O.R.C Family Datasheet

Organic Rankine Cycle · R245fa Working Fluid · Radial-Inflow Turbine

POWER+ Generator — Model: S-ORC 75

Single-engine waste heat recovery and small distributed biomass

Product Overview

Scope’s S-ORC 75 is the family’s distributed waste-heat module, sized for a single low-grade heat source in the 0.6 MWth thermal-input class. The S-ORC 75 employs a two-stage Radial-Inflow Turbine (RIT) expander coupled to a grid-tie generator, with R245fa as the working fluid. The radial-inflow turbine architecture allows for high cycle efficiency across a wide range of inlet thermal conditions. This unit is engineered for retrofit onto a single reciprocating engine, a small biomass boiler, or a single wellhead-class heat source — making it the entry-point for distributed onsite power generation, fleet pilots, and CHP integration where the heat source is one identifiable piece of equipment.

*Thermal input requirements increase with elevated ambient temperatures / heat sink conditions. **Temperature delta between inlet hot and cold water.

Best Heat Sources

• Reciprocating engine jacket water (90-105°C, single-engine)
• Reciprocating engine exhaust gas (300-450°C via interface HX)
• Small biomass boiler hot water loop (95-130°C)
• Pyrolysis / biochar process flue gas
• Single thermal oxidizer (low duty)
• Geothermal / co-produced water (single low-flow well)

Best Applications

• Single gas-engine waste heat recovery (jacket water + exhaust integration, 1-2 MW shaft class engines such as Waukesha L7044, Caterpillar G3516)
• Single wellhead reciprocating engine retrofit (oilfield gas-fired prime movers)
• Small biomass boilers (animal bedding, woody biomass at 1.5-2.5 MWth firing rate)
• Single-unit pyrolysis / biochar facility flue gas
• Distributed dairy / food processing CHP
• Pilot deployment for fleet validation

Cycle & Output

Recuperated ORC with two-stage Radial-Inflow Turbine

Heat Source → Evaporator → RIT Expander → Recuperator → Condenser → Feed Pump → Recuperator → back to Evaporator

• Working Fluid: R245fa (subcritical)
• Tmax: 275°F (135°C)
• Pmax: 174 psi (12 bar)
• Cycle ηth: 12.9%
• Expander ηis: ~78% design point

Clean Energy Output

Up to 75 kW emissions-free electrical power

+ Heat sources that are not water or glycol mixture will require an interface heat exchanger and hot water loop. Higher-temperature thermal-oil and direct-steam interface configurations available on request.

Design Attributes & Engineering Detail

Design Attributes

• Built to ASME and CE Standards
• Two-stage Radial-Inflow Turbine Expander
• Grid-tied Induction Generator (PMG option)
• Proprietary PLC and HMI Controls
• Sound Pressure (@1 Meter): 85-89 dBA (size-dependent)
• Power Factor: output-dependent >0.9 lagging
• Outdoor Rated, IP54 enclosure
• Design Life: 25 years
• Low-GWP Working Fluid (R245fa, GWP 1030)
• Recuperated cycle for improved ηth
• Black-start optional on certain configurations

Product Highlights

• Zero direct emissions during operation
• Zero-carbon power when paired with renewable heat
• Skid-mount, plug-and-play installation
• Remote monitoring via VPN
• Low routine maintenance
• Minimal footprint vs. equivalent steam Rankine
• Qualifies for IRA and state-level incentives
• Grid protection relay input
• IEEE 1547-2018 compliant grid-tie

Design-Point Engineering Data

Expander Architecture Note

The Scope S-ORC 75 uses a two-stage radial-inflow turbine (RIT) expander integrated with a grid-tie induction generator on a common skid. R245fa working fluid is chosen for its match to low-to-medium temperature heat sources (90-150°C heat source class) and its established compatibility with HVAC-derived components for ORC service. The cycle operates subcritical, respecting the R245fa critical temperature of 154°C with a typical 19K margin at design point. The RIT architecture is selected for cycle efficiency optimization at this temperature class; reverse-compressor and screw-expander alternatives are available on request for cost-optimized configurations at the smaller sizes (75-500 kWe class).

