Enogia Basic Information, Manufacturing Base, Sales Area, and Competitors
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Sr. No. |
Item |
Description |
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1 |
Company Name |
Enogia |
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2 |
Website |
enogia.com |
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3 |
Established Date |
2009 |
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4 |
Headquartered |
France |
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5 |
Market Position/ History |
Enogia was founded in 2009 and is a turbine-based ORC manufacturer specialized in waste heat recovery with systems producing from 10 kWe to 180 kWe. Between 2012-2014, the company completed the installation in Marseille, marketing of the first micro-turbomachines for ORC. Further, between year 2019- 2020, the company signed of distribution contracts in Asia and Europe. Recently, ENOGIA is accelerating in the Industrial, Maritime and Geothermal sectors. |
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6 |
Sales Area |
Worldwide |
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7 |
Manufacturing Location |
France |
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8 |
Ticker |
EPA: ALENO |
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9 |
No. of Employees |
60 employees |
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10 |
Competitors |
Atlas Copco Group Cryostar EBARA Group MAN Energy Solutions Chart Industries (Howden) Bitzer Capstonehttps Calnetix Deprag Enertime Turboden Zuccato Starengine Revolution turbine technologies PBS world M&M Dampfturbinen bakerhughes R&D Dynamics Corp. CRYOSTAR SAS Turbogaz Others |
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11 |
CEO |
Arthur Leroux |
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12 |
Ownership Type |
Public |
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13 |
Contact Information |
19, Avenue Paul Héroult, 13015 Marseille - FRANCE Tel: +33 (0)4 84 25 60 17 |
Business Segment/ Overview:
Enogia is engaged in the designs and manufacturing of Organic Rankine Cycle systems, which convert heat into electricity, and air compressors for fuel cells. Enogia's products can be used in industries, geothermal sites, biogas plants, biomass plants, solar fields, and other applications with waste heat. Its applications include industries such as oil & gas, energy industries, transportation, space, and others. The systems are based on the Organic Rankine Cycle (ORC) and a patented microturbine technology.
Expansion Turbine Product Types Specification
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Product |
Product Description |
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ORC ENO-10LT |
The ENO-10LT module is an ORC manufactured by ENOGIA, able to recover up to 160 kWth with a nominal power output of 10 kWe even after low grade heat source at 70°C. High speed patented micro-turbines Hydraulic connections with standard flanges Assembling and performance testing in ENOGIA workshop Remote control and access 24/7 Plug-and-play system on a single skid The ENO-10LT is the smallest ORC module of the ENOGIA LT range. As the first machine launched on the market by ENOGIA, this system demonstrated extended running hours on site after biomass boilers, gas engines, geothermal sources or industrial processes. By being very compact and easy to integrate with standard flanges, this ORC is the perfect plug-andplay system. It is even possible to connect the cold loop of the ORC to a drying system, a floor heating system or greenhouses to reach global efficiency close to 95%. Electrical ratings Maximum gross electric power: 10 kWe Grid connection: 400V, 3ph, 50-60 Hz |
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ORC ENO-20LT |
The ENO-20LT module is an ORC manufactured by ENOGIA, able to recover up to 320 kWth with a nominal power output of 20 kWe even after low grade heat source at 70°C. Designed with the same state of mind as the 10kWe ORC manufactured by ENOGIA, the ENO-20LT is a turnkey solution involving few hydraulic and electrical modifications to be integrated thanks to its play and play features. This ORC can be implemented on a wide range of applications such as biomass boilers, gas engines, geothermal sources, or industrial processes. Any heat flow with temperatures between 70°C and 120°C can be recovered with this system. It is also possible to connect the cold loop of the ORC to a drying system, a floor heating system or greenhouses to reach global efficiency close to 95%. Electrical ratings Maximum gross electric power: 20 kWe Grid connection: 400V, 3ph, 50-60 Hz |
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ORC ENO-40LT |
