Hubbry Logo
Toyota CD engineToyota CD engineMain
Open search
Toyota CD engine
Community hub
Toyota CD engine
logo
7 pages, 0 posts
0 subscribers
Be the first to start a discussion here.
Be the first to start a discussion here.
Toyota CD engine
Toyota CD engine
Toyota CD engine
View on Wikipedia
from Wikipedia
Toyota CD engine
Overview
ManufacturerToyota
Layout
ConfigurationStraight-4
Displacement2.0 L (1,995 cc)
Cylinder bore82.2 mm (3.24 in)
Piston stroke94 mm (3.7 in)
ValvetrainDOHC, 4 valves per cylinder
Compression ratio17.8:1 - 18.6:1
Combustion
TurbochargerVariable-geometry with intercooler
Fuel systemCommon rail direct injection
Fuel typeDiesel
Cooling systemWater-cooled
Output
Power output89–116 hp (66–87 kW)
Specific power44.6 hp (33.3 kW)/L - 58.1 hp (43.3 kW)/L
Torque output215–280 N⋅m (159–207 lb⋅ft)

The Toyota CD engine is a 2.0 L (1,995 cc) diesel engine used in the Toyota Corolla, RAV4, Avensis and other vehicles. It is a DOHC engine with a bore and stroke of 82.2 mm × 94 mm (3.24 in × 3.70 in) with 116 hp (87 kW). The higher-output CD Series engines have now largely been replaced by the AD engine while low output applications were replaced by the ND engine.[1]

1CD-FTV

[edit]

The 1CD-FTV (2.0 D-4D) is a compact inline-four turbocharged diesel engine initially in the first generation Avensis on November 22, 1999[2]

1st generation

[edit]

Technical specifications:[2]

  • Fuel injection system: common rail 135 MPa (1,350 bar; 19,600 psi),6 hole solenoid injectors with pilot injection
  • Camshaft drive: timing belt
  • Exhaust gas treatment: EGR equipped with catalyst; (EGR cooler on RAV4)
  • Emission standard: Euro III
  • Compression Ratio: 18.6:1
  • Fuel consumption combined: 39.2–47.9 mpg‑imp (7.21–5.90 L/100 km; 32.6–39.9 mpg‑US)
  • CO2 emission combined: 158–191 g (5.6–6.7 oz)/km

Applications

[edit]
Non-Intercooled Non VGT
[edit]

90 PS (66 kW; 89 hp) at 4000 rpm, 21.9 kg⋅m (215 N⋅m; 158 lb⋅ft) at 2400 rpm (Europe, Net DIN)

Intercooled Non VGT
[edit]

111 PS (82 kW; 109 hp) at 4000 rpm, 25.5 kg⋅m (250 N⋅m; 184 lb⋅ft) at 2000-2400 rpm (Europe, Net DIN)

Intercooled VGT
[edit]

116 PS (85 kW; 114 hp) at 4000 rpm, 25.5 kg⋅m (250 N⋅m; 184 lb⋅ft) at 1800-3000 rpm (Europe, Net DIN)

2nd Generation

[edit]

The 1CD-FTV was revised with a lower compression ratio and a second generation common rail system in preparation of then upcoming Euro IV emission standards. It was first introduced in the second generation Avensis in February 2003 where PM and NOX reducing D-CAT was also first implemented.[9]

Technical specifications:[9]

  • Fuel injection system: common rail 160 MPa (1,600 bar; 23,000 psi)/175–180 MPa (1,750–1,800 bar; 25,400–26,100 psi) on D-CAT Variants,6 hole solenoid injectors with pilot injection
  • Camshaft drive: timing belt
  • Exhaust gas treatment: EGR, equipped with cooler and catalyst; 4-way DPNR Catalyst and Exhaust Port Injection on D-CAT Variants[9]
  • Emission standard: Euro IV (Euro III: Corolla Verso)
  • Compression Ratio: 17.8:1
  • Fuel consumption combined: 45.6–48.7 mpg‑imp (6.19–5.80 L/100 km; 38.0–40.6 mpg‑US)
  • CO2 emission combined: 149–165 g (5.3–5.8 oz)/km

Applications

[edit]
Intercooled VGT with D-CAT
[edit]