For engineering support, site integration studies, or ordering:
Scope Technology & Manufacturing | 14531 FM 529 E, Suite 160, Houston, TX 77095 | www.scopemfg.com

POWER+ Generator — Model: S-ORC 250

Gas gathering compressor stations and mid-scale industrial process WHR

Product Overview

Scope’s S-ORC 250 targets the mid-scale waste-heat opportunity in the 2 MWth thermal-input class — the size range where a midstream gas gathering compressor station, a paired engine installation, or a mid-sized industrial process makes onsite power generation strongly economic. The S-ORC 250 employs a two-stage Radial-Inflow Turbine (RIT) expander coupled to a grid-tie generator, with R245fa as the working fluid for low-to-medium temperature heat sources. The unit is engineered for stable load-following operation as heat source duty varies through the day, and it pairs naturally with NOV-style centrifuge separation loads in midstream produced-water treatment applications where Scope’s recovered power directly offsets the electrical demand of the water-handling equipment.

*Thermal input requirements increase with elevated ambient temperatures / heat sink conditions. **Temperature delta between inlet hot and cold water.

Best Heat Sources

• Aggregated reciprocating engine jacket water (multi-engine pad)
• Reciprocating engine exhaust gas (multi-engine, via shared HX)
• Mid-scale biomass boilers and steam systems
• Gas compressor cooling water and discharge cooling
• Industrial process hot-water and low-pressure steam returns
• Geothermal brine / co-produced water from multi-well pads

Best Applications

• Gas gathering compressor station heat recovery (3-5 MW gas engine pad)
• Two- or three-engine reciprocating compressor pads (Permian, Eagle Ford, Bakken)
• Midstream produced-water treatment stations powering centrifuge separation
• Mid-scale biomass boilers (3-6 MWth firing rate)
• Industrial process heat — paper mill, dairy, food processing
• Geothermal co-produced water from multi-well pads

Cycle & Output

Recuperated ORC with two-stage Radial-Inflow Turbine

Heat Source → Evaporator → RIT Expander → Recuperator → Condenser → Feed Pump → Recuperator → back to Evaporator

• Working Fluid: R245fa (subcritical)
• Tmax: 275°F (135°C)
• Pmax: 174 psi (12 bar)
• Cycle ηth: 13.5%
• Expander ηis: ~82% design point

Clean Energy Output

Up to 250 kW emissions-free electrical power

+ Heat sources that are not water or glycol mixture will require an interface heat exchanger and hot water loop. Higher-temperature thermal-oil and direct-steam interface configurations available on request.

Design Attributes & Engineering Detail

Design Attributes

• Built to ASME and CE Standards
• Two-stage Radial-Inflow Turbine Expander
• Grid-tied Induction Generator (PMG option)
• Proprietary PLC and HMI Controls
• Sound Pressure (@1 Meter): 85-89 dBA (size-dependent)
• Power Factor: output-dependent >0.9 lagging
• Outdoor Rated, IP54 enclosure
• Design Life: 25 years
• Low-GWP Working Fluid (R245fa, GWP 1030)
• Recuperated cycle for improved ηth
• Black-start optional on certain configurations

Product Highlights

• Zero direct emissions during operation
• Zero-carbon power when paired with renewable heat
• Skid-mount, plug-and-play installation
• Remote monitoring via VPN
• Low routine maintenance
• Minimal footprint vs. equivalent steam Rankine
• Qualifies for IRA and state-level incentives
• Grid protection relay input
• IEEE 1547-2018 compliant grid-tie

Design-Point Engineering Data

Expander Architecture Note

The Scope S-ORC 250 uses a two-stage radial-inflow turbine (RIT) expander integrated with a grid-tie induction generator on a common skid. R245fa working fluid is chosen for its match to low-to-medium temperature heat sources (90-150°C heat source class) and its established compatibility with HVAC-derived components for ORC service. The cycle operates subcritical, respecting the R245fa critical temperature of 154°C with a typical 19K margin at design point. The RIT architecture is selected for cycle efficiency optimization at this temperature class; reverse-compressor and screw-expander alternatives are available on request for cost-optimized configurations at the smaller sizes (75-500 kWe class).

