ENETElephant New Energy
Industrial energy efficiency · Net-zero technology

Unlock the hidden energy inside your operations.

From industrial waste heat to clean power.

Elephant New Energy (ENET) converts low- to medium-temperature heat below 300 °C into reliable, low-carbon electricity.

Explore our technologyTalk to our team
Waste heat< 300 °CHeatRadial-flow turbine85–90% efficiencyPowerClean power+20–30%
Performance at a glance
85–90%
Isentropic efficiency
Radial-flow turbine vs. 65–75% screw expanders
+20–30%
More power output
Same heat source, more electricity
<300°C
Waste heat recovered
Low- and medium-grade thermal sources
7,500h+
Annual operating hours
Targeted by predictive maintenance
About ENET

An industrial energy efficiency and optimisation partner — purpose-built for the net-zero era.

Elephant New Energy focuses on unlocking the hidden energy inside industrial processes and converting it into usable clean electricity through advanced technology — achieving both cost reduction and sustainable development across heavy industry.

IndustryHidden energyORC turbineConvertClean powerGrid & SiteHeat lost todayCapturedTransformedDeliveredUsed onsite

Positioning

A solution provider dedicated to industrial energy efficiency — turning low-grade heat into clean power.

Business scope

Full value chain — R&D of low-temperature ORC, equipment, EPC delivery, EMC partnerships and lifecycle O&M.

Industry focus

Energy-intensive, high-potential industries — steel, chemicals, cement, paper, geothermal and GTCC.

Mission

Empower the global net-zero journey through innovative technologies.

Vision

Become a globally trusted energy conservation partner.

Core values

  • Customer first
  • Innovation
  • Trust
  • Integrity
Core technology

A disruptive ORC system, redesigned from the turbine up.

We have completely re-engineered the core of the Organic Rankine Cycle — replacing traditional screw expanders with a high-speed integrated radial-flow turbine, breaking through the industry's performance limits.

How the Organic Rankine Cycle works

A closed-loop thermodynamic cycle that converts low-grade heat — industrial waste heat, geothermal energy and more — into electricity using an organic working fluid with a low boiling point.

01 · Evaporate
Waste heat vaporises the organic working fluid into a high-energy gas inside the evaporator.
02 · Expand
The gas expands through the radial-flow turbine, driving rotation at high speed.
03 · Generate
The turbine is direct-coupled to a permanent magnet generator — no gearbox, no transmission loss.
04 · Condense
The fluid is condensed and pumped back, ready for continuous operation.
  • Closed loop, fully sealed system
  • Integrated high-efficiency recuperator reuses turbine exhaust heat
  • Reduces external heat-source demand
  • Maximises overall cycle energy efficiency
Environmentally friendly working fluid

Carefully selected eco-friendly fluids minimise environmental impact while generating power.

R1233zd / R245faVery low GWPZero ODP
EvaporatorHeat inTurbineExpansionCondenserHeat outPumpPressuriseG
Core technology

Three breakthroughs

A fundamental shift in fluid dynamics, drivetrain architecture and system simplicity.

Screw expander65–75% ηUpgradeRadial-flow turbine85–90% η
01

From screw expander to radial-flow turbine

Replacing positive-displacement screw expanders with dynamic radial-flow turbines unlocks 85–90% efficiency.

Legacy: turbine + gearbox + generatorG3–5% lossIntegratedDirect-drive turbine + PM generatorGOne shaft · No gearbox
02

Integrated turbine–generator design

The turbine sits directly on the shaft of a high-speed PMG — no gearbox, no 3–5% loss.

Many partsSimplify3 modulesABCPlug-and-play
03

System-level simplification & reliability

Removing the gearbox and complex assemblies cuts parts and failure points — longer life, lower O&M.

Quantifiable impact — 20–30% more power

Turning efficiency gains into tangible profit. The leap from 70% isentropic efficiency (typical screw expander) to 85% (our high-speed turbine) directly translates into a massive increase in electricity production, even with the same heat source.

