Savills | Church Road, Richmond, Surrey, TW10 6LS | Property to rent
65.87 sq m
Guide price £1,895
Monthly. Fees apply

Church RoadRichmond, Surrey, TW10 6LS

  • Managed by Savills
  • Unfurnished

Key features

  • 2 double bedrooms
  • Modern fully fitted kitchen
  • Private balcony
  • Off-street parking
  • Close to Richmond Town Centre
  • Council Tax Band = D

This fantastic Victorian conversion boasts a private balcony and off-street parking space.

About this property

  • Presented in excellent condition throughout, the 2 double bedroom apartment benefits from a modern fitted kitchen, spacious reception room and private balcony.

    Applicant note
    The photos provided are over 6 months old.

Local information

  • Located within easy reach of Richmond town centre and transport at Richmond train and tube station.

Additional information

  • SCHOOLS - Richmond has some of the finest state and independent schools in the country which include King's House, the Old Vicarage, The Vineyard, Marshgate Primary School and St Elizabeth's Roman Catholic School, with the International German School located close by in Petersham.
  • SURROUNDING AREA - Notable landmarks close to Richmond include the Royal Botanic Gardens at Kew, the National Trust's Ham House and also the 2,500 acres of Richmond Park, the largest urban park in Europe. The river towpaths provide a delightful walk or cycle ride for many miles both up and down river and you can hire boats to row down the river.
  • Directions: TRANSPORT LINKS - The major road networks nearby include the A316/M3 allowing access into central London or out to the south west of England. The A4/M4 approximately three miles away provides easy access to Heathrow Airport and the West Country and also into the West End and City. The town centre provides extensive transport links into central London provided by the mainline (Waterloo) and underground (District Line) train services from Richmond station and a comprehensive bus network operating through the town.
  • EPC Rating = D