Dive into the heart of our 1.5TD

An Interview with Håkan Sandquist
Taking a look at Geely’s newest engine family, we talk to Dr. Håkan Sandquist, Geely’s 
Director of Powertrain Strategy at CEVT China Euro Vehicle Technology.
In 2010, after Volvo joined Geely, the two saw the future trend in the automotive industry 
where sustainability would be key. Emission regulations and rising fuel costs would result
in demand for more efficient engines and a transition to electrification. To meet this 
demand Volvo, with Geely’s support, developed its latest VEA – Volvo Engine 
Architecture, a new modular engine architecture for three and four cylinder engines 
developed from the onset to support electrified powertrain systems. Developed with 
sustainability in mind, the 1.5TD has the potential to meet even the most stringent future 
Euro 7 emissions and global fleet CO2 targets past 2030.
Why the move towards lower displacement engines?
The move towards lower displacement smaller engines came naturally as they’re more 
efficient and with modern engine technology provide the same power as larger engines. 
For compact models, a three cylinder is perfect for a variety of reasons. The smaller size 
leaves room for hybrid systems and gives designers more freedom. The lighter weight 
improves fuel economy and makes it easier to achieve a 50:50 chassis weight balance in
front wheel drive models improving drive performance.
How did Geely and Volvo address consumer concerns over three cylinder 
engines?
The main concern consumers have with odd numbered cylinder engines is perceivable 
engine vibration. However, Geely and Volvo did not think this was an unsolvable 
problem. For years, Volvo has utilized a five cylinder engine and has extensive 
experience developing engines for the premium market segment.

The latest engine technologies in the Geely 1.5TD engine such as counterweighted 
crankshafts, dual mass flywheel with centrifugal pendulum absorber damper, single 
balancing shaft, low noise timing belt, high stiffness oil pan, asymmetric oil pump 
impeller, engine compartment vibration dampener, etc have effectively eliminated 
perceivable engine vibrations by driver and passenger inside the vehicle. NVH (noise, 
vibration and harshness) in models utilizing Geely 1.5TD engine is on par or better than 
some equipped with four cylinder engines.
With support of electrified systems, perceivable vibrations can be reduced even further. 
Most vibration is felt during the engine start-up period and at lower engine speeds. 
However with addition of hybrid electric systems, engine start-up can made near 
instantaneous and low-speeds drive can be assisted by the electric motor.
Don’t smaller engines mean less power?
Powertrain technology today is very mature. Today’s state-of-the-art technologies such 
as low-inertia turbochargers, superchargers, continuous variable valve timing, direct 
injection, intelligent engine heat management systems, low-friction camshafts, electric 
power assist, etc have made it possible to offer low displacement engines that provide 
similar power to V6s.
All VEA engines are designed to accommodate a variable combination of turbochargers, 
superchargers, and electric systems, which allow Volvo and Geely to offer consumers 
different levels of power output within the same engine family.
In the process of developing our new engine family, we looked at the leaders in the 
industry for state-of-the-art technology and benchmarked against them. Based on the 
VEA, we developed engines with the best balance in performance, fuel efficiency, 
refinement and cost.
With the 1.5TD, we set out to create a highly responsive, compact and powerful 
premium-quality three-cylinder engine. With its low inertia turbocharger, traditional turbo 
lag is minimalized and nearly unperceivable while giving the engine the endurance it 
needs at higher speeds. The 1.5TD provides smooth linear power output similar to much 
larger displacement naturally aspirated engines.
Where was the 1.5TD engine developed and where are they produced?
The 1.5TD was jointly developed by Geely and Volvo at Volvo R&D centre in 
Gothenburg, CEVT China Euro Vehicle Technology in Gothenburg, and Geely Research 
Institute in China. The VEA – Volvo Engine Architecture developed by Volvo under Geely
form the foundation the 1.5TD.

Volvo and Geely tested and validated the 1.5TD above and beyond the industry 
standard. The 1.5TD engines are designed to last 15 years or 350,000 km, much higher 
than the industry standard 10 years or 200,000 km.
The 1.5TD engines are produced in powertrain plants around the world following Volvo 
Global Manufacturing System. The engines share over 90% of the same global suppliers 
through Geely global joint procurement system.
What does it mean when Geely and Volvo say the 1.5TD was developed specifically
to support electrification?
Both Geely and Volvo are convinced that electrification is the future and Volvo has 
promised that every model it sells will come with an electrified option. While the future is 
electric, the present is still very much powered by internal combustion.
We’re in a transition period in which different levels of electrification is needed in different 
markets. Having predicted this outcome when the idea of VEA was conceived, all VEA 
engines are designed to support electrification. As a modular engine architecture, VEA 
engines are essentially design with plug and play support for electrified systems. The 
1.5TD have native support for MHEV, REV, HEV, and PHEV powertrains.
Geely and Volvo have so far developed three base variants of the three cylinder engine. 
Additional tuning has also been made to meet the localized needs of different markets. 
The three cylinder engines are all turbocharged and include port fuel injection (PFI) or 
direct injection (DI). The latest variant, 1.5T Miller has been designed specifically for HEV
application by adjusting variable valve timing to enable the engine to run on the fuel 
efficient miller cycle.
How do electrified systems help reduce or eliminate the shortcomings of the three 
cylinder design?
Electric systems enhance the advantages of low displacement engines. Even the most 
basic 48V BSG mild hybrid can improve fuel efficiency by 15% in an already efficient 
three cylinder engine. Electric power offer assistance in low speed drive and engine start-
up where vibration is most commonly felt. Electric motors also add instant torque and 
power which is useful for low-speed drive.
 

Dr. Håkan Sandquist is the Director of Powertrain Strategy at CEVT China Euro Vehicle 
Technology. He has spent over 20 years researching and developing powertrain 
technologies for Volvo, Geely, and other engineering firms. Dr. Sandquist received his 
Ph.D in Internal Combustion Engines at Chalmers University of Technology in 2001 and 
has been working with powertrain electrification for more than 10 years.