Gin lovers afternoon tea bus tour from Trafalgar Square

8 Northumberland Avenue, WC2N 5BY London, UK, London, United Kingdom
From
$79.00
Date
Click to select
Free Cancellation. Read More
Overview
Duration
1h 30min
Languages
English
Voucher type
mobile
What To Expect

Prepare for an extraordinary adventure as Bombay Sapphire collaborates with Brigit’s Bakery to offer the ultimate gin lovers afternoon tea bus tour in London.Onboard a vintage Routemaster bus – a rare gem found only in the gin-soaked streets of the capital – you can savor "G and Ts" and indulge in gin-infused cakes.As an added treat, enjoy a trio of delightful gin and tonics from Bombay Sapphire’s exquisite collection.

What to remember

Important info

  • Know in advance:
  • Please arrive 15 minutes prior to the tour's departure time to ensure a smooth check-in. The bus cannot wait for any late passengers

Not suitable for:

  • This tour is not wheelchair accessible. Foldable wheelchairs are accepted but must be mentioned upon booking
  • Please note that nut-free and coeliac are not catered for
  • No children are permitted on this tour, they must be over 18
  • There are no toilets onboard the bus
  • Traditional, vegan, vegetarian, halal and gluten-free afternoon teas are offered
included
What's included
included-item
Full gin afternoon tea. Water and 3 gin cocktails. Tour around London. Service on board. Audio guide (in English). Soft drinks
excluded
What's not included
excluded-items
Extra bubbly. VIP seats (top deck, front row)
know before you go
Know Before You Go
Highlights

Take in the sights of London from the comfort of your seat with a drink in hand. Tuck into a delicious afternoon tea on board a vintage Routemaster bus. Sip on gin and tonics as you cruise through the streets of London

Cancellation Policy
can-cancel You can cancel your tour until 14 days in advance
Provider
BRIGIT’S AFTERNOON TEA LTD
Meeting Point

The bus will be parked at the bus stop outside the Grand Hotel and opposite the Sherlock Holmes Pub. The bus leaves from and returns to the same point.