For engineering support, site integration studies, or ordering:
Scope Technology & Manufacturing | 14531 FM 529 E, Suite 160, Houston, TX 77095 | www.scopemfg.com

POWER+ Generator — Model: S-ORC 500

Mainline compressor stations, refinery process WHR, and geothermal clusters

Product Overview

Scope’s S-ORC 500 is the family’s industrial-process module, sized for a 3.7 MWth thermal-input class which matches the heat duty of a mainline gas compressor station, a small gas turbine WHR application, or a clustered geothermal well group. The S-ORC 500 employs a two-stage Radial-Inflow Turbine (RIT) expander coupled to a grid-tie generator, with R245fa as the working fluid. At this size the economics of waste-heat-to-power become strongly favorable for capital-intensive operations — the unit pays back through electrical offset of plant parasitic loads while reducing thermal discharge to the environment. The S-ORC 500 is also the family’s bridge unit between distributed (sub-MWe) installations and centralized industrial-scale (MWe-class) installations.

*Thermal input requirements increase with elevated ambient temperatures / heat sink conditions. **Temperature delta between inlet hot and cold water.

Best Heat Sources

• Gas turbine exhaust (small GT, 3-5 MW class, via WHRU)
• Refinery process streams (FCC catalyst cooling, hydrotreater quench)
• Cement kiln preheater bypass gas
• Large industrial reciprocating engine bank (4-6 engines aggregated)
• Geothermal brine from multi-well cluster
• Industrial saturated and superheated process steam returns

Best Applications

• Mainline gas compressor stations (single Solar Centaur or comparable GT-driver class)
• Refinery and petrochemical process WHR (FCC, hydrotreating residual heat)
• Large biomass-fired CHP plants (district heating offset)
• Multi-well geothermal binary cycle deployment
• Cement kiln preheater bypass heat recovery (small-cement-plant retrofit)
• Midstream produced-water treatment hub serving multiple operators

Cycle & Output

Recuperated ORC with two-stage Radial-Inflow Turbine

Heat Source → Evaporator → RIT Expander → Recuperator → Condenser → Feed Pump → Recuperator → back to Evaporator

• Working Fluid: R245fa (subcritical)
• Tmax: 275°F (135°C)
• Pmax: 174 psi (12 bar)
• Cycle ηth: 13.6%
• Expander ηis: ~83% design point

Clean Energy Output

Up to 500 kW emissions-free electrical power

+ Heat sources that are not water or glycol mixture will require an interface heat exchanger and hot water loop. Higher-temperature thermal-oil and direct-steam interface configurations available on request.

Design Attributes & Engineering Detail

Design Attributes

• Built to ASME and CE Standards
• Two-stage Radial-Inflow Turbine Expander
• Grid-tied Induction Generator (PMG option)
• Proprietary PLC and HMI Controls
• Sound Pressure (@1 Meter): 85-89 dBA (size-dependent)
• Power Factor: output-dependent >0.9 lagging
• Outdoor Rated, IP54 enclosure
• Design Life: 25 years
• Low-GWP Working Fluid (R245fa, GWP 1030)
• Recuperated cycle for improved ηth
• Black-start optional on certain configurations

Product Highlights

• Zero direct emissions during operation
• Zero-carbon power when paired with renewable heat
• Skid-mount, plug-and-play installation
• Remote monitoring via VPN
• Low routine maintenance
• Minimal footprint vs. equivalent steam Rankine
• Qualifies for IRA and state-level incentives
• Grid protection relay input
• IEEE 1547-2018 compliant grid-tie

Design-Point Engineering Data

Expander Architecture Note

The Scope S-ORC 500 uses a two-stage radial-inflow turbine (RIT) expander integrated with a grid-tie induction generator on a common skid. R245fa working fluid is chosen for its match to low-to-medium temperature heat sources (90-150°C heat source class) and its established compatibility with HVAC-derived components for ORC service. The cycle operates subcritical, respecting the R245fa critical temperature of 154°C with a typical 19K margin at design point. The RIT architecture is selected for cycle efficiency optimization at this temperature class; reverse-compressor and screw-expander alternatives are available on request for cost-optimized configurations at the smaller sizes (75-500 kWe class).