118 PS (87 kW; 116 hp) at 4000 rpm, 28.6 kg⋅m (280 N⋅m; 207 lb⋅ft) at 2000-2200 rpm (Europe)

Intercooled VGT
[edit]

116 PS (85 kW; 114 hp) at 3600 rpm, 28.6 kg⋅m (280 N⋅m; 207 lb⋅ft) at 2000-2200 rpm (Europe)

References

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Toyota CD engine

View on Grokipedia
from Grokipedia
The Toyota CD engine is a family of 2.0-liter (1,995 cc) inline-four diesel engines produced by Toyota Motor Corporation from 1999 to 2010, comprising first-generation (1999–2006) and second-generation (2006–2010) variants, characterized by a cast-iron block, aluminum DOHC cylinder head with 16 valves, turbocharging, and an intercooled common rail direct injection system known as D-4D. The core variant, the 1CD-FTV, featured a bore of 82.2 mm and stroke of 94.0 mm, achieving a compression ratio of 18.6:1, with power outputs ranging from 89 to 118 PS (66-87 kW) at 4,000 rpm and torque from 215 to 280 N⋅m at 2,400-3,600 rpm, depending on the application and emissions tuning. Introduced as Toyota's first common-rail in September 1999, the 1CD-FTV utilized a high-pressure system operating at 135 MPa to enhance efficiency, power delivery, and reduced emissions compared to prior distributor-type . This innovation allowed to better compete in diesel-dominant markets like , where the engine powered compact and mid-size vehicles including the Corolla (E110/E120), Avensis (T220/T250), RAV4 (XA20), and various Verso models from 2000 to 2009. In 2003, the engine received the Diesel Particulate-NOx Reduction (DPNR) system, a pioneering catalytic technology that simultaneously reduced particulate matter and nitrogen oxides emissions—the first such mass-production implementation worldwide—enabling compliance with stricter 4 standards while maintaining performance. The CD series emphasized durability and fuel economy, with typical combined consumption around 5.9-6.5 L/100 km, contributing to its reputation for reliability in high-mileage applications across Toyota's lineup.

Overview

General description

The Toyota CD engine, designated as the 1CD-FTV, is a straight-4, DOHC, 2.0 L (1,995 cc) turbocharged common-rail that forms part of Toyota's D-4D series. Introduced in 1999 as Toyota's first 2.0 L D-4D engine, it debuted in the first-generation Avensis and features a bore and stroke of 82.2 mm × 94.0 mm. Across variants, it produces 89–116 hp (66–87 kW) at 3,600–4,000 rpm and 215–280 N⋅m (159–207 lb⋅ft) of at 2,000–3,000 rpm. Compression ratios range from 17.8:1 to 18.6:1, contributing to its efficiency in diesel applications. Designed primarily for the European market and select global regions, the CD engine powers compact and mid-size vehicles, emphasizing fuel economy and emissions compliance. It incorporates a common-rail fuel injection system for precise control and a variable-geometry turbocharger for improved low-end response.

Technical features

The Toyota CD engine family incorporates a common-rail direct injection system operating at pressures ranging from 135 MPa in early variants to approximately 160 MPa in later updates, allowing for multiple injections per cycle—including pilot injections—to optimize combustion, reduce noise, and lower emissions. This system uses electronically controlled solenoid injectors for precise fuel delivery directly into the combustion chamber, enhancing efficiency and power output while minimizing fuel consumption. A variable-geometry turbocharger (VGT), featuring adjustable vanes controlled by the engine ECU, pairs with an intercooler to provide responsive boost across the RPM range, improving low-end torque and overall engine efficiency without excessive lag. The valvetrain employs a double overhead camshaft (DOHC) design with 16 valves and hydraulic lifters, ensuring accurate timing and reduced maintenance needs through automatic lash adjustment. To comply with Euro III and IV emission standards, the engine integrates a water-cooled exhaust gas recirculation (EGR) system, which recirculates cooled exhaust gases into the intake to lower combustion temperatures and reduce NOx formation by over 60%. The cylinder block is constructed from durable cast-iron alloy for strength and longevity, while the cylinder head uses lightweight aluminum alloy to reduce overall weight and improve thermal efficiency. Fuel efficiency in typical applications achieves approximately 5.5–6.5 L/100 km in combined driving cycles, contributing to CO2 emissions as low as 151 g/km. Later updates incorporate Diesel Clean Advanced Technology (D-CAT), which combines a four-way with NOx storage and particulate filtration to further reduce and particulate matter emissions.

