Next generation Waste Heat to Power plant seeks for investment.
About 50% of generated industrial energy is lost via waste heat streams. Our team developed next generation organic Rankine cycle power generation unit which converts 100 – 500 C° temperature heat into electrical energy with record efficiency – 28% and lowest installed costs on the market – 1500 USD per 1 kW. Our team seeks for investment which will be matched by Skolkovo Foundation grant.
Solar-Organic Rankine Cycle. Basic idea of Organic-Rankine cycle. Comparison of various working fluid for a Solar ORC based on the tests conducted on a simple ORC system of 2KW capacity operating on a solar water heater (water temp. 90C) as a source of heat. Comparison made on the basis of efficiency, pressure ratio, turbine exit volume flow rate, mass flow rate, heat input, Environmental considerations, toxicity, flammability.
Make power out of your waste heat - Organic Rankine Cycle Sindhu Maiyya
How to utilize the waste heat generated by pretty much all the processes we engage in. An idea to convert the waste heat into useful power.
A presentation give in the finals of Schenider Electric Go Green in the City Challenge -2012
OPTIMIZATION OF AN ORGANIC RANKINE CYCLE IN ENERGY RECOVERY FROM EXHAUST GASE...IAEME Publication
This paper describes thermal analysis and optimization of an organic Rankine cycle (ORC) integrated with a power generating stationary diesel engine. A simple ORC, with a regenerator, is considered here as a bottoming cycle for producing additional power by recovering waste energy
from the exhaust gases of the engine. Taking evaporation pressure and condensation temperature as two decision variables, a genetic algorithm is used for simultaneously maximizing three objective functions - exergy efficiency, thermal efficiency, and specific network.
Solar-Organic Rankine Cycle. Basic idea of Organic-Rankine cycle. Comparison of various working fluid for a Solar ORC based on the tests conducted on a simple ORC system of 2KW capacity operating on a solar water heater (water temp. 90C) as a source of heat. Comparison made on the basis of efficiency, pressure ratio, turbine exit volume flow rate, mass flow rate, heat input, Environmental considerations, toxicity, flammability.
Make power out of your waste heat - Organic Rankine Cycle Sindhu Maiyya
How to utilize the waste heat generated by pretty much all the processes we engage in. An idea to convert the waste heat into useful power.
A presentation give in the finals of Schenider Electric Go Green in the City Challenge -2012
OPTIMIZATION OF AN ORGANIC RANKINE CYCLE IN ENERGY RECOVERY FROM EXHAUST GASE...IAEME Publication
This paper describes thermal analysis and optimization of an organic Rankine cycle (ORC) integrated with a power generating stationary diesel engine. A simple ORC, with a regenerator, is considered here as a bottoming cycle for producing additional power by recovering waste energy
from the exhaust gases of the engine. Taking evaporation pressure and condensation temperature as two decision variables, a genetic algorithm is used for simultaneously maximizing three objective functions - exergy efficiency, thermal efficiency, and specific network.
Fossil fuel consumption in the recent years has been increasing and the burning of fossil fuel is said to be a major contributor towards global warming, acid rains, air, water and soil pollution, forest devastation and radioactive substances emissions. Besides the environment, the fossil fuel prices fluctuate considerably, usually going up and being very expensive in many countries.
Most importantly, the quantity of fossil fuels, like petroleum,natural gas, and coal can only decrease since they are non-renewable resources.
As a result many countries have been investing billions of dollars in new technologies and demand for sophisticated power supply options is greatly increased.
In a typical developed country as much as 40% of total fuel consumption is used for industrial and domestic space heating and process heating. Of this around one third is wasted.
Currently recovering low temperature heat which includes Industrial waste heat, geothermal energy, solar heat, biomass and so on could be a very critical and sustainable way to solve energy crisis. Utilising waste heats along with attempts for the use of renewable sources as low grade thermal heat has motivated us to develop a project based on ORC.
