1309 Bellows Street, Akron, OH 44301
- 3 beds |
- 2 baths |
- 1,445 sqft
Single-Family Home
Built in 1919
5,162sqft lot
—— car garage
$89/sqft
Listed 16 days ago
Property Description
This spacious Firestone Park colonial excudes original character, but has modern updates where it matters. 1309 Bellows Street, is a 3-bedroom, 1.5-bath home with a generous 1445 square feet of living space. This home features rich original woodwork, which gives it the charm of a classic Firestone Park home, but has a thoughtfully updated kitchen and remodeled bathrooms. The kitchen has plenty of counter space, a gas range, and dishwasher for easy clean up. Large windows let light into the first floor, and there is a 1/2 bath conveniently located on the first floor as well. The dining room will fit a table large enough for your home to be the holiday gathering place, and a spacious living room tops off the first floor. Upstairs, you'll find three sizable bedrooms and the full bathroom, featuring an original clawfoot tub that is in excellent condition. The 3rd floor is an attic space that could be used at a 4th bedroom, play area, or whatever flexible pace suits your family. Despite the shared driveway, there is plenty of parking behind the house so you'll never worry about juggling the driveway with the neighbor. If you are looking for a timeless home in Firestone Park, this could be the one!
- Listing Status:
- Active
- Data Last Updated:
- July 5, 2026 at 12:18PM
- Listing Office:
- EXP Realty, LLC. : 866-212-4991
- Listing Agent:
- Sara Shier : 330-571-8675
- MLS ID:
- 5220650

- Style: Colonial
- Other Structures: Front Porch
- Parking: Shared Driveway
- Roofing: AsphaltFiberglass
- General: Vertical Siding3
- Originating MLS: NOWDD_NORM
- School District: Akron CSD - 7701
- County: Summit
- Zoning: COLE E AVE 159 ALL6707025
- Water: Public
- Sewer: Public Sewer
- Source: NOWDD_NORM
This listing courtesy of Sara Shier , EXP Realty, LLC.
Monthly Payment
- Principal & Interest $
- Property Taxes $
- Home Insurance $
- VA Funding Fee $






