Future engineering work

PAGE LAST UPDATED: 26/09/2018 08:01. Update now

See details of routes affected by planned engineering works, including when they take effect, maps of the affected area, alternative timetables, advice for alternative travel and real-time updates.

Amended service between Reading and Didcot Parkway each night from 23:00 on Saturday 17 and Sunday 18 November

Start date
17/11/2018  00:00
End date
18/11/2018 
Route affected
Download map of route afected

Trains between London Paddington and Didcot Parkway

 
TOC(s) affected
Great Western Railway
Description

Engineering work is taking place between Tilehurst and Didcot Parkway, closing 2 out of 4 tracks each night.

From approximately 23:00 each night, trains between London Paddington and Didcot Parkway will use alternative platforms at Tilehurst, Goring & Streatley and Cholsey. These trains will not call at Pangbourne.

Buses will be provided to run between Tilehurst and Pangbourne for connecting passengers.

Check before you travel:

You can plan your journey using the National Rail Enquiries Journey Planner

You can find the location of your bus replacement by checking station signs or by searching for your station on our station information pages

Bicycles:

Non folding bicycles are not allowed on rail replacement bus services at any time. Folding bicycles are allowed if fully folded. For more information, please see here.

Project Information:

The Great Western Route Modernisation project is the biggest investment in the Great Western railway since Brunel built it more than 150 years ago. Modernising the route will improve the experience of everyone who uses it and stimulate economic growth in the South West and beyond.

Network Rail are electrifying one of Britain's oldest and busiest railways, providing greener, more reliable journeys and improving connections across southern England and South Wales: London and Bristol, including Cardiff, Newbury and Oxford. This project is also part of the London Railway Upgrade Plan, creating new connections and increasing capacity in peak hour by 30%.