During my short visit to the Netherlands as part of the Journalist program I was given the change to visit The World Horti Center, a building composed of design, technical and environmental solutions that are as interesting as the type of research and work done inside it. The building felt like a living organ as it expands and grows with the technologies and knowledge exchange happening inside of it.
Located between the green hills of Naaldwijk, Netherlands stands The World Horti Center officially opened at the beginning of March 2018. A building with green facades camouflaging with its surroundings, focusing on health and well-being of communities through researching and coming up with solutions in fields of water quality, food supply, food safety and sustainability.
With an estimated number of 25,000 visitors per year, the building is considered a national and international destination for people working in greenhouse horticulture. Companies from all over the world come to the campus to have their innovative greenhouse and horticultural products tested and to look for new ideas to help them develop their work. The building combines education, business and research under a single roof all working together collectively.
Designed by BDG architecten and constructed by AAB. Smiemans Projecten, the design and solutions used in the building is an example of practicing what you preach. The building that contains high-tech greenhouses for research and testing also looks and function like a greenhouse with greenery on the façade and the inside of the building. Highly durable materials such as aluminum and recyclable double glass (HR++) have been used on the building with highly insulating acrylic roofing.
Making the building highly sustainable as the acrylic roofing reduces 40% of the light and heat from the outside, resulting in creating a comfortable temperature during summer. The building also has an under flooring heating and cooling system that is connected to a heat pump that mainly runs on the 150,000 Watts provided by solar panels.
In addition to the 300-400 solar panels fixed on the roof of the school the building will be connected to the Trias Westland geothermal plant in the near future. The heating technology will be used to heat the entire research facilities and the return flow from the greenhouses will be used to heat the adjacent utility buildings via a networks.
The center consists of three main parts: the educational building, a greenhouse research building, where all kinds of new techniques and products from greenhouse cultivation are developed and tested and an exhibition building where business and education come together to showcase their work. The idea is to link professional knowledge with education and students can be integrated into business life.