressor, invented by Ron
Conry, also the founder of Verdicorp .
With over 20,000 of these compressors operating in over 40
countries, and 250 million hours of operation, and with zero
mechanical friction, these technologies have changed an industry,
and now are being applied to a new range of products that will
revolutionize energy needs.
Awards: Verdi~Sys:
! 2003 ASHRAE (AHR) Innovation Award for Energy, Reduces cost of energy to the customer by converting waste heat
energy into electricity.
! 2004 EPA’s “Climate Protection Award”
! 2005 Natural Resources Canada Innovation Award for Energy In areas with high electric rates, the Verdi~Sys can present a
! 2007 Frost and Sullivan Award for Innovation viable and substantial return. Dependent on location and
application, federal, state and utility incentives may apply,
! 2008 Institute of Refrigeration – J&E Hall Gold Medal (London) for furthering the return on investment.
“Innovation, Application and Advancement of Refrigeration"
! 2009 James Harrison Medal, the most distinguished award
presented by the Australian Institute of Refrigeration, Air-
conditioning, and Heating (AIRAH).
Contact Information:
Verdicorp Inc.
Main Office: New York Office Melbourne Office
4030 N. Monroe St #2, 284 Center for Science and Technology 144 Colchester Road,
Tallahassee Syracuse University, Bayswater North,
Florida 32303 Syracuse, New York 13244 Victoria, 3153 Australia
850-273-4126 315-450-6642 61 (0)3 9761-7433
Email: info@verdicorp.com www.verdicorp.com
Award Winning Technologies:
ASHRAE AHR 2003 Environmental Protection Agency Frost and Sullivan Award Natural Resources Canada Institute of Refrigeration (London) AIRAH Australia
2003 Innovation Award—Energy 2004 Climate Protection Award 2006 Technology Leadership Award 2005 Energy Innovation Award 2007 J&E Hall Gold Medal 2009 James Harrison Award