South Yorkshire I Mech E, Sheffield, 3 October 2013 High Speed 2- engineering, benefits & challenges Prof Roderick A Smith Chief Scientific Advisor Department for Transport & Imperial College London
Lecture Outline: 1. Introduction: transport past, present, future 2. Government & DfT plans 3. About HS2 4. Concluding remarks
1. Introduction The role of and importance of transport in our lives Brief history of transport in the UK Key future challenges: Demand Capacity Carbon Consequences of climate change
UK transport use per capita Freight: 3500 tonne km year 10 tonne km / day Plus one overseas trip each year, 80% by air 12,500 km / year 34.4 km / day By what mode? % km / day Bus, coach 6 2.1 Cycle 1 0.3 Motor cycle 1 0.3 Car, taxi 83 28.6 Rail 9 3.1 Air 8 2.8
km built in previous decade Transport infrastructure build Turnpikes Canals Railways City trams Trunk roads Motorways 16000 12000 8000 4000 0 1650 1700 1750 1800 1850 1900 1950 2000 Year
Development of traction Horse, steam, electric Urban Trams
When motorway driving was a pleasure!
The Buchanan Report 1963 (traffic) conditions as they are going to develop in this island [Britain] will demand an almost heroic act of self-discipline from the public. Motor manufacturers, parents and teachers will have major parts to play, but the main burden of responsibility will rest with drivers.
Demand Capacity DEmand Carbon
2 Government & DfT plans Further investment in roads Greening of cars, & encouraging mode switch Greater airport capacity New high speed rail system
Airports Commission Making sure UK airports and airlines are safe, secure and competitive while reducing their impacts on the environment and communities
3 About High Speed 2 What is it? Key engineering features Transformational possibilities Challenges Properly integrated system plans Time scales and costs Winning hearts & minds
600km Britain is a small and only partially densely populated country 300km 19
Manchester Scotland Newcastle Leeds Population of England: 2008 52m 2033 60m 2050 70m Old & new times London to West Midlands 1-24 to 0-49 Manchester 2-08 to 1-08 Leeds 2-12 to 1-22 Scotland 4-20 to 3-38 Birmingham Heathrow London Birmingham to Manchester 1-34 to 0-41 Leeds 2-05 to 0-57 Paris 4-30 to 3-00
World high speed rail expansion, 1964-
Complex technical system + people, both staff and passengers
Twice as fast as a car, half as fast as a plane Car 6 Hours Train Plane Access 4 2 1 Time of train journey 2 3 hours
Transition of Electric Power Consumption 220km/h 100% 270km/h 79% 91% 73% 84% 66% 68% 51% Series 0 Series 100 Series 300 Series 700 Series N700 *Comparison of Electric Power Consumption between Tokyo and Osaka.
Speed (km/h) Maintaining constant speed with use of the body-inclining system 300 Series N700 250 Series 700 Angle of 1 Tokyo Atami shizuoka Hamamatsu Nagoya Toyohashi Shin-Osaka Kyoto Reduced acceleration/deceleration frequency at curves Running at 270km/h over 2/3 distance for the Tokaido Shinkansen section (series 700 :about 1/3 distance)
Blockage ratio = area train / area tunnel
HS2 Summary Programme 2013 Public consultation on preferred route and station options for Phase Two High Speed Rail Preparation Bill, giving the government powers to spend money on preparatory work for the railway, to receive full parliamentary approval ( Royal Assent ) Phase 1 Hybrid Bill introduced to Parliament, containing legal powers to construct and operate Phase 1 of HS2 2014 Government decision on Phase Two route and station options Hybrid Bill process continues 2015 Commence engineering design, environmental impact assessment and preparation for Phase 2 Hybrid Bill Next Parliament Target date for full parliamentary approval ( Royal Assent ) of Phase 1 Hybrid Bill Phase 2 Hybrid Bill introduced to Parliament 2016/17 Construction of Phase 1 commences Late 2010s Mid 2020s Procurement of rolling stock Construction of Phase 2 commences 2026 Phase 1 line opens 2032/33 Phase 2 line opens
Some of the myths: HS2 will: use too much energy be a rich man s toy guarantee economic growth in the future only serves the end points diminishes the existing railway must go to existing city centres destroy huge swaths of countryside and anyway, Britain's geography is wrong
A 21 st Century Railway: The Passenger Experience High capacity: up to 18 trains per hour, up to 1100 seats per train Intelligent ticketing High quality comfort and access to trains and stations Good connections: end-to-end journeys 37
Rural Relative cost Between A & B the line to the core is at least twice as long, on (much) more expensive land, and with smaller radii 8 A Suburbs 4 1 2 Inner city Core New HS Station is the focal point for new development and a new transport hub An escape for the constraints of the past B Distance ratios: 6 4 1
Shin Yokahama station 1964 2004
Development of the Tokaido Shinkansen 1964 2006 1964 2006 Time 4hr 2hr 30min Trains/hour* 2 12 Trains/day 60 301 Pass/day 61,000 393,000 Tokyo/Shin-Osaka 553 km
Stand alone: Developing the network 1.Pennine 2 Edin./Glas. Build-up: 3.Lon/Birm/ Manc 4 Leeds/Birm 5.Lon/Bristol/ S Wales Complete the Network: 6 Leeds/New/ Edin 7NottL/Lon 8 Bristol/Birm
Thank you!