For engineering support, site integration studies, or ordering:
Scope Technology & Manufacturing | 14531 FM 529 E, Suite 160, Houston, TX 77095 | www.scopemfg.com

POWER+ Generator — Model: S-ORC 1000

Pipeline gas turbines, large industrial CHP, and midstream produced-water hubs

Product Overview

Scope’s S-ORC 1000 is the family’s industrial-scale workhorse, sized for a 7.3 MWth thermal-input class which matches the exhaust duty of a typical pipeline-class gas turbine (Solar Mars-class), a large biomass-fired CHP plant, or a midstream water-treatment hub. The S-ORC 1000 employs a two-stage Radial-Inflow Turbine (RIT) expander coupled to a grid-tie generator, with R245fa as the working fluid. At 1 MWe net output, the unit delivers utility-scale economics from a single ORC module — making it the natural choice for projects where a single high-duty heat source needs to be converted to power without the complexity of multi-unit cascades. The S-ORC 1000 also serves as the prime-mover scale for integrated Scope midstream-water-and-power infrastructure stations.

*Thermal input requirements increase with elevated ambient temperatures / heat sink conditions. **Temperature delta between inlet hot and cold water.

Best Heat Sources

• Pipeline-class gas turbine exhaust (Solar Mars, GE LM2500 family, via WHRU)
• Large biomass boiler hot-water and steam systems
• Cement clinker cooler exhaust and preheater bypass
• Glass furnace regenerator exhaust
• Steel mill reheat furnace exhaust
• High-enthalpy geothermal brine (single high-flow well)

Best Applications

• Pipeline gas turbine compressor stations (Solar Mars or comparable, 10-15 MW driver class)
• Large biomass-fired CHP and district energy plants (10-20 MWth firing class)
• Integrated midstream produced-water treatment + power-generation hub (single-station scale)
• Cement plant preheater / clinker cooler heat recovery
• Glass furnace and steel-mill reheat-furnace exhaust
• Large geothermal binary cycle (single well or paired wells with high enthalpy)

Cycle & Output

Recuperated ORC with two-stage Radial-Inflow Turbine

Heat Source → Evaporator → RIT Expander → Recuperator → Condenser → Feed Pump → Recuperator → back to Evaporator

• Working Fluid: R245fa (subcritical)
• Tmax: 275°F (135°C)
• Pmax: 174 psi (12 bar)
• Cycle ηth: 13.8%
• Expander ηis: ~84% design point

Clean Energy Output

Up to 1,000 kW emissions-free electrical power

+ Heat sources that are not water or glycol mixture will require an interface heat exchanger and hot water loop. Higher-temperature thermal-oil and direct-steam interface configurations available on request.

Design Attributes & Engineering Detail

Design Attributes

• Built to ASME and CE Standards
• Two-stage Radial-Inflow Turbine Expander
• Grid-tied Induction Generator (PMG option)
• Proprietary PLC and HMI Controls
• Sound Pressure (@1 Meter): 85-89 dBA (size-dependent)
• Power Factor: output-dependent >0.9 lagging
• Outdoor Rated, IP54 enclosure
• Design Life: 25 years
• Low-GWP Working Fluid (R245fa, GWP 1030)
• Recuperated cycle for improved ηth
• Black-start optional on certain configurations

Product Highlights

• Zero direct emissions during operation
• Zero-carbon power when paired with renewable heat
• Skid-mount, plug-and-play installation
• Remote monitoring via VPN
• Low routine maintenance
• Minimal footprint vs. equivalent steam Rankine
• Qualifies for IRA and state-level incentives
• Grid protection relay input
• IEEE 1547-2018 compliant grid-tie

Design-Point Engineering Data

Expander Architecture Note

The Scope S-ORC 1000 uses a two-stage radial-inflow turbine (RIT) expander integrated with a grid-tie induction generator on a common skid. R245fa working fluid is chosen for its match to low-to-medium temperature heat sources (90-150°C heat source class) and its established compatibility with HVAC-derived components for ORC service. The cycle operates subcritical, respecting the R245fa critical temperature of 154°C with a typical 19K margin at design point. The RIT architecture is selected for cycle efficiency optimization at this temperature class; reverse-compressor and screw-expander alternatives are available on request for cost-optimized configurations at the smaller sizes (75-500 kWe class).