ORC ElectraTherm Green Machine - waste heat to power, Power generationRado Irgl
ElectraTherm's Green Machine converts low temperature water flows into fuel-free, emission-free electric power. The Green Machine output range is from 20 kWe to 65kWe, based on temperatures and flows.
The Green Machine, is an Organic Rankine Cycle (ORC) based heat-to-power generating system. It captures waste energy from small, distributed hot water sources such as stationary engine jacket water, biomass boilers, solar thermal and co-produced (or geothermal) fluids to generate 25 - 65kWe of fuel-free, emissions-free electricity. Factory assembled and tested, it is skid mounted and available as a single unit or in multiples to match the available heat.
The patented twin screw expander and ElectraTherm’s ORC system specifically targets low temperature and abundant resources. Our current upper limit for input to the machine is 240°F/116°C. However, if there is potential to reduce the hot water source via a secondary loop, the Green Machine can be utilized.
A biogas plant that uses the Green Machine converts excess engine heat
into valuable electricity and reduces existing on-site electrical cooling loads
for the engine. The Green Machine increases biogas plant efficiency and lowers fuel requirements for the biogas engine. This means increased revenue
for the biogas plant.
http://www.cogenera.si/
one of the renewable energy resources project that help me lot to my carrier in research field : this slide is for the prototype model that i design actual full scale size may be bit of different from my calculations and data's
Waste heat recovery, co geration and tri-generationAmol Kokare
Diploma in Mechanical Engg.
Babasaheb Phadtare Polytechnic, kalamb-walchandnagar
Sub- Power plant engineering
Unit-Waste heat recovery, co geration and tri-generation.
By- Prof. Kokare Amol Yashwant
Download Link (Copy URL):
https://sites.google.com/view/varunpratapsingh/teaching-engagements
Syllabus:
Availability and Irreversibility
Availability Function
Second Law Efficiencies
Work Potential Associated with Internal Energy
Waste Heat Recovery
Heat Losses – Quality vs. Quantity
Principle of Heat Recovery Units
Classification of WHRS on Temperature Range Bases
Commercial Viable Waste Heat Recovery Devices
Benefits of Waste Heat Recovery
Development of a Waste Heat Recovery System
Commercial Waste Heat Recovery Devices
West Heat Recovery Boiler (WHRB)
Recuperators- Regenerative, Ceramic, Regenerative Heat Exchanger
Thermal wheel/ Heat Wheel
Heat Pipe
Economiser
Feed Water
Heat Pump
Shell and Tube Heat Exchanger
Plate Heat Exchanger
Run-around coil
Direct Contact Heat Exchanger
Advantages and Limitations of WHRD’s
the water that reaches the surface is not hot enough to produce steam, it can still be used to produce electricity by feeding it into a Binary Power Plant. The hot water is fed into a heat exchanger. The heat from the water is absorbed by a liquid such as isopentane which boils at a lower temperature. The isopentane steam is used to drive turbines, producing electricity. The isopentane then condenses back to its liquid state and is used again.
Fossil fuel consumption in the recent years has been increasing and the burning of fossil fuel is said to be a major contributor towards global warming, acid rains, air, water and soil pollution, forest devastation and radioactive substances emissions. Besides the environment, the fossil fuel prices fluctuate considerably, usually going up and being very expensive in many countries.
Most importantly, the quantity of fossil fuels, like petroleum,natural gas, and coal can only decrease since they are non-renewable resources.
As a result many countries have been investing billions of dollars in new technologies and demand for sophisticated power supply options is greatly increased.
In a typical developed country as much as 40% of total fuel consumption is used for industrial and domestic space heating and process heating. Of this around one third is wasted.
Currently recovering low temperature heat which includes Industrial waste heat, geothermal energy, solar heat, biomass and so on could be a very critical and sustainable way to solve energy crisis. Utilising waste heats along with attempts for the use of renewable sources as low grade thermal heat has motivated us to develop a project based on ORC.