Development and production

History

The development of the Toyota CD engine was driven by the impending Euro III emissions standards set to take effect in 2000 for new vehicle registrations in , alongside the rising consumer demand for more efficient and refined diesel powertrains in the late 1990s. Toyota aimed to address these challenges by transitioning from traditional indirect-injection diesels to advanced direct-injection technology, enabling better compliance with (NOx) and particulate matter limits while improving and performance. The CD engine, a 2.0-liter inline-four turbocharged diesel utilizing common-rail direct injection under Toyota's D-4D branding, was introduced on November 22, 1999, as the company's first such powerplant for passenger cars. It debuted in the Avensis SR saloon, a family vehicle, to enhance competitiveness against established European rivals like Volkswagen's Passat and PSA Group's offerings, which dominated the diesel market at the time. Previewed at the 1997 Motor Show, the engine built on Toyota's long-standing diesel expertise dating back to 1957 and was developed in collaboration with Corporation for the common-rail system, allowing precise control over injection timing and pressure for reduced noise and improved drivability. A key milestone came in 2003 with an update to the CD engine lineup across models like the Avensis and Corolla, achieving full compliance with the more stringent Euro IV emissions requirements through refinements in , exhaust aftertreatment, and the introduction of the Diesel Particulate-NOx Reduction (DPNR) system. This positioned the engine as a benchmark for clean diesel performance in mid-size vehicles, contributing to Toyota's strategy to expand its European diesel market presence from a low base in the late toward capturing a larger share of the growing diesel segment, which rose overall from under 10% of new car sales in 1995 to over 50% by the mid-2000s. Production of the CD engine continued until , after which it was phased out in favor of the more advanced AD series engines, which offered further emissions reductions and efficiency gains to meet evolving regulations like Euro V.

Production details

The Toyota CD engine production commenced in in September 1999, marking the debut of Toyota's first common-rail with a pressure of 135 MPa. To support European market needs, manufacturing expanded to Toyota Motor Manufacturing 's Deeside engine plant in , where production of the 2.0 L D-4D variant began in early 2003, targeting an initial annual volume of 70,500 units. The Burnaston vehicle assembly plant in , , integrated the CD engine into models like the Avensis from the engine's launch year, while Deeside handled engine production. Production of the CD engine ended in 2007 as Toyota transitioned to the AD series for improved emissions compliance.

First generation (1999–2006)

Design and specifications

The first-generation 1CD-FTV engine, introduced in September 1999, was Toyota's initial common-rail diesel offering, featuring a cast-iron block and aluminum DOHC with 16 valves, turbocharging with , and a D-4D common-rail direct injection system. The engine has a displacement of 1,995 cc, with a bore of 82.2 mm and stroke of 94.0 mm, and a of 18.6:1. It employs injectors operating at a fuel pressure of 135 MPa (1,350 bar; 19,600 psi) for multi-stage injection, enhancing efficiency and reducing noise compared to earlier diesels. A (VGT) provides improved low-end response and boost control. Performance varied by application and emissions tuning: power outputs ranged from 89 PS (66 kW; 88 hp) at 4,000 rpm for early low-emission variants to 101 PS (74 kW; 100 hp) at 4,000 rpm standard, and up to 116 PS (85 kW; 115 hp) at 4,000 rpm with the 2003 update; torque ranged from 215 N⋅m (159 lb⋅ft) to 250 N⋅m (184 lb⋅ft) at 1,800–3,600 rpm initially, increasing to 280 N⋅m (207 lb⋅ft) at 2,000–3,200 rpm in later tunes. The dry weight is approximately 160 kg, balancing durability with the aluminum head construction. In 2003, Toyota introduced the Diesel Particulate-NOx Reduction (DPNR) system as part of the D-CAT (Diesel Clean Advanced Technology) framework—the world's first mass-produced catalyst for simultaneous reduction of particulate matter and NOx emissions—enabling Euro 4 compliance. The DPNR integrates an oxidation catalyst, NOx storage-reduction catalyst, and particulate filter, using periodic rich-fuel pulses for regeneration and NOx reduction to levels below Euro 4 limits (e.g., NOx 0.25 g/km, PM 0.025 g/km). This upgrade maintained performance while significantly cutting emissions without a standard diesel particulate filter in all variants.