The ENO-40LT module is an ORC manufactured by ENOGIA, able to recover up to 640 kWth and having a nominal power output of 40 kWe from low temperature heat sources. 2 high speed patented micro-turbines Hydraulic connections with standard flanges Assembling and performance testing in ENOGIA workshop Remote control and access 24/7 Plug-and-play system on a single skid Designed with the same state of mind as the other ORC of the LT range, the ENO- 40LT is a turnkey product featuring ENOGIA’s best technology. This system suits a wide range of heat recovery applications such as biomass boilers, gas engines, geo- thermal sources, or industrial processes. Any heat flow with temperatures between 70°C and 120°C can be recovered with this system thanks to its two kinetic turbines. The produced power is monitored by decoupling protection relays, ensuring its compliance with the grid. The remaining heat can be recovered for floor heating or drying system to reach a global efficiency close to 95%. Electrical ratings Maximum gross electric power: 40 kWe Grid connection: 400V, 3ph, 50-60 Hz |
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ORC ENO-100LT |
The ENO-100LT module is an ORC manufactured by ENOGIA, able to recover up to 1400 kWth and having a nominal power output of 100 kWe from low temperature heat sources. High speed patented micro-turbines Hydraulic connections with standard flanges Assembling and performance testing in ENOGIA workshop Remote control and access 24/7 Plug-and-play system on a single skid Designed with the same state of mind as the other ORC of the LT range, the ENO-100LT is a turnkey product featuring ENOGIA’s best technology. This system suits a wide range of heat recovery applications such as biomass boilers, gas engines, geo-thermal sources or industrial processes. Any heat flow with temperatures between 70°C and 120°C can be recovered with this system thanks to its kinetic turbines. The produced electricity is monitored by decoupling protection relays, ensuring its compliance with the grid. Remaining heat can be recovered for floor heating or drying system to reach a global efficiency close to 95%. Electrical ratings Maximum gross electric power: 100 kWe Grid connection: 400V, 3ph, 50-60 Hz |
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Air Intake Compressor for Fuel Cell |
ENOGIA Fuel Cell Compressors (EFCC) use a proven and unique centrifugal architecture to cover a large map off power Proprietary design provides unmatched compactness and lightness Choice of proven design concepts to achieve market competitiveness Established micro-turbomachinery expertise and specialized simulation tools provide optimum air flow for the lowest power consumption Designed with inter-stage flow transfer and integrated cooling circuits, the EFCC offers a compact solution to meet mobility packaging The EFCC is compatible with several drive systems approved for automotive applications A scalable product range enables significant application coverage: Stationary, Heavy Mobility and Light Mobility Product Names: EFCC-90 Indicative Fuel cell power range (kW): 30-55 Product power range Max (kW): 7 Pressure ratio max: 2.8 Air flow max (g/s): 90 Isentropic efficiency (%): Up to 75% EFCC-160 Indicative Fuel cell power range (kW): 55-105 Product power range Max (kW): 14 Pressure ratio max: 2.9 Air flow max (g/s): 160 Isentropic efficiency (%): Up to 75% EFCC-220 Indicative Fuel cell power range (kW): 105-190 Product power range Max (kW): 25 Pressure ratio max: 3.6 Air flow max (g/s): 220 Isentropic efficiency (%): Up to 75% EFCC-280 Indicative Fuel cell power range (kW): 190-330 Product power range Max (kW): 40 Pressure ratio max: 4.2 Air flow max (g/s): 280 Isentropic efficiency (%): Up to 75% |
Author's Detail:
Kalyani Raje /
LinkedIn
With a work experience of over 10+ years in the market research and strategy development. I have worked with diverse industries, including FMCG, IT, Telecom, Automotive, Electronics and many others. I also work closely with other departments such as sales, product development, and marketing to understand customer needs and preferences, and develop strategies to meet those needs.
I am committed to staying ahead in the rapidly evolving field of research and analysis. This involves regularly attending conferences, participating in webinars, and pursuing additional certifications to enhance my skill set. I played a crucial role in conducting market research and competitive analysis. I have a proven track record of distilling complex datasets into clear, concise reports that have guided key business initiatives. Collaborating closely with multidisciplinary teams, I contributed to the development of innovative solutions grounded in thorough research and analysis.