With fossil fuels running out and a large focus boing put on the harmful effects of their pollution on the environment, the world is looking for a new source for electricity. For my project, I will be using a piezoelectric material to generate electricity. The piezoelectric material will be installed behind a buffer in a pseudo wind tunnel and micro-vibrations from the wind will cause the electrical generation. A piezoelectric wind energy harvester will be able to run at lower wind speeds than traditional turbines used in wind energy harvesting. For my project, I hope to create a system capable of generating at least 20 mV and to test different buffer designs to see if I can maximize production. To create the system, I used a universal wind tunnel in which the different buffers can be inserted. The tunnel and the buffers all were 3-D printed. For testing, I used a small fan and an oscilloscope to create wind and capture data. For the control, no buffer, there was electrical generation of about 400mV with peaks up to 800 mV. Buffer #1 had not as good data with generation with an average of about 200 mV with peaks up to 400 mV. The second buffer had better data than #1 with an average around 300mV. The final design, a splint, had the worse data with an average close to 150 mV. As the tests progressed, (control to #3), the graphs became less dense. The data point became sparser. This could be sue to the design, the oscilloscope did not pick up minute generations but a "wave" of electrical production would come in that could be captured. When it came to buffer design, there is a balance I found between wind speed and wind blockage. Wind blockage occurred when wind got trapped within the system making the system less efficient and streamlined. Buffer #1 slowed