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NTU and TUM Design World's First Electric Taxi For The Tropics

Jointly built by researchers from NTU and Germany’s TUM 24.04.2015

 

The world’s first electric taxi for tropical megacities has been launched.

 

Named EVA, the electric taxi is built by TUM CREATE, a collaboration between Nanyang Technological University (NTU) and one of Europe’s top universities, Germany’s Technische Universität München (TUM). The project is supported by the National Research Foundation, Prime Minister’s Office, Singapore.

 

Gracing the unveiling ceremony is His Excellency Dr Michael Witter, Ambassador of the Federal Republic of Germany, accompanied by NTU President Professor Bertil Andersson and TUM Vice President for Research and Innovation Professor Thomas Hofmann.

 

Professor Bertil Andersson said the EVA Electric Taxi project is a good example of future electro-mobility and its possibilities, achieved by leveraging NTU’s established track record in application-driven engineering and TUM’s deep expertise in electro-mobility.

 

“NTU is at the forefront of sustainability research and we had identified electro-mobility as one of the solutions necessary to tackle climate change. Our success in building an electric car for the tropics is a big step forward in realising our vision for a more sustainable future for everyone,” said Prof Andersson.

 

“Equally significant is that EVA is the first car ever designed, developed, and manufactured locally. While Singapore is not an automotive manufacturing country, the nation’s economy will definitely benefit in the long run through technology transfer. We are now among the leaders in electro-mobility systems and will be able to offer our knowledge and services to the automotive industries in this region.

 

“Through TUM CREATE, we have also trained local talent and built a pool of electro-mobility experts who will be in strong demand, given that the electric vehicle production globally is expected to rise rapidly over the next decade.”

 

TUM CREATE Chief Executive Officer Professor Maria-Elisabeth Michel-Beyerle said many of the technologies researched and used in building EVA, such as its specially tailored fast-charging battery system, had yielded innovations beneficial to the automotive industry.

 

“Through EVA, this partnership between TUM and NTU has led to the development of several technology innovations which has caught the attention of the automotive industry,” said Prof Michel-Beyerle.

 

“Last year EVA received the eCarTec Award, the Bavarian State Prize for Electromobility at the eCarTec, the world's largest electromobility fair held in Munich, Germany. We are also now in discussions with some companies who are interested to commercialise our innovations.”

 

Prof Michel-Beyerle highlighted that EVA’s achievements are even more significant as it was built here in two years by a small team of about 40 researchers, who were mostly PhD students from about 20 nationalities. In contrast, car manufacturers typically have huge work teams with vast experience at their disposal to design and build concept cars.

 

EVA’s suitability for Singapore

 

The research team’s decision to build an electric taxi fitting Singapore’s climate was for very practical reasons.

 

By replacing fuel-burning vehicles with electric-powered ones, carbon emissions as well as local noise and exhaust emissions can be reduced.

 

Existing taxis also have far greater impact on the environment compared to private passenger cars. In Singapore, taxis make up less than 3 per cent of the vehicle population. Despite their small numbers, they account for 15 per cent of the total distance covered by all vehicles in Singapore.

 

Many taxis run on two-shift rotation for up to 24 hours every day, covering an average of 520 km.  In addition, transportation companies around the world typically re-purpose passenger cars as taxis.

 

Professor Markus Lienkamp, the Scientific Advisor Director at TUM CREATE who planned the EVA project from conception to its eventual completion, said the research team had set out four years ago asking very important questions such as whether electric vehicles would be feasible for public transport systems in megacities.

 

“Many of the public transportation vehicles today are re-purposed from their original design as passenger cars and vans, into taxis and shuttle buses,” said Prof Lienkamp, who is also the Director of Research for TUM’s Munich School of Engineering and the Science Center for Electromobility.

 

“Now that we have proven that it is possible to design vehicles for specific purposes of public transport, it has opened up new questions for us to explore, mainly how  purpose-built electric vehicles would fit into the whole transport eco-system together with the trains and buses, and these solutions can reduce travelling times and energy usage used for transportation.”