ORC ElectraTherm Green Machine - waste heat to power, Power generationRado Irgl
ElectraTherm's Green Machine converts low temperature water flows into fuel-free, emission-free electric power. The Green Machine output range is from 20 kWe to 65kWe, based on temperatures and flows.
The Green Machine, is an Organic Rankine Cycle (ORC) based heat-to-power generating system. It captures waste energy from small, distributed hot water sources such as stationary engine jacket water, biomass boilers, solar thermal and co-produced (or geothermal) fluids to generate 25 - 65kWe of fuel-free, emissions-free electricity. Factory assembled and tested, it is skid mounted and available as a single unit or in multiples to match the available heat.
The patented twin screw expander and ElectraTherm’s ORC system specifically targets low temperature and abundant resources. Our current upper limit for input to the machine is 240°F/116°C. However, if there is potential to reduce the hot water source via a secondary loop, the Green Machine can be utilized.
A biogas plant that uses the Green Machine converts excess engine heat
into valuable electricity and reduces existing on-site electrical cooling loads
for the engine. The Green Machine increases biogas plant efficiency and lowers fuel requirements for the biogas engine. This means increased revenue
for the biogas plant.
http://www.cogenera.si/
one of the renewable energy resources project that help me lot to my carrier in research field : this slide is for the prototype model that i design actual full scale size may be bit of different from my calculations and data's
Waste heat recovery, co geration and tri-generationAmol Kokare
Diploma in Mechanical Engg.
Babasaheb Phadtare Polytechnic, kalamb-walchandnagar
Sub- Power plant engineering
Unit-Waste heat recovery, co geration and tri-generation.
By- Prof. Kokare Amol Yashwant
Download Link (Copy URL):
https://sites.google.com/view/varunpratapsingh/teaching-engagements
Syllabus:
Availability and Irreversibility
Availability Function
Second Law Efficiencies
Work Potential Associated with Internal Energy
Waste Heat Recovery
Heat Losses – Quality vs. Quantity
Principle of Heat Recovery Units
Classification of WHRS on Temperature Range Bases
Commercial Viable Waste Heat Recovery Devices
Benefits of Waste Heat Recovery
Development of a Waste Heat Recovery System
Commercial Waste Heat Recovery Devices
West Heat Recovery Boiler (WHRB)
Recuperators- Regenerative, Ceramic, Regenerative Heat Exchanger
Thermal wheel/ Heat Wheel
Heat Pipe
Economiser
Feed Water
Heat Pump
Shell and Tube Heat Exchanger
Plate Heat Exchanger
Run-around coil
Direct Contact Heat Exchanger
Advantages and Limitations of WHRD’s
the water that reaches the surface is not hot enough to produce steam, it can still be used to produce electricity by feeding it into a Binary Power Plant. The hot water is fed into a heat exchanger. The heat from the water is absorbed by a liquid such as isopentane which boils at a lower temperature. The isopentane steam is used to drive turbines, producing electricity. The isopentane then condenses back to its liquid state and is used again.
