Savills | Queensberry House, Friars Lane, Richmond, Surrey, TW9 1NT | Properties for sale
950 sq ft(88.26 sq m)
Guide price £1,200,000

Queensberry HouseFriars Lane, Richmond, Surrey, TW9 1NT

    Key features

    • Coveted block and location
    • Resident porter
    • South West facing balcony
    • Share of Freehold
    • Stunning riverside gardens

    An incredibly well located first floor apartment

    About this property

    • Occupying a prime position within this much acclaimed purpose built and gated 1930's mansion block this elegant first floor three bedroom apartment has lovely open aspects towards its delightfully landscaped communal riverside gardens. These aspects can be enjoyed internally, or externally from its generous and private south west facing balcony.

      Tastefully presented and well proportioned the apartment has an excellent flow of natural light and further benefits from a long lease (as well as a share of the freehold), a resident porter and off street parking

      View payable Stamp Duty for this property

    It is rare indeed for apartments to enter the sales market within this coveted riverside mansion block, especially ones with balconies.

    Daniel HutchinsProperty agent

    Local information

    • Queensberry House is enviably situated between picturesque
    • Richmond Green (once a jousting ground for Henry VII's Tudor Palace) and a particularly scenic stretch of the River Thames, the towpath to which can be accessed directly from the communal gardens via a security gate.
    • Within just two hundred metres one can find the sophisticated shops, restaurants and boutiques of Richmond town centre. Richmond train station is within approximately half a mile and provides a rapid and direct service into London Waterloo, as well as the District Line tube and overland to Stratford, via North London.
    • Richmond Green also boasts a highly regarded theatre and is the perfect backdrop to many a Sunday afternoon cricket match.

    Additional information

    • EPC Rating = C