 

Professor Lam Khin Yong, NTU’s Chief of Staff and Vice President for Research, said many of EVA’s innovations can also be applicable and deployed to other industry sectors in Singapore, such as its energy-efficient air conditioning system and lightweight carbon-fibre composites.

 

“Due to the hot and humid weather in the tropics, a significant amount of energy is consumed by the air conditioning system in automobiles,” said Prof Lam, who is also the Co-Scientific Advisor Director at TUM CREATE.

 

“The innovative energy efficient air conditioning solutions deployed in EVA, like its new energy-efficient compressor technologies, can be adopted in both current and future vehicles to reduce their carbon footprint.

 

“In addition, NTU’s key research projects at the Energy Research Institute such as our inductive wireless charging technology, a good alternative to the current plug-in conductive charging, are also successfully installed in EVA.”

 

EVA’s innovative design

 

EVA’s fast-charging battery system is able to give it a range of up to 200 kilometres with just a 15-minute recharge. Despite having to house a large battery pack, EVA is actually 150kg lighter than other comparable-sized taxis due to its lightweight carbon-fibre composites.

 

Its ergonomically designed seats are equipped with a purpose-built system where moisture and heat are sucked away from the surfaces of the seat, so as to maximise comfort for passengers.

 

The front passenger seat can also be folded forward to reveal an integrated child seat for children aged 9 months to 3 years old, filling the void in the area of safety for young taxi passengers

 

The climate controls, in-car entertainment, booking and digital payment systems are also linked via the infotainment system. This allows passengers to control air-conditioning and audio settings wirelessly from their personal mobile devices.

 

Moving forward, TUM CREATE will look at testing the car further on the NTU campus. NTU’s complete eco-system of public and private transportation, including public and shuttle buses, private cars, bicycles and prototype autonomous vehicles makes it the ideal living test-bed.

 

Over the next four years, NTU will also turn into a national test-bed for smart mobility solutions, such as Vehicle-to-Everything (V2X) technology, which looks at equipping cars with devices that can talk to traffic infrastructure and other cars.

 

NTU has a complete eco-system of public and private transportation, including public and shuttle buses, private cars, as well as prototype electric and autonomous vehicles.

 

About Nanyang Technological University

 

A research-intensive public university, Nanyang Technological University, Singapore (NTU Singapore) has 33,000 undergraduate and postgraduate students in the colleges of Engineering, Business, Science, Humanities, Arts, & Social Sciences, and its Interdisciplinary Graduate School. It has a new medical school, the Lee Kong Chian School of Medicine, set up jointly with Imperial College London.

 

NTU is also home to world-class autonomous institutes – the National Institute of Education, S Rajaratnam School of International Studies, Earth Observatory of Singapore, and Singapore Centre on Environmental Life Sciences Engineering – and various leading research centres such as the Nanyang Environment & Water Research Institute (NEWRI), Energy Research Institute @ NTU (ERI@N) and the Institute on Asian Consumer Insight (ACI).

 

A fast-growing university with an international outlook, NTU is putting its global stamp on Five Peaks of Excellence: Sustainable Earth, Future Healthcare, New Media, New Silk Road, and Innovation Asia.

 

The University’s main Yunnan Garden campus has been named one of the Top 15 Most Beautiful in the World. NTU also has a campus in Novena, Singapore’s medical district.

 

For more information, visit www.ntu.edu.sg

 

About Technische Universität München (TUM)

 

Technische Universität München (TUM) is one of Europe’s leading research universities, with around 500 professors, 10,000 academic and non-academic staff, and more than 37,000 students. Its focus areas are the engineering sciences, natural sciences, life sciences and medicine, reinforced by schools of management and education.

 

TUM acts as an entrepreneurial university that promotes talents and creates value for society. In that it profits from having strong partners in science and industry. It is represented worldwide with a campus in Singapore as well as offices in Beijing, Brussels, Cairo, Mumbai, and São Paulo.

Nobel Prize winners and inventors such as Rudolf Diesel and Carl von Linde have done research at TUM. In 2006 and 2012 it won recognition as a German "Excellence University." In international rankings, TUM regularly places among the best universities in Germany.

 

For more information, visit www.tum.de

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