Applications

The first-generation 1CD-FTV, primarily the 101 PS and later 116 PS variants with D-4D common-rail for Euro 3/4 compliance, was used in various European-market models from 2000 to 2006, emphasizing compact and mid-size vehicles. In the (T220), the engine powered sedan, hatchback, and wagon from 2000 to 2003, followed by the Avensis (T250) from 2003 to 2006, providing efficient diesel options for family cars. The Toyota Corolla (E110) utilized the engine in European hatchback and sedan models from 2000 to 2002, with continued use in the Corolla (E120/E130) from 2002 to 2006, appealing to compact car buyers with its fuel economy. For the Toyota RAV4 (XA20), the 116 PS variant was fitted from 2001 to 2005, mainly in front-wheel-drive and all-wheel-drive SUVs before later engine changes. Additional applications included the Toyota Avensis Verso (XM20) minivan from 2001 to 2006, and the Toyota Corolla Verso (E121) from 2004 to 2006, as well as select Toyota Previa (XR30) models.

Second generation (2003–2010)

Design and specifications

The second-generation 1CD-FTV engine, introduced in 2003, was engineered to comply with Euro IV emissions standards and featured the integrated Diesel Clean Advanced Technology (D-CAT) system, including a (DPF), for enhanced particulate matter and control. This update focused on integrating advanced exhaust after-treatment to reduce pollutants while maintaining diesel efficiency. The engine retains the core inline-four configuration with a displacement of 1,995 cc, bore of 82.2 mm, and stroke of 94.0 mm, but incorporates refinements for stricter regulations. Performance specifications include a standard power output of 116–118 hp (87 kW) at 3,600 rpm and maximum of 280 N⋅m (207 lb⋅ft) available between 2,000 and 2,200 rpm, providing balanced low-end response suitable for mid-size vehicles. The was lowered to 17.8:1 to optimize compatibility with the D-CAT system, which helps mitigate knocking under conditions. The common-rail fuel injection system operates at a high pressure of 180 MPa, enabling precise multi-stage injection for improved and reduced . Additionally, the employs an enhanced (VGT), also known as a variable nozzle turbo (VNT), with electronic actuation for quicker spool-up and better boost control across the rev range. A key engineering upgrade is the integration of Toyota's D-CAT (Diesel Clean Advanced Technology) system, which combines an oxidation catalyst, NOx storage-reduction catalyst, and DPF to achieve significant emissions reductions, including levels approximately 50% below Euro IV limits (0.12 g/km) and particulate matter reduced by 90% (0.002 g/km). This setup adds emissions hardware that increases the engine's dry weight to approximately 165 kg, reflecting the for cleaner operation without compromising the aluminum block and head . The D-CAT enables continuous NOx adsorption and reduction through periodic rich-fuel spikes, enhancing overall environmental performance. Production of this generation ended in 2009 for most applications.

Applications

The second-generation Toyota CD engine, known as the updated 1CD-FTV with a revised system for Euro 4 compliance, was fitted to several European-market Toyota models between 2003 and 2009, delivering 116 hp in its standard configuration. In the (T25), the 116 hp variant powered sedan and wagon body styles from 2003 to 2009, offering a balance of performance and efficiency for family-oriented vehicles. The (E15) hatchback and sedan models in utilized the 116 hp engine from 2007 to 2010, targeting buyers seeking diesel economy. Additional applications included the (formerly Corolla Verso or Avensis Verso) minivan from 2006 onward, as well as select Toyota Blade models in , which shared the Avensis platform. Production of the second-generation variant ended in 2009.