Testing and Development of Power Generation from Exhaust Gas of Motor Bikeijtsrd
This project presents the investigation of power generation using the mixture of heat and thermo electric generators. A majority of thermal energy in two wheeler silencer is dissipated as waste heat to the environment. This waste heat may be utilized further for power generation. The related problems of worldwide warming and dwindling fuel supplies has led to improving the efficiency of any process being a priority. One method to boost the efficiency is to develop methods to utilize waste heat that is usually wasted. Two promising technologies that were found to be useful for this purpose were thermoelectric generators and warmth pipes. Subsequently, this venture included creation a seat type, verification of idea model of intensity creation by thermoelectric generators utilizing heat pipes and reenacted sight seeing. In recent years, heating and also the limitations in use of energy resources increase environmental problems with emissions. Additionally In industry, the greater part of the costs are a direct result of vitality both electrical and heat , work and materials. Yet, out of them vitality would identify with the sensibility of the expense or potential cost assets and so vitality the board will help in cost decrease. The possibilities of thermoelectric systems' contribution to "green" technologies, specifically for waste heat recovery from two wheeler silencer exhausting flue gases. It results into broad research on green advances creating power. As waste heat recovering techniques, like thermoelectric generator TEG is developed. Its implementation in automobile vehicles is administered in some ways. Tanveer Hussain | Kishore. N. Wagh "Testing and Development of Power Generation from Exhaust Gas of Motor Bike" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-4 , June 2020, URL: https://www.ijtsrd.com/papers/ijtsrd31025.pdf Paper Url :https://www.ijtsrd.com/engineering/mechanical-engineering/31025/testing-and-development-of-power-generation-from-exhaust-gas-of-motor-bike/tanveer-hussain
ETOGAS drives the commercialization of Power-to-Gas and is the market and technology leader. ETOGAS is the pioneer of Power-to-Gas (PtG). Power-to-Gas is a disruptive technology for building a smart energy ecosystem based on renewable sources. ETOGAS addresses three segments in global emerging markets: Renewable fuels, Industrial, Renewable Electricity. With three product segments based on ETOGAS technology,
we address five different customer benefits. ETOGAS offers a complete scope of services and a proprietary technology portfolio: water electrolysis and methanation technology as well as system integration including BoP components. Modular design is basis for all our products – ETOGAS electrolyzer is the central building block. ETOGAS acted as turnkey supplier in charge of design, installation and ramp-up of the
world’s largest industrial Power-to-SNG project to date. The Audi e-gas plant was designed and built by ETOGAS - and demonstrates that alkaline
electrolyzer technology can follow dynamic loads and provide balancing power. The 1.2 MW PtSNG plant with proprietary technology is based on modular building blocks, has a
cost-optimized BoP solution and is capable of directly using raw biogas as a CO2 source. Power-to-SNG product overview. In 2014, ETOGAS launched its proprietary Power-to-Hydrogen technology and has won the leading gas storage operator RAG as a reference customer. Power-to-Hydrogen (PtH2) product overview. Hydrogen-to-SNG turnkey plants can be used to upgrade low-caloric waste gases: First plant successfully commissioned. Hydrogen-to-SNG product overview.
ETOGAS - Smart energy conversion.
Promoting an EU Agenda for Electromagnetic Processing of MaterialsLeonardo ENERGY
Electromagnetic processing (EP) is an umbrella term for industrial process heating systems that use electricity instead of combustible energy carriers.
EP technologies use wavelengths in the electromagnetic spectrum to heat mediums instead of heating the air in a furnace by combusting fossil fuels.
Application is possible in manufacturing subsectors, including energy-intensive production of chemicals, paper, iron & steel as well as of glass, pottery & building material
EP technologies include:
Direct & indirect resistance heating
Infrared heating
Induction heating
Dielectric heating
Electric arc heating
Electron-beam heating
Combined, these 6 technologies provide a market potential to electrify about a third of fossil energy used in industry for process heating. In this short report developed by Ecofys, an agenda is proposed including 9 measures that could be used to promote EP technologies in the European Union.
CN300: A 300 kWe Turbogenerator for Heat to Power Applications; Generate Ren...Keith D. Patch
Global Cleantech Meetup 2013
Tuesday, November 12, 2013
Boston, MA
Organic Rankine Cycle (ORC) Heat-to-Power Systems are Ideally Suited for Heat to Power Conversion of Natural Heat Sources (Biomass, Geothermal, etc.) or Waste Heat Recovery to Renewable Electricity
CYCLE FOR THE CONVERSION OF LOW ENTHALPY THERMAL ENERGY INTO ELECTRICAL ENERGYToscana Open Research
The innovative system for the production of electricity is based on the use of fuel cells within a high-efficiency cycle that converts the thermal energy provided by "low" temperature (e.g. ~ 80 °C) and low enthalpy heat sources
Similar to Elgen Tech - next generation Waste Heat to Power plant (20)
PHP Frameworks: I want to break free (IPC Berlin 2024)Ralf Eggert
In this presentation, we examine the challenges and limitations of relying too heavily on PHP frameworks in web development. We discuss the history of PHP and its frameworks to understand how this dependence has evolved. The focus will be on providing concrete tips and strategies to reduce reliance on these frameworks, based on real-world examples and practical considerations. The goal is to equip developers with the skills and knowledge to create more flexible and future-proof web applications. We'll explore the importance of maintaining autonomy in a rapidly changing tech landscape and how to make informed decisions in PHP development.
