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Cessna 182 Engine Options: Continental O-470 vs Lycoming IO-540 Detailed Comparison
The Cessna 182 has been powered by two primary engines: the Continental O-470 and the Lycoming IO-540. These engines define two distinct eras of the aircraft with different characteristics in performance, reliability, operating costs, and fuel systems. Understand the advantages and trade-offs of each engine option to make informed purchasing and operating decisions.
Engine Overview & Specifications
Both engines have proven track records spanning decades, though with distinct characteristics.
Continental O-470 Specifications
- Horsepower: 230 hp (constant)
- Displacement: 470 cubic inches
- Configuration: Fuel-injected horizontally-opposed six-cylinder
- Production span: Originally designed 1940s; used in 182 until 1985
- TBO (Time Between Overhaul): 1,500-2,000 hours depending on condition
- Overhaul cost: $15,000-20,000
- Availability: Still produced; parts readily available
Lycoming IO-540 Specifications
- Horsepower: 230-310 hp depending on version
- Displacement: 540 cubic inches
- Configuration: Fuel-injected horizontally-opposed six-cylinder
- Production span: Used in 182 from 1985 onward
- TBO: 2,000+ hours (some versions rated 2,400)
- Overhaul cost: $18,000-25,000
- Availability: Modern production; excellent parts support
Lycoming TIO-540 (Turbo) Specifications
- Horsepower: 310 hp at sea level (with turbo boost)
- Displacement: 540 cubic inches
- Turbocharger: Critical high-altitude component
- TBO: 2,000 hours (same as standard IO-540)
- Overhaul cost: $20,000-32,000 (turbo adds complexity/cost)
- Special maintenance: Turbo intercooler inspection required
Performance Comparison
Engine choice significantly affects aircraft performance profile.
Cruise Performance Comparison
| Metric | O-470 | IO-540 (230hp) | IO-540 (310hp) |
|---|---|---|---|
| Cruise speed | 140 knots | 145 knots | 150+ knots |
| Climb (sea level) | 650 fpm | 750 fpm | 900+ fpm |
| Service ceiling | 14,500 ft | 15,500 ft | 18,000 ft |
| Takeoff distance | 1,800 ft | 1,650 ft | 1,550 ft |
Fuel System Differences
The transition from Continental to Lycoming reflects fundamental fuel system philosophy changes.
Continental O-470 Fuel Injection
- Fuel delivery: Mechanically-driven fuel pump
- Fuel nozzles: Individual cylinder nozzles (6 total)
- Manifold: Simple fuel manifold design
- Mixture control: Simple mechanical linkage; pilot adjusts manually
- Start characteristics: Can be temperamental in cold weather
- Operating simplicity: Straightforward operation once mastered
Lycoming IO-540 Fuel Injection
- Fuel delivery: Engine-driven mechanical pump with redundancy
- Fuel nozzles: Individual cylinder nozzles; refined design
- Manifold: More complex; better fuel distribution
- Mixture control: Mechanical; simpler operation than O-470
- Start characteristics: More reliable cold-weather starts
- Operating characteristics: Generally easier management than O-470
Modern Turbo Fuel Management
- TIO-540 complexity: Turbocharger adds fuel control complexity
- Wastegate operation: Manual or automatic boost control
- Mixture lean schedule: More critical in turbocharged operation
- Operating procedures: Require better pilot understanding than naturally-aspirated
Reliability & Maintenance
Both engines have excellent reliability records with proper maintenance, though different failure modes exist.
Continental O-470 Reliability
- Age factor: 60+ year proven track record (original design)
- Common issues: Cylinder wear in high-time engines; valve stickiness
- Cold-weather starting: Can be difficult; requires technique
- Maintenance: Simple systems easier to troubleshoot
- Overhaul: Relatively straightforward; standard procedures
- Parts availability: Excellent; engine still widely supported
Lycoming IO-540 Reliability
- Proven record: 40+ year track record in aircraft service
- Common issues: Same cylinder/valve issues as other large aircraft engines
- Cold-weather starting: Better than O-470; more reliable
- Maintenance: More complex systems; requires skilled technicians
- Overhaul: Standard procedures; more labor intensive than O-470
- Parts availability: Excellent current support; widely available
Turbo-Specific Issues
- Turbocharger wear: Expected service life 1,500-2,000 hours; $3,000-5,000 replacement
- Intercooler maintenance: Requires periodic inspection and cleaning
- Wastegate operation: Critical to engine longevity; must function properly
- Boost control: Pilot error can cause engine damage; training essential
Operating Cost Comparison
Engine choice affects fuel burn, maintenance costs, and overall ownership expenses.
Fuel Consumption
- O-470 typical cruise: 10-11 gph at 65-75% power
- IO-540 (230hp) cruise: 11-12 gph at comparable power
- IO-540 (310hp) cruise: 12-14 gph at high power; 10-11 gph lean at reduced power
- Fuel cost difference: ~$600-1,200/year at 100 hours annual flying
Maintenance Cost Comparison
| Maintenance Item | O-470 | IO-540 |
|---|---|---|
| Oil changes | $50-75/change | $60-85/change |
| Spark plugs | $30-50/set | $40-60/set |
| Annual labor | 40-50 hours | 50-60 hours |
| Component repairs | Simpler, less expensive | More complex, more expensive |
Upgrade & Modification Options
Engine upgrade possibilities exist, though with significant cost and complexity implications.
O-470 Upgrade Options
- Continental STC power increases: Up to 250 hp available (rare, expensive)
- Cost: $15,000-25,000 for full upgrade installation
- Practicality: Limited options; most pilots operate standard O-470
- Overhaul upgrade: New engines with modern specifications available
IO-540 Turbo Upgrade Possibility
- Normally-aspirated to turbo conversion: Theoretically possible (extremely rare)
- Cost: $25,000-40,000+ (complete system installation)
- STCs required: Complex approval process
- Practical reality: Conversion almost never done; new purchase more practical
Selection Guide & Recommendations
Choosing between engines depends on mission, budget, and performance requirements.
Choose O-470 If You
- Want lower purchase price (legacy 182s with O-470 cheaper)
- Prefer simpler, more straightforward engine management
- Plan modest flying (50-100 hours annually)
- Value proven, time-tested reliability
- Don't require maximum altitude capability
Choose IO-540 If You
- Want better cold-weather starting characteristics
- Plan frequent cross-country flying (100+ hours annually)
- Value slightly better performance and climb
- Prefer modern systems and continued support
- Want longer TBO (2,000+ hours vs. 1,500 for older O-470s)
Choose TIO-540 Turbo If You
- Require 18,000 ft altitude capability
- Operate frequently in high-elevation mountain regions
- Want maximum climb performance (900+ fpm)
- Have budget for higher operating costs
- Can commit to proper turbo system management and maintenance