Reliability and issues

Common problems

One of the most frequently reported issues with the Toyota CD engine (1CD-FTV) involves injector clogging and premature wear, particularly in pre-2003 versions, often attributed to the use of low-quality or contaminated that leads to deposits on the injectors. Symptoms typically manifest as rough idling, during , and noticeable power loss, especially under load, due to uneven delivery and abnormal combustion. These problems can exacerbate if not addressed, potentially contributing to broader engine vibrations or knocking, and may require injector cleaning or replacement to restore performance. Turbocharger-related faults, including variable geometry turbine (VGT) actuator malfunctions, are another common concern, stemming from mechanical , hose leaks, or carbon buildup that causes the to stick or fail to regulate boost properly. This often results in limp mode activation, characterized by reduced power output and hesitation, particularly noticeable after 100,000 km of use when deposits accumulate in the . Turbo breakdowns can also lead to increased oil consumption as seals degrade, further compounding lubrication challenges if oil levels are not monitored closely. The (EGR) is prone to rapid clogging from carbon deposits, a vulnerability of the common-rail diesel design where incomplete combustion recirculates back into the . This buildup reduces , triggers misfires, and elevates emissions, with symptoms including sluggish performance and rough operation during or low-speed driving. In severe cases, a stuck-open EGR can dilute the air-fuel mixture, mimicking faults and necessitating or replacement. From the 2003 update, models equipped with the —a variant—for Euro 4 compliance face regeneration challenges, where incomplete burns occur during frequent short trips or urban driving, leading to filter blockages and warning lights. This inefficiency can increase backpressure, reducing power and fuel economy while risking costly DPF cleaning or replacement if regeneration cycles fail repeatedly. Post-injection strategies employed in the common-rail system for emissions control, particularly in DPNR-equipped variants, contribute to oil dilution by allowing unburnt fuel to mix with engine oil during late-cycle injections, potentially accelerating bearing wear over time if oil condition is not regularly checked. This issue is more pronounced in post-2003 engines with active regeneration, where frequent cycles in stop-start conditions exacerbate fuel ingress into the . Failure rates for these components tend to be higher in pre-2003 units due to less refined common-rail tolerances and earlier solenoid injector designs, with injector and EGR issues appearing more frequently before 200,000 km compared to the updated post-2003 versions, which benefit from improved materials but retain turbo actuator vulnerabilities. Despite these issues, properly maintained 1CD-FTV engines often achieve lifespans of 250,000-400,000 km. Overall, while the 1CD-FTV demonstrates strong longevity with proper fuel and maintenance, these emissions and fuel system weaknesses highlight the engine's sensitivity to operating conditions.

Maintenance recommendations

Regular oil changes are essential for the Toyota CD engine to mitigate fuel dilution from the diesel injection system. Toyota recommends intervals of every 10,000 to 15,000 km using 5W-30 , which helps maintain and prevents premature wear on components like the and injectors. Failure to adhere to this schedule can exacerbate issues such as carbon buildup and reduced . The should be replaced annually or every 20,000 km to safeguard the high-pressure injectors from contaminants in , which could otherwise lead to costly repairs. This maintenance item is particularly critical in regions with variable fuel quality, as a clogged filter can restrict flow and cause performance degradation. For the (EGR) system, professional cleaning is advised every 60,000 km to remove carbon deposits that impair operation and emissions control. In post-2003 CD engines equipped with a (DPF), the same interval applies for cleaning, supplemented by consistent use of high-quality, low-sulfur to promote effective passive and active regeneration cycles. Turbocharger maintenance involves inspecting the variable geometry actuators and associated linkages at 100,000 km to ensure proper boost control and prevent overboost or underboost conditions. Owners should avoid frequent short trips, which hinder DPF regeneration and allow oil coking in the turbo; instead, incorporate longer drives at highway speeds periodically to aid cooling and soot burn-off. As an interference engine, the CD series requires timing belt replacement every 100,000 km (60,000 miles) or 5-10 years, whichever occurs first, to avoid catastrophic valve-piston contact that could destroy the engine. This service typically includes the water pump, tensioners, and seals for comprehensive reliability. Utilizing OBD-II diagnostic scanners is recommended for routine checks, enabling early detection of injector solenoid faults or turbo pressure anomalies through live data and error code retrieval, which can prevent escalation to major failures. With diligent adherence to these practices, including prompt attention to warning lights and fluid levels, the Toyota CD engine typically achieves a lifespan of 250,000 to 300,000 km before major overhaul.

