Energiforskningskonferansen 2017 Nullutslipp landtransport Sven Bjørkgård, Innovation Manager, Kongsberg Automotive
Kongsberg Automotive at-a-glance World class products to the global vehicle industry Global Tech Centers in Canada, China, Germany, Norway, Sweden, & the US KA products are in 1 out of 5 produced cars 10 000 Employees 580 R&D staff Listed on the Oslo Stock Exchange; HQ in Switzerland Global presence: 30 production facilities in 18 countries Revenues of EUR 1 bn 2
Business segments Interior Powertrain & Chassis Products Specialty Products MARKET & PRODUCTS MARKET & PRODUCTS MARKET & PRODUCTS Comfort and safety related products for vehicle interiors Powertrain systems and chassis related products for heavy and light duty commercial vehicles Driver control and fluid handling systems for commercial vehicles and passenger cars, as well as innovation products and software 3
Customer base 4
Footprint to support our customer base Headquarters Production facility Tech Center Office Warehouse 5
Road Transport social responsability Providing necessary goods delivery to support people lives Facilitates trade among people and nations, contributing to mutual dependance and peace But also contributes to air pollution, noise pollution and road congestion However, these problems can be greatly reduced with concerted effort 6
We can achieve a lot together! Euro 1 vs Euro 6, real life test result 500 hp timber trucks from 1991 vs 2016; NOx down from 76,3 gram/10km to 3,2 gram/10km Tested under real driving, back to back by AVL In addition fuel consumption was also down with 25%, with corresponding reduction in CO2 7
Legislation development & future expectations Future: Limitation of CO 2 per km per freighted ton Need for reduced fuel consumption per freighted ton Still a lot can be done to improve the diesel motor based transport But gradually we should also switch to zero-emission where possible 8 8
Road map to zero emission long haul.. Longhaul; BEV with electric road charging partly, FCEV on long haul stretches without charging, or battery revolution? 2030 BEV Longhaul HD? 2025 Electric road charging HD? 2021 FCEV Long haul HD BEV Local delivery HD 2020 BEV Local HD 2017 BEV Local delivery MD BEV Local delivery LD 2015 2016 9
Which system will win for long haul? Battery cost Battery weight Hydrogen distribution System durability Infrastructure cost Standardization Tesla Balqon Daimler MAN TransPower BYD EMOSS Toyota (UPS) Nikola Kenworth Scania Vision Alstom Siemens ABB Bombardier Volvo Scania Battery electric Fuel cell Electric Road Systems 10
Zero-emission part time Do we have to wait until there are viable solutions for zero-emission? No, for certain applications technology is here now that makes a vehicle zero emission part-time, with reasonable pay-back time (i.e. cheap CO2 reduction) Urban refuse trucks are immobile at 30-60% of their time, a system that shuts down the motor, but still can operate the compactor and be ready for a quick start at the press of the trottle exists: 30% fuel reduction proven in New York city real life test Can be retro-fit, brand in-dependent Source:Effenco 11
China leading the way on ZEV ~20% market share Shanghai Autoshow 2017 Delivery trucks launched by a main brand (Foton) Many new electric buses launched 12
KA Electric vehicle product; On-board charger First use is Volvo electric and plugin hybrid buses Fed by 400V/3 phase charging the battery at 750V, 11 kw power Around 300 different requirements to fulfill (grid connected, vehicle installed, emission influencer) Around 90 000 hours spent to develop and qualify the product The KA charger is for filling up the battery over night Planned to be used on further vehicle platforms 13
The KA initiated E-BIT project (Effektiv Bærekraftig Innovativ Transport) Background Example from US: 6% of CO2 emmision comes from trucks, of which 75% is from heavy duty long-haul (Wilfried Achenbach, Green Truck Summit, 14th of March 2017) Yet most of EV is for local distribution, why is this? Because of; Cost (~900 $/kwh today for LFP Li-Ion*, falling to 400 $/kwh in 2030?) Weight (~150 Wh/kg today for LFP Li-Ion, rising to 250 Wh/kg in 2030?) *HD trucks should use LFP, not NCA like cars due to number of charges; car 2000 times, truck at least 5000 times Still in 2030 a HD long haul battery at 1000kWh will be 4000kg and cost >2 MNOK, with present development Which solution can solve the problem? EBIT project mission Research into CO2-reduction on HD long-haul Focus on products to be installed in the trucks, and related services Develop a product that can be sold globally 14
The E-BIT project (Effektiv Bærekraftig Innovativ Transport) Invitation for cooperation Planned to start a 4-year project, supported by NFR, from 2018 A product that can be industrialized and commercialized Contributing to C02-reduction from long-haul transport Specific research need defined E-BIT partners Semcon Sintef Kartverket partners open for discussion link to 15
Zero emmission future 16