This talk is aimed at encouraging a more independent approach to using PHP frameworks, moving towards a more flexible and future-proof approach to PHP development.
Builder.ai Founder Sachin Dev Duggal's Strategic Approach to Create an Innova...Ramesh Iyer
In today's fast-changing business world, Companies that adapt and embrace new ideas often need help to keep up with the competition. However, fostering a culture of innovation takes much work. It takes vision, leadership and willingness to take risks in the right proportion. Sachin Dev Duggal, co-founder of Builder.ai, has perfected the art of this balance, creating a company culture where creativity and growth are nurtured at each stage.
Elevating Tactical DDD Patterns Through Object CalisthenicsDorra BARTAGUIZ
After immersing yourself in the blue book and its red counterpart, attending DDD-focused conferences, and applying tactical patterns, you're left with a crucial question: How do I ensure my design is effective? Tactical patterns within Domain-Driven Design (DDD) serve as guiding principles for creating clear and manageable domain models. However, achieving success with these patterns requires additional guidance. Interestingly, we've observed that a set of constraints initially designed for training purposes remarkably aligns with effective pattern implementation, offering a more ‘mechanical’ approach. Let's explore together how Object Calisthenics can elevate the design of your tactical DDD patterns, offering concrete help for those venturing into DDD for the first time!
DevOps and Testing slides at DASA ConnectKari Kakkonen
My and Rik Marselis slides at 30.5.2024 DASA Connect conference. We discuss about what is testing, then what is agile testing and finally what is Testing in DevOps. Finally we had lovely workshop with the participants trying to find out different ways to think about quality and testing in different parts of the DevOps infinity loop.
GraphRAG is All You need? LLM & Knowledge GraphGuy Korland
Guy Korland, CEO and Co-founder of FalkorDB, will review two articles on the integration of language models with knowledge graphs.
1. Unifying Large Language Models and Knowledge Graphs: A Roadmap.
https://arxiv.org/abs/2306.08302
2. Microsoft Research's GraphRAG paper and a review paper on various uses of knowledge graphs:
https://www.microsoft.com/en-us/research/blog/graphrag-unlocking-llm-discovery-on-narrative-private-data/
Welocme to ViralQR, your best QR code generator.ViralQR
Welcome to ViralQR, your best QR code generator available on the market!
At ViralQR, we design static and dynamic QR codes. Our mission is to make business operations easier and customer engagement more powerful through the use of QR technology. Be it a small-scale business or a huge enterprise, our easy-to-use platform provides multiple choices that can be tailored according to your company's branding and marketing strategies.
Our Vision
We are here to make the process of creating QR codes easy and smooth, thus enhancing customer interaction and making business more fluid. We very strongly believe in the ability of QR codes to change the world for businesses in their interaction with customers and are set on making that technology accessible and usable far and wide.
Our Achievements
Ever since its inception, we have successfully served many clients by offering QR codes in their marketing, service delivery, and collection of feedback across various industries. Our platform has been recognized for its ease of use and amazing features, which helped a business to make QR codes.
Our Services
At ViralQR, here is a comprehensive suite of services that caters to your very needs:
Static QR Codes: Create free static QR codes. These QR codes are able to store significant information such as URLs, vCards, plain text, emails and SMS, Wi-Fi credentials, and Bitcoin addresses.
Dynamic QR codes: These also have all the advanced features but are subscription-based. They can directly link to PDF files, images, micro-landing pages, social accounts, review forms, business pages, and applications. In addition, they can be branded with CTAs, frames, patterns, colors, and logos to enhance your branding.