  • Increased revenue
  • Faster payback
  • Enhanced project viability
Assumption · 1 MW of thermal energy input at 150 °C
1251007550kW100 kWScrew 70%125 kWRadial 85%+25%Same 1 MW heat input @ 150 °C
Traditional screw system (70%)
≈ 100 kW net output
BingXiang turbine system (85%)
≈ 125 kW net output
+25% more power for the same heat
Core technology

Performance benchmark

Industry-leading isentropic efficiency converts directly into more revenue per kilowatt-hour.

Metric
Traditional screw expander
Integrated radial-flow turbine
Isentropic efficiency
65–75%
85–90%
Power output
Industry benchmark
+20–30%
Core architecture
Split — expander + generator
Integrated direct-drive, no gearbox
Components & failure points
More parts, higher O&M frequency
Plug-and-play, low maintenance
Scalability & cost efficiency
Limited at large scale
Highly scalable

Reference: 1 MW thermal input at 150 °C — legacy systems deliver ≈ 100 kW net output; our turbine delivers ≈ 125 kW.

Core technology

ENET 'Live' — the intelligent operations platform

Maximising uptime and revenue through data-driven asset management.

Remote control & monitoring

24/7 unmanned operation with full remote start/stop and live diagnostics.

Predictive maintenance

AI-powered analytics forecast faults early — targeting 7,500+ operating hours / year.

Transparent reporting

Automated, real-time data visualisation and EMC settlement — fully transparent.

ENET Live · monitoringPower1,240 kWUptime99.4%Hours / yr7,500+All units healthyPredictive: 1Reports auto-sent
Products

ORC power generation, engineered end-to-end.

We design, build and deliver complete waste heat power generation systems — from the turbine generator at the core to a fully customised low-temperature recovery loop tailored to your operating conditions.

Vapor inRadial-flow turbineDirect shaftPM genGLow-pressure exhaustStator vanesRotor blades

ORC Turbine Generator

An ORC-based power generation system for low- to medium-temperature heat sources below 300 °C.

  • Radial-flow turbine
  • Permanent magnet generator
  • Direct drive, no gearbox
Heat source< 300 °CEvaporator+ preheaterTurbo-generatorGCondenserHeat rejectionPumpkWhClosed loop · Organic working fluid · Zero ODP

Low-Temperature Waste Heat Power System

A customised system that recovers waste heat below 300 °C and turns it into clean power.

  • <300 °C heat sources
  • Cascade utilisation
  • Plug-and-play deployment

Inside the ENET ORC unit

A fully self-designed package — every subsystem engineered in-house for performance, reliability and serviceability.

  • Evaporator (with built-in preheater)
  • Turbo generator
  • Condenser
  • Working fluid pump
  • Pneumatic control valve
  • Integrated electronic control system
Applications

Built for the world's most energy-intensive operations.

Wherever heat is wasted — gas turbine exhaust, flue gas, geothermal brine, industrial process streams — ENET turns it into a measurable power asset.

Gas turbineExhaust heatORC bottoming55% → 60%+
Power generation

Gas combined cycle (GTCC) efficiency boost

Recover gas turbine exhaust heat — lift overall efficiency from ≈55% to 60%+.

Exhaust heat · Bottoming cycle
Coal boilerFlue gas 120–150 °CORC unit↓ Coal use
Power generation

Coal-fired flue gas waste heat recovery

Efficiently recover 120–150 °C boiler flue gas — less coal, lower CO₂.

120–150 °C flue gas
Heat reservoirWell< 150 °C brineORC unit↑ kWh / well
Renewables

Geothermal efficiency & capacity expansion

Utilise low- and medium-temperature geothermal fluids below 150 °C — more power per well.

<150 °C geothermal
Converter / EAFHigh-temp gasHeatOnsite kWh
Heavy industry

Steel, metallurgy & non-ferrous metals

Recover high-temperature flue gas from sintering, coking and EAF — waste into onsite power.

