Smart Building Business Game Posted on January 22, 2024February 21, 2024 by gxoxo Welcome to the "Life Visions Smart Building Business Game" Quiz! We're excited to have you here to test your knowledge on the innovative developments and achievements of the "Life Visions EU" project. Before you dive into the quiz, let's take a moment to explore the key aspects of this groundbreaking initiative. About the Project: The "Life Visions EU" project focuses on the production of an innovative photocatalytic paint, aiming to enhance indoor environmental quality and achieve significant energy savings in buildings. From the development of photocatalytic dust to semi-industrial production and real-world applications, the project encompasses various stages contributing to a sustainable future. Instructions: Read each question carefully. Choose the answer you believe is correct. Each question has only one correct answer. Now, let's put your knowledge to the test! Best of luck! Name Email Business Field 1. Which analyses contribute to the development of the VISIONS Decision Support System (DSS)? Cost Efficiency Analysis (CEA) only CFD, LCA, and CBA Cost Benefit Analysis (CBA) only None 2. What is the purpose of the semi-industrial production of VISIONS colors? To test the colors in controlled laboratory conditions To meet the requirements of pilot applications To create art installations None 3. How is the photocatalytic dust activated in the development process? Activation through visible radiation High-pressure treatment Exposure to radio waves None 4. What is the purpose of the Decision Support System (DSS) developed in the project? To analyze weather patterns To evaluate the efficiency of proposed solutions using multiple criteria To predict future indoor air quality None 5. What percentages of degradation were achieved for nitrogen oxides in the organic synthesis and inorganic synthesis of VISIONS colors, respectively? Organic synthesis: 15.0%, Inorganic synthesis: 30.0% Organic synthesis: 21.5%, Inorganic synthesis: 66.5% Organic synthesis: 18.5%, Inorganic synthesis: 75.0% None 6. In which locations were the pilot applications of the VISIONS colors conducted? Rome and Barcelona Athens and Thessaloniki Piraeus and Crete None 7. What role does the Institute of Chemical Engineering Sciences (ΙΤΕ) play in the project? Solely responsible for the organic synthesis of VISIONS colors Provides support for the semi-industrial production process Conducts research and controls the photocatalytic performance of colors None 8. What does LCA stand for in the context of the project? Laboratory Control Analysis Life Cycle Analysis Light and Color Analysis None 9. What are the main applications of the VISIONS Decision Support System (DSS)? Diagnosing problems with a particular product and comparing improvement variants Analyzing traffic patterns in urban areas Weather prediction and analysis None 10. How is the quality of the indoor air assessed after applying the VISIONS colors? Through taste and smell observations Based on visual inspection of painted surfaces Using a specialized measuring equipment None 11. Which organizations were involved in the semi-industrial production of the VISIONS colors? ITΕ only VITEX only VITEX and ITΕ None 12. What is the main scope of the "Life Visions EU" project? Producing an innovative photocatalytic paint Designing energy-efficient windows Developing a new type of solar panel None 13. Where was the optimal VISIONS color applied as part of the project? In a laboratory setting only On pilot buildings in Piraeus and demo houses in Crete Only in the facilities of the Institute of Chemical Engineering Sciences (ΙΤΕ) in Crete None 14. How is the photocatalytic dust for the paint developed? Through a complex chemical reaction Via a high-pressure manufacturing process By using a simple immersion method None 15. What were the results of the research on the photocatalytic performance of VISIONS colors? 32.4% degradation of nitrogen oxides in visible light 30.0% degradation of sulfur compounds in ultraviolet light 21.5% degradation of nitrogen oxides in visible light None Time's upTime is Up!