Skip to main content
To KTH's start page

Real time information applications and energy efficient solutions for rail freight (FR8HUB) (RV35)

Project Coordinator - Trafikverket

Project Leader at KTH - Mats Berg (WP1, WP4, WP6)

Scientists at KTH/WP6 - Zhendong Liu

Other Scientists - From 14 European Partners

Sources of Funding - Trafikverket and European Commission (Horizon 2020)

FR8HUB is to bring advanced technologies and digitalization processes to the rail freight market and consists of six work packages. The KTH Railway Group is participating in WP1 Migration plan, WP4 Intelligent video gate, and WP6 Freight loco of the future. The KTH involvement in WP6 is described below.

In WP6 KTH works on Task 6.4 Study implementation of power peak shaving. For smart electric power grids, power peak shaving is being used to avoid installation of capacity to supply peaks of variable loads. KTH works on smart train operation for which the power demand is reduced without changing the timetable (and other partners work on onboard energy storages). In contrast to ECO driving, aiming at reducing the energy usage, this approach will focus on studying the influence of train speed profile (driving style) reducing the amplitude of the highest power peaks without violating the timetable. For a given railway line, freight train and timetable, simulations are suggesting an optimized speed profile with respect to power demand and energy usage. It would be a simple and economical way for both infrastructure managers and train operators, especially in countries where the train operators have also to pay for high power demand, not only for the energy usage.

A simplified study was carried out to highlight the applied methodology. It assumes a synthetic track profile and freight train defined in EN 50591.

For a given Swedish railway line, power and energy simulations are carried out for a specified freight train running at different speed profiles but still with the same total running time. The KTH in-house software STEC is being used for this purpose. We are also using energy and GPS data recorded by the train’s energy meter, provided by Trafikverket, as a reference. An important issue is the ability to extract power demand as two-second samples from the energy meter.

Five speed profiles giving the same travel time and distance
Traction power vs time for the five cases above
Belongs to: Department of Engineering Mechanics
Last changed: Nov 02, 2023
Performance Improvement for Vehicles on Track (PIVOT-1 and PIVOT-2) (RV32)
IMPACT-1 and IMPACT-2 (RV33)
Future Improvement for Noise and Energy (FINE-1 and FINE-2) (RV34)
Real time information applications and energy efficient solutions for rail freight (FR8HUB) (RV35)
Research into enhanced track and switch and crossing system 2 (IN2TRACK-2) (RV36)
Next generation methods, concepts and solutions for the design of robust and sustainable running gear (NEXTGEAR) (RV37)
Development of Functional Requirements for Sustainable and Attractive European Rail Freight (FR8RAIL) (RV38)
Digitalization and Automation of Freight Rail (FR8RAIL-2) (RV39)
Advanced signalling and automation system (X2RAIL-4) (RV45)
Use-centric rail freight innovation for Single European Railway Area (FR8RAIL-4) (RV46)
Cost-efficient and reliable high-capacity infrastructure (IN2TRACK-3) (RV47)