Replacement and legacy

Successor engines

The primary successors to the Toyota CD engine series were the AD-series diesel engines, specifically the 1AD-FTV (2.0 L) and 2AD-FTV (2.2 L), introduced in 2005 to address evolving emissions regulations and improve overall efficiency. These engines featured advanced common-rail direct injection systems with higher fuel pressures, reaching up to 180 MPa in variants like the 2AD-FHV, enabling better combustion control and reduced emissions compared to the CD series. For smaller-displacement applications, the ND-series 1ND-TV (1.4 L) engine, initially launched in 2001 but updated post-2005 with variable geometry turbochargers and (DPF) integration from 2008, served as a replacement in compact models. The transition from the CD engines was driven by their limitations in particulate matter control, which struggled to meet tightening Euro 4 and emerging Euro 5 standards without extensive modifications. The AD engines incorporated DPF systems—such as DPNR (Diesel Particulate Reduction) in the 2AD-FHV—for effective capture and regeneration, alongside oxidation catalysts, achieving emissions well below Euro 4 limits for and particulates. This shift prioritized compliance with European regulations while enhancing through optimized injection timing and reduced friction components like roller rocker valve trains. During the overlap period from 2006 to 2010, CD engines continued in legacy models such as older Corolla and Avensis variants, while AD engines gradually took over new production lines. Performance-wise, the successors provided higher outputs in similar displacements, with the 2AD-FTV producing 136–150 hp and up to 360 Nm of , offering improved drivability without sacrificing refinement. Production transitioned fully at facilities like (TMUK) in , where a $175 million in retooled lines specifically for the AD series to support increased volume and emissions-compliant manufacturing.

Impact and reception

The introduction of the Toyota CD engine, part of the D-4D diesel lineup, marked a pivotal step in Toyota's strategy to penetrate the diesel-dominated European market, where the company achieved a 5% overall by 2005—the highest to date—largely driven by demand for efficient diesel options like the CD series fitted to models such as the Avensis and Corolla Verso. These engines powered Toyota's lineup during their production run, bolstering the brand's reputation for reliable diesel powertrains in fleet and family applications. User feedback highlighted the CD engine's refinement and accessible , which provided smooth and comfortable cruising suitable for long-distance travel, earning praise in expert reviews for being quieter and more responsive than many contemporary diesels. Prevalent reliability ratings averaged around 4 out of 5 stars in owner surveys for early models, reflecting strong overall durability when maintained properly. However, post-warranty experiences often drew criticism for the high cost of injector repairs, a known vulnerability in the common-rail system that could exceed £1,000 per unit including labor, deterring some long-term owners. On the environmental front, the CD engine's direct-injection technology and integration with early emissions controls reduced NOx and particulate matter in equipped models compared to predecessor indirect-injection diesels, aligning with tightening Euro 3 standards and enhancing Toyota's image as a provider of "green" diesel solutions. This efficiency focus contributed to notable fuel economy achievements, such as the Avensis 2.0 D-4D securing a win in the 2001 RAC/Fleet World MPG Marathon with 58.12 mpg, underscoring its commendation for low running costs. Aftermarket support remains robust in Europe, where parts for the CD engine are widely available through Toyota dealers and specialists, facilitating straightforward maintenance. Enthusiasts have exploited its tuning potential, with ECU remaps commonly boosting output to around 140 hp from the stock 116 hp while preserving drivability. The CD engine's legacy endures through its influence on subsequent D-4D evolutions, introducing common-rail principles that shaped Toyota's later diesel advancements for better efficiency and compliance. It continues to enjoy popularity in the used market for its economical operation, with equipped vehicles like the Avensis retaining approximately 60% of original value after 10 years due to proven longevity and low ownership costs.

