EGP 80,000 / Month
5 Bedrooms Villa for Rent in New Giza Cairo Alexandria Desert Road By New Giza
New Giza is a luxury compound located on the Cairo-Alexandria Desert Road in Egypt. The compound is situated in a prime location, offering breathtaking views of the Great Pyramids of Giza, and is approximately a 20-minute drive from Cairo.
New Giza consists of various residential areas, including apartments, townhouses, and villas, as well as commercial and recreational areas, such as retail shops, restaurants, cafes, a golf course, and a clubhouse. The compound also boasts extensive green spaces, walking trails, and parks, providing residents with an environment that promotes an active and healthy lifestyle.
The community is gated and provides 24/7 security and surveillance. It features various amenities, including a community center, swimming pools, tennis and squash courts, a fully equipped gym, and a spa. Additionally, residents have access to top-notch educational facilities, with world-class schools such as the American International School in Egypt located within the community.
Furthermore, New Giza is designed to be an environmentally friendly community, with features such as a water recycling system, solar-powered streetlights, and energy-efficient appliances. It is no wonder that New Giza is considered one of the most sought-after residential communities in Egypt.
New Giza It is an integrated residential compound with many residential units amid green spaces and stunning landscapes and offers great services and facilities for residents. New Giza Project Location: It is located on Cairo-Alexandria Desert Road at Kilo 22. New Giza Compound Space: 1500 acres. Units Type: apartments for sale, duplex For Sale, twin houses, Villas For Sale.
New Giza New Giza Development is a major Egyptian company that has been working in the field of real estate development for about 10 years and has presented a wide range of different projects that greatly serve customers and provide them with a distinctive model of high-end residential complexes.