Pricing and Packages
Additionally, there is a 14-day free offer to ViralQR, which is an exceptional opportunity for new users to take a feel of this platform. One can easily subscribe from there and experience the full dynamic of using QR codes. The subscription plans are not only meant for business; they are priced very flexibly so that literally every business could afford to benefit from our service.
Why choose us?
ViralQR will provide services for marketing, advertising, catering, retail, and the like. The QR codes can be posted on fliers, packaging, merchandise, and banners, as well as to substitute for cash and cards in a restaurant or coffee shop. With QR codes integrated into your business, improve customer engagement and streamline operations.
Comprehensive Analytics
Subscribers of ViralQR receive detailed analytics and tracking tools in light of having a view of the core values of QR code performance. Our analytics dashboard shows aggregate views and unique views, as well as detailed information about each impression, including time, device, browser, and estimated location by city and country.
So, thank you for choosing ViralQR; we have an offer of nothing but the best in terms of QR code services to meet business diversity!
Encryption in Microsoft 365 - ExpertsLive Netherlands 2024Albert Hoitingh
In this session I delve into the encryption technology used in Microsoft 365 and Microsoft Purview. Including the concepts of Customer Key and Double Key Encryption.
Essentials of Automations: Optimizing FME Workflows with ParametersSafe Software
Are you looking to streamline your workflows and boost your projects’ efficiency? Do you find yourself searching for ways to add flexibility and control over your FME workflows? If so, you’re in the right place.
Join us for an insightful dive into the world of FME parameters, a critical element in optimizing workflow efficiency. This webinar marks the beginning of our three-part “Essentials of Automation” series. This first webinar is designed to equip you with the knowledge and skills to utilize parameters effectively: enhancing the flexibility, maintainability, and user control of your FME projects.
Here’s what you’ll gain:
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- Practical Applications in FME Form: Delve into key user parameter types including choice, connections, and file URLs. Allow users to control how a workflow runs, making your workflows more reusable. Learn to import values and deliver the best user experience for your workflows while enhancing accuracy.
- Optimization Strategies in FME Flow: Explore the creation and strategic deployment of parameters in FME Flow, including the use of deployment and geometry parameters, to maximize workflow efficiency.
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We’ll wrap up with a glimpse into future webinars, followed by a Q&A session to address your specific questions surrounding this topic.
Don’t miss this opportunity to elevate your FME expertise and drive your projects to new heights of efficiency.
UiPath Test Automation using UiPath Test Suite series, part 3DianaGray10
Welcome to UiPath Test Automation using UiPath Test Suite series part 3. In this session, we will cover desktop automation along with UI automation.
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Pradeep Chinnala, Senior Consultant Automation Developer @WonderBotz and UiPath MVP
Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
Key Trends Shaping the Future of Infrastructure.pdfCheryl Hung
Keynote at DIGIT West Expo, Glasgow on 29 May 2024.
Cheryl Hung, ochery.com
Sr Director, Infrastructure Ecosystem, Arm.
The key trends across hardware, cloud and open-source; exploring how these areas are likely to mature and develop over the short and long-term, and then considering how organisations can position themselves to adapt and thrive.
How world-class product teams are winning in the AI era by CEO and Founder, P...
Elgen Tech - next generation Waste Heat to Power plant
1. NEXT GENERATION
ORC POWER PLANT
FOR INDUSTRIAL WASTE
HEAT RECOVERY
Elgen Tech
ELGEN TECHNOLOGY | ELGENTECH.RU | INFO@ELGENTECH.RU
2. ORC for industrial waste
heat recovery
ADVANTAGES OF ORC TECHNOLOGY
Recovery of medium and low temperature heat < 600 t°c
Automated operation
Fast start up and shut down
Flexible placement, away from the heat source if required
Reduces plant energy consumption, and carbon footprint
PROBLEMS OF EXISTING ORC PLANTS
Second water circuit – high installation, operation and mainteneance costs
Fire hazardous and explosion hazardous working fluids
Low efficiency compared to steam cycle
The industrial sector accounts for 1/3 of the total energy being consumed. Due to inefficiency
around 20 to 50% of this energy becomes exhaust heat that could have been reused for "clean"
power generation employing waste heat recovery systems. The demand for waste heat recovery
is continuously growing globally under the rising commitment of the industry to reduce energy
consumption, operational costs and carbon emissions.