For engineering support, site integration studies, or ordering:
Scope Technology & Manufacturing | 14531 FM 529 E, Suite 160, Houston, TX 77095 | www.scopemfg.com

POWER+ Generator — Model: S-ORC 3000

Multi-basin midstream water hubs, large industrial CHP, and gas turbine exhaust trains

Product Overview

Scope’s S-ORC 3000 targets large-industrial and utility-bridging waste-heat applications at the 21 MWth thermal-input class — installations where a single very-large heat source or an aggregated multi-source manifold makes ORC the right technology choice over conventional steam Rankine. The S-ORC 3000 employs a two-stage Radial-Inflow Turbine (RIT) expander coupled to a grid-tie generator, with R245fa as the working fluid. At 3 MWe, the module operates in the size class where Scope’s integrated midstream platform — combining waste-heat-to-power with produced-water treatment infrastructure — delivers its strongest economics, powering centrifuge separation, water injection compression, and pad-level electrical loads from recovered heat.

*Thermal input requirements increase with elevated ambient temperatures / heat sink conditions. **Temperature delta between inlet hot and cold water.

Best Heat Sources

• Large pipeline-class gas turbine exhaust (LM6000, Mars 100, via large WHRU)
• Aggregated industrial reciprocating engine fleet exhaust
• Combined cement preheater + clinker cooler exhaust
• Glass furnace regenerator and ferroalloy furnace exhaust
• Large biomass boiler superheated steam returns
• Multi-well geothermal field manifold (brine collection from 5+ wells)

Best Applications

• Multi-basin midstream produced-water treatment hubs (co-op service across multiple E&P operators)
• Large gas turbine exhaust trains (GE LM6000-class, 30-40 MW driver)
• Utility-scale biomass CHP plants (30+ MWth firing rate)
• Glass furnace and ferroalloy industry waste-heat recovery
• Large cement plant integrated WHR (preheater + clinker cooler combined)
• Industrial CHP plants with high-temperature process flue gas

Cycle & Output

Recuperated ORC with two-stage Radial-Inflow Turbine

Heat Source → Evaporator → RIT Expander → Recuperator → Condenser → Feed Pump → Recuperator → back to Evaporator

• Working Fluid: R245fa (subcritical)
• Tmax: 275°F (135°C)
• Pmax: 174 psi (12 bar)
• Cycle ηth: 14.1%
• Expander ηis: ~86% design point

Clean Energy Output

Up to 3,000 kW emissions-free electrical power

+ Heat sources that are not water or glycol mixture will require an interface heat exchanger and hot water loop. Higher-temperature thermal-oil and direct-steam interface configurations available on request.

Design Attributes & Engineering Detail

Design Attributes

• Built to ASME and CE Standards
• Two-stage Radial-Inflow Turbine Expander
• Grid-tied Induction Generator (PMG option)
• Proprietary PLC and HMI Controls
• Sound Pressure (@1 Meter): 85-89 dBA (size-dependent)
• Power Factor: output-dependent >0.9 lagging
• Outdoor Rated, IP54 enclosure
• Design Life: 25 years
• Low-GWP Working Fluid (R245fa, GWP 1030)
• Recuperated cycle for improved ηth
• Black-start optional on certain configurations

Product Highlights

• Zero direct emissions during operation
• Zero-carbon power when paired with renewable heat
• Skid-mount, plug-and-play installation
• Remote monitoring via VPN
• Low routine maintenance
• Minimal footprint vs. equivalent steam Rankine
• Qualifies for IRA and state-level incentives
• Grid protection relay input
• IEEE 1547-2018 compliant grid-tie

Design-Point Engineering Data

Expander Architecture Note

The Scope S-ORC 3000 uses a two-stage radial-inflow turbine (RIT) expander integrated with a grid-tie induction generator on a common skid. R245fa working fluid is chosen for its match to low-to-medium temperature heat sources (90-150°C heat source class) and its established compatibility with HVAC-derived components for ORC service. The cycle operates subcritical, respecting the R245fa critical temperature of 154°C with a typical 19K margin at design point. The RIT architecture is selected for cycle efficiency optimization at this temperature class; reverse-compressor and screw-expander alternatives are available on request for cost-optimized configurations at the smaller sizes (75-500 kWe class).