Steel · Metallurgy
Reactor / kilnPipePressurised steamORC
Process industry

Chemicals, petroleum, cement & building materials

Capture pressurised steam, low-pressure exhaust and kiln heat across chemicals and cement.

Chemicals · Cement
Drying rollsHot water 80 °CORC unitGreener cost
Light industry

Paper, printing, dyeing & fertilisers

Recycle hot water, waste steam and process streams in paper, dyeing and pharma operations.

Hot water 80 °C · Steam
Case studies

Proven globally — measurable results across heavy industry.

Real projects, real numbers. ENET's ORC systems are already turning industrial waste heat into clean power and carbon savings.

Chemical plant102 °C steamORCG1,400 kWInstalledLow-pressure saturated steam recovery
ChemicalsLow-pressure saturated steam102 °C

Chemical plant steam ORC power generation project

Achieves energy savings and emission reduction from 102 °C low-pressure saturated steam — 1,400 kW.

1,400 kW
Installed capacity
7M kWh
Annual generation
2,100 t
Annual CO₂ reduction
Stainless steel furnace220–350 °CORC arrayGEN27 MWInstalledLarge-scale flue gas waste-heat benchmark
MetalsFlue gas waste heat220–350 °C

Stainless steel plant flue gas ORC power generation project

Large-scale flue gas waste heat recovery — a 27 MW green benchmark for stainless steel.

27 MW
Installed capacity
190M kWh
Annual generation
140k–160k t
Annual CO₂ reduction
Cooperation models

Three flexible ways to deploy ENET — built around your capital plan.

Whether you prefer outright purchase, full-turnkey delivery or a zero-upfront performance contract, we adapt the commercial model to your operations.

Sales
Direct equipment purchase

Buy ENET ORC turbines and systems as standalone equipment, integrated into your existing operations.

  • Equipment ownership from day one
  • Engineering & commissioning support
  • Optional service contracts
EPC
Engineering, Procurement & Construction

Full turnkey delivery — ENET designs, procures, builds and commissions the complete waste heat power station for you.

  • Single-source accountability
  • Optimised system integration
  • Predictable schedule & budget
Recommended
EMC
Energy Performance Contracting

Zero upfront capital from the customer. ENET assumes 100% of investment cost and technical risk; both sides share the energy savings. Equipment is transferred to the customer free of charge at contract expiry.

  • No upfront design / equipment / construction / O&M cost
  • ENET covers 100% of investment and technical risk
  • Energy savings shared throughout the contract
  • Equipment transferred free of charge at expiry
Cooperation models

What you gain

Six concrete benefits — across compliance, finance, ESG and operations.

01

Meet emission reduction targets

Comply with carbon regulations such as the EU ETS and adapt to the CBAM mechanism, lowering thresholds for global exports.

02

Zero upfront capital investment

Under the EMC model, you pay nothing for design, equipment, construction, commissioning or O&M — ENET assumes 100% of cost and technical risk.

03

Free equipment transfer at expiry

On EMC contract expiry, the full ORC generator unit is transferred to you free of charge — all future power revenue is yours.

04

ESG value upgrade

Improve ESG disclosure, win investor recognition, shape a green brand image and unlock green financing channels.

05

Multi-country policy subsidies

Align with local energy-saving subsidy policies — per-kWh subsidies and tax reductions are available in many regions for waste-heat power projects.

06

Higher self-sufficiency

Stable, reliable waste-heat generation complements intermittent renewables, reduces grid reliance and avoids supply interruption risk.

Contact

Let's build a low-carbon, energy-efficient future together.

Tell us about your operations — gas turbines, coal-fired boilers, geothermal wells, steel mills, cement kilns or chemical lines. We will assess your waste heat profile and propose a tailored ORC pathway.

Office address

Shanghai Elephant New Energy Technology Co., Ltd.

Room T3-712, Lane 1220 Yuqiao Road, Pudong New Area, Shanghai, China