Organic Rankine Cycle (ORC) is a technology ideally suited for wide range of industrial processes
heat recovery. As opposed to steam heat recovery systems, ORC can give better efficiency for
lower temperature applications. However, existing market solutions have multiple limitations that
prevent the common use of ORC technology.
2ORC for industrial waste heat recoveryELGEN TECHNOLOGY | ELGENTECH.RU | INFO@ELGENTECH.RU
Existing ORC
plants have
high installed
costs and limited
usability. Working
fluid is often fire
and explosion
hazardous
3. Based on scientific research of Moscow Power Engineering University (MPEI) Elgen Technology team
introduced and patented next generation organic Rankine cycle power generation unit which converts
low and medium temperature heat into electrical energy with record market efficiency.
Elgen Technology – next generation
ORC heat to power plant
Pilot plant proved highest efficiency on the market - 28% (Against industry maximum - 19%) and
winning features:
Widest range of utilized heat on the market 80 – 550°C
Non combustible working fluid is safe for the people and planet
Reliably operates in outdoor temp from (- 40) to 50°С
High automation leads to minimum operating personnel
Modular design saves place and simplifies maintenance
Energy output of one unit, kW 100 - 3760
USA
100 - 3800
Italy
Utilized heat range, t°C 80 - 450 80 - 450 80 - 550
100 - 6500
Installed costs of 1 kW, USD 2000 - 2300 2000 - 2200 1500
Efficiency net, % 18.34 18.46 28
Russia
Elgen Tech
ESTIMATES FOR GAS
COMPRESSION PLANT
(GPA -16)
Pilot plant proved
highest
efficiency
and lowest installed
costs on the market
28%
3Elgen Technology – next generation ORC heat to power plantELGEN TECHNOLOGY | ELGENTECH.RU | INFO@ELGENTECH.RU
1500 USD/kW
4. The main components of Elgen ORC plant are:
HIGH FREQUENCY TURBINE: it’s the key component of the entire plant. The working fluid expands
in the turbine making he blades spin. Mechanical energy is then converted in electricity by a
generator directly coupled with the turbine shaft.
PLATE HEAT EXCHANGERS: the working fluid flows through the heat exchangers, extracting the
heat from industrial exhaust gases. Their exact geometry and configuration depend on the
energy source and the total thermal input.
FEED PUMP brings the organic fluid from the condensation pressure to the maximum pressure
of the cycle. The pump can be horizontal or vertical driven by an electric motor at variable
rotating speed.
CONDENSER: with the direct air to fluid heat exchanger, the organic fluid is cooled and liquefied
before entering the pump. The use of air eliminates the requirement for water to treatment
and make up. It is possible to use also a water cooled condenser.
Unique single circuit desing
TURBINE
PLATE HEAT
EXCHANGER
AIR
COOLED
CONDENSER
FEED
PUMP
HEAT
RECOVERY
BOILERHEAT SOURCE WASTE HEAT
80 - 550 °C
GENERATOR
Unlike most of ORC our
plant has unique single
circuit design. The fluid
with lower boiling point
and higher vapor pressure
is used to transfer heat
from an external source
into a closed single loop
system.
4Unique single circuit desingELGEN TECHNOLOGY | ELGENTECH.RU | INFO@ELGENTECH.RU
FACTORY
ORC POWER PLANT
TO ATMOSPHERE
100 - 200 °C
5. GLOBAL HEAT TO POWER MARKETANNUAL MARKET GROWTH 7,3 %
MARKET VALUE
~ $39 BILL
2018
~ $53 BILL
Markets and applications
Major drivers for international OCR market are growing government regulatory requirement,
increasing concern towards environmental protection and the concern over rising energy
prices.
