The Climate Change Division will set up a system that allows the users to select his/her area of residence. By reading the inputted location, the system will then automatically access the climate change database and transfigure the projected data of the year 2050 to readable climate conditions of the location chosen by the user. Such information will be presented in a form of a postcard; users can take a profile photo on the spot to customize it into a personal “Postcard from the Future,” allowing the user to feel closer to the climate change reality that we are now facing.

"1. Use high-speed computers to simulateestimate the impact of Taiwan on global warming 2. High-resolution scenario simulation to analyze changes in the number of typhoons invading Taiwan under climate changerainfall analysis 3. Calculation of the two-dimensional flooding pattern on the surface to estimate the difference of flooding disasters beforeafter warming"

This invention provides a method for synthesis a catalyst for catalyzing hydrogenation of CO2 to methanol. The precipitation process was controlled at 70 oCaging for 1.5 hour. The CuO: ZnO: Al2O3 weight ratios are 7: 3: 1. The particle size of CuO is less than 5 nm. The reaction is carried at 50 bar250 oC, CO2/H2= 1/3. Adding hydrophobic fumed silica, water is expelled from catalyst surface,the reaction can shift to product side. Therefore the CO2 conversion can reach 90 thermodynamic equilibrium conversion, methanol selectivity is greater than 95.

Our technique combines the use of LOD2TMY3 datatake metropolitan area as the case study. We demonstrated that accurate rooftop solar power potential can be approached for solar power developing evaluation by importing solar irradiation, inclination, shadow covering information based on simulated but accurate building environment. Our technique enables a scientific approach for supporting future solar energy planningdevelopments.