References

  1. https://www.engine-specs.net/toyota/1cd-ftv.html
  2. https://www.toyota-global.com/company/history_of_toyota/75years/data/automotive_business/products_technology/technology_development/engines/index.html
  3. https://www.slashgear.com/1680055/toyota-best-diesel-engines-ever-built/
  4. https://www.carfolio.com/toyota-avensis-verso-2.0-d4-d-107195
  5. https://media.toyota.co.uk/toyota-avensis-sr-d4-d/
  6. https://media.toyota.co.uk/vehicles/avensis-1997-2003/
  7. https://media.toyota.co.uk/toyota-launches-d-4d-diesel-engine-for-rav4/
  8. https://toyota-club.net/files/2003/03-02-06_rav4.htm
  9. https://media.toyota.co.uk/wp-content/uploads/sites/5/pdf/Avensis-Gen1-MC-VVT-i-launch-pack-2000.pdf
  10. https://media.toyota.co.uk/wp-content/uploads/sites/5/pdf/Corolla-gen9-MC-launch-pack-2004.pdf
  11. https://media.toyota.co.uk/wp-content/uploads/sites/5/pdf/RAV4-gen2-D-4D-launch-pack-2001.pdf
  12. https://global.toyota/en/detail/8050546
  13. https://www.toyota-industries.com/investors/items/p016-042.pdf
  14. https://media.toyota.co.uk/vehicles/corolla-2-0-d-4d-archive-2003/
  15. https://www.theguardian.com/environment/2015/sep/22/the-rise-diesel-in-europe-impact-on-health-pollution
  16. https://toyota-club.net/files/faq/03-08-16_engine_eng.htm
  17. https://www.just-auto.com/news/uk-toyota-european-diesel-engine-production-fully-operational/
  18. https://media.toyota.co.uk/two-new-engines-for-toyota-avensis/
  19. https://www.auto-data.net/en/toyota-avensis-model-1060
  20. https://www.auto-data.net/en/toyota-corolla-model-609
  21. https://www.auto-data.net/en/toyota-rav4-model-1063
  22. https://www.auto-data.net/en/toyota-avensis-verso-model-1062
  23. https://dieselnet.com/news/2003/10toyota.php
  24. https://media.toyota.co.uk/wp-content/uploads/sites/5/pdf/Avensis-Gen2-launch-pack-2003.pdf
  25. https://global.toyota/pages/global_toyota/mobility/technology/toyota-technical-review/TTR_Vol54-1_E.pdf
  26. https://www.auto-data.net/en/toyota-avensis-ii-wagon-2.0-d-4d-116hp-3593
  27. https://www.car.info/en-se/toyota/corolla/corolla-4-door-sedan-20-d-4d-2006-27373381
  28. https://www.ultimatespecs.com/car-specs/Toyota/1570/Toyota-Corolla-IX-20-D4-D-116.html
  29. https://www.auto-data.net/en/toyota-avensis-verso-2.0-d-4d-116hp-3602
  30. https://www.engineindetail.com/pa/toyota-corolla-verso-2-0-d-4d-2004
  31. https://club.autodoc.co.uk/magazin/d-4d-engines-operating-characteristics
  32. https://www.kdjoteros.com/wp-content/uploads/TSB.EG-4010.pdf
  33. https://www.scribd.com/document/21990123/Ref-No-EG-4010-Date-Page-Jul-2004
  34. https://www.service-engine.com.ua/webroot/pdf/TOYOTA%2520Avensis%25203.PDF
  35. https://autoexpert.com.au/posts/the-truth-about-oil-dilution-with-fuel-and-how-you-can-fix-it
  36. https://www.toyotanation.com/threads/fuel-dilution-in-engine-oil.1723164/
  37. https://mymotorlist.com/engines/toyota/1cd-ftv/
  38. https://support.toyota.com/s/article/What-are-the-oil-chan-7604
  39. https://www.toyotaownersclub.com/forums/topic/134120-d4d-service-intervals/
  40. https://www.manualslib.com/manual/2154531/Toyota-1cd-Ftv.html?page=33
  41. https://www.toyotaownersclub.com/forums/topic/159607-timing-belt-avensis-20-diesel-1cd-ftv-2003-2006/
  42. https://www.ancel.com/products/ancel-td700-obdii-scan-tool-for-toyota
  43. https://www.osti.gov/etdeweb/biblio/20612354
  44. https://toyota-club.net/files/faq/21-07-20_faq_nd-engine_en.htm
  45. https://toyota-club.net/files/faq/13-01-01_faq_ad-engine_eng.htm
  46. https://www.assemblymag.com/articles/85268-toyota-to-upgrade-uk-plant
  47. https://media.toyota.co.uk/geneva-motorshow-2005/
  48. https://www.toyota-global.com/company/history_of_toyota/75years/data/automotive_business/sales/activity/europa/index.html
  49. https://www.whatcar.com/toyota/avensis/estate/used-review/n646
  50. https://www.whatcar.com/toyota/avensis/saloon/used-review/n881/reliability
  51. https://www.autoexpress.co.uk/toyota/avensis/60954/used-buyers-guide-toyota-avensis
  52. https://media.toyota.co.uk/model/archive-vehicles/avensis-archive/avensis-1997-2003/avensis-archive-vvt-i-2000/
  53. https://www.racechip.com/chip-tuning/toyota.html
Add your contribution
Related Hubs
User Avatar
No comments yet.