INDUSTRY SECTORS
Natural Gas Compressor Stations – waste heat from the exhaust of gas turbine-driven
compressors into electricity. Russia is biggest end user
Petroleum refining - distillation (fractionation), thermal cracking, catalytic, and treatment
Cement industry - exhaust gases, clinker coolers
Heavy metals - coke ovens, blast furnaces for iron production, and basic oxygen furnaces
for steel production
Pulp/Paper Industry - waste heat in the paper drying process
Chemical - petrochemistry, fertilizers, chlorine, ind. gases
Nuclear power plant - water cooling circuit
5Markets and applicationsELGEN TECHNOLOGY | ELGENTECH.RU | INFO@ELGENTECH.RU
6. FOR INDUSTRIES
Elgen technology undertakes the entire product development, manufacturing and installation
process of the ORC turbine and plant internally. The process includes:
R&D and product development both for the turbine and for the cycle components (special
design of heat exchangers and package arrangements)
Material testing and technology validation - pre and post construction testing is standard practice
Engineering and project management - customized service for all clients ensures tailor-made
solutions every time
Design, manufacturing and assembly of the turbine and packaging, with strong quality control
procedures
After sales service and maintenance to ensure reliability and ongoing assistance for the life of
the product.
FOR INVESTORS
We search for investor and strategic partner to continue global development of the company. On
the current stage we need $ 0,7 - 1 mln to construct commercial prototype and begin international
sales in 2018. Elgen Tech company is member of Russian State Skolkovo Foundation
(https://sk.ru/foundation/) with grant opportunity to receive 50% of the needed money ammount.
We need co-invesment in amount of $ 0,35 - 0,5 mln and offer co-investor 30-35 % of companies
share.
We are ready to discuss most convenient forms of cooperation including joint venture in special
economic zones, sales of license and co-development.
Proposal to clients and investors
Your investments
will be doubled
by Russian State
SKOLKOVO
Foundation
6Proposal to clients and investorsELGEN TECHNOLOGY | ELGENTECH.RU | INFO@ELGENTECH.RU
7. CEO and Founder
of Russian Carbon Fund
(russiancarbon.org)
and Blockchain Ecosystem
platform for environmental
assets trading (ipci.io).
Bachelors degree in
international economics
of International Institute of
energy policy and diplomacy,
Moscow State Institute of
International Relations.
Master of strategic
management, Saint
Petersburg University
of Marine Communications.
Doctor of Technical
Sciences, Head of the
Department of thermal
power plants in the
Moscow Power Engineering
Institute. Research and
development leader with
30 years of experience in
the field of energy. Laureate
of the Russian Government
award in the field
of science and technology.
Leaded successful projects
for Rosatom, BP, Rosneft,
Gazprom etc.
Master’s degree with honor
of Moscow Power
Engineering Institute
(Technical University) in
Theoretical Foundations of
Heat Technique. 2010-2011
- Master's degree in Energy
Technology, Lappeenranta
University of Technology.
More than 8 years of
experience in thermal power
plants procurement,
engineering and construc-
tion. Managed multiple R&D
projects for ORC
implementation on gas
compressions stations.
Worked for Lukoil, Gazprom
and leading EPC companies
in Russia.
Professor of Department of
thermal power plants in the
Moscow Power Engineering
Institute which he graduated
from in 1982 . R&D and
construction of experimental
power plants with 28 years
of experience.
Key team members
Milutin
Vasiliy
R&D
director
Starovoitov
Vlad
Chief
Engineer
Sukhih
Andrey
CTO
Shadrin
Alexey
CEO
7Key team membersELGEN TECHNOLOGY | ELGENTECH.RU | INFO@ELGENTECH.RU