For engineering support, site integration studies, or ordering:
Scope Technology & Manufacturing | 14531 FM 529 E, Suite 160, Houston, TX 77095 | www.scopemfg.com

POWER+ Generator — Model: S-ORC 5000

Utility-scale waste heat, integrated midstream complexes, and large geothermal fields

Product Overview

Scope’s S-ORC 5000 is the family’s utility-scale module, sized for a 35 MWth thermal-input class which matches the exhaust duty of a large industrial gas turbine, an integrated midstream-and-water complex, or a large geothermal binary plant. The S-ORC 5000 employs a two-stage Radial-Inflow Turbine (RIT) expander coupled to a grid-tie generator, with R245fa as the working fluid. At 5 MWe net output, the unit competes with conventional small steam Rankine plants on a CAPEX-per-kW basis while offering substantially lower water consumption, faster startup, and unmanned operation. This is the size class where Scope’s integrated platform — heat-to-power + produced water treatment + injection-ready conditioning — operates as full-service midstream infrastructure rather than a single-purpose WHR module.

*Thermal input requirements increase with elevated ambient temperatures / heat sink conditions. **Temperature delta between inlet hot and cold water.

Best Heat Sources

• Large industrial gas turbine exhaust (LM6000, Frame 6B, via utility WHRU)
• Refinery FCC main-fractionator overhead vapor (steam-generation equivalent)
• Large industrial flue gas (cement, glass, steel reheat at scale)
• Utility-scale biomass and waste-to-energy boiler exhaust
• Large multi-well geothermal brine manifold (10+ wells, high enthalpy)
• Aggregated midstream pad heat: engine fleet + compressor cooling + dehydration regen

Best Applications

• Integrated midstream complexes (heat recovery + produced-water treatment + injection conditioning)
• Large industrial gas turbine exhaust trains (LM6000, Frame 6, Frame 7 driver class)
• Utility-scale biomass plants and waste-to-energy facilities
• Large geothermal fields with high-enthalpy brine production
• Refinery and petrochemical FCC main-fractionator overhead and quench duty
• Multi-basin E&P operator co-op water infrastructure (Permian-scale)

Cycle & Output

Recuperated ORC with two-stage Radial-Inflow Turbine

Heat Source → Evaporator → RIT Expander → Recuperator → Condenser → Feed Pump → Recuperator → back to Evaporator

• Working Fluid: R245fa (subcritical)
• Tmax: 275°F (135°C)
• Pmax: 174 psi (12 bar)
• Cycle ηth: 14.2%
• Expander ηis: ~87% design point

Clean Energy Output

Up to 5,000 kW emissions-free electrical power

+ Heat sources that are not water or glycol mixture will require an interface heat exchanger and hot water loop. Higher-temperature thermal-oil and direct-steam interface configurations available on request.

Design Attributes & Engineering Detail

Design Attributes

• Built to ASME and CE Standards
• Two-stage Radial-Inflow Turbine Expander
• Grid-tied Induction Generator (PMG option)
• Proprietary PLC and HMI Controls
• Sound Pressure (@1 Meter): 85-89 dBA (size-dependent)
• Power Factor: output-dependent >0.9 lagging
• Outdoor Rated, IP54 enclosure
• Design Life: 25 years
• Low-GWP Working Fluid (R245fa, GWP 1030)
• Recuperated cycle for improved ηth
• Black-start optional on certain configurations

Product Highlights

• Zero direct emissions during operation
• Zero-carbon power when paired with renewable heat
• Skid-mount, plug-and-play installation
• Remote monitoring via VPN
• Low routine maintenance
• Minimal footprint vs. equivalent steam Rankine
• Qualifies for IRA and state-level incentives
• Grid protection relay input
• IEEE 1547-2018 compliant grid-tie

Design-Point Engineering Data

Expander Architecture Note

The Scope S-ORC 5000 uses a two-stage radial-inflow turbine (RIT) expander integrated with a grid-tie induction generator on a common skid. R245fa working fluid is chosen for its match to low-to-medium temperature heat sources (90-150°C heat source class) and its established compatibility with HVAC-derived components for ORC service. The cycle operates subcritical, respecting the R245fa critical temperature of 154°C with a typical 19K margin at design point. The RIT architecture is selected for cycle efficiency optimization at this temperature class; reverse-compressor and screw-expander alternatives are available on request for cost-optimized configurations at the smaller sizes (75-500 kWe class).

For engineering support, site integration studies, or ordering:
Scope Technology & Manufacturing | 14531 FM 529 E, Suite 160, Houston, TX 77095 | www.scopemfg.com