Winchester Road/Winchester Hill resurfacing
Good morning, you hopefully have seen that the resurfacing of Winchester Road and Winchester Hill, Romsey between the Plaza roundabout and Bow Lane will be starting on Tuesday May 9th.
(The mobile signs have now all been updated and should be more legible).
There is now more detail about the phasing of the work and what is going to happen.
The works are expected to last for up to 24 nights, during which time the road will be closed in phases to through traffic between the hours of 20.00hrs to 06.00hrs each night. The road will be open outside of these hours.
No works are expected to take place on the weekends, bank holidays or during the May half term week - 29th May to 2nd June 2023.
The phasing and extents of the works will be as follows: -
Phase 1 – Bow Lane to Cupernham Lane – (Resurfacing) 9th to 12th May 2023.
Phase 2 – Plaza Roundabout to Botley Road - (Resurfacing) 15th to 22nd May 2023. (Manhole and gully replacement) 12th to 16th June 2023.
Phase 3 – Botley Road to Cupernham Lane - (Resurfacing) 23rd to 26th May 2023. (Manhole and gully replacement) 5th June to 9th June 2023.
You can find more information visit One.Network – https://one.network/?tm=GB132871393
Whilst there is an allowance within the time periods shown above for delays, there may be times when we have to postpone works at very short notice; based on the latest weather forecasts, this can occur just prior to works commencing. We will always look to provide up to date information wherever we can, but sometimes these last-minute decisions can be difficult to relay to the travelling public in a timely manner.
When we can, any significant changes to the scheduled dates will be made clear on the yellow sign boards located at the works limits.
Access to properties will be maintained overnight wherever possible. Residents are receiving a letter telling them how to make arrangements for that if necessary.
The works causing most noise will typically be undertaken at the beginning of each evening, hopefully causing as little disturbance as possible.
Diversion routes during each phase are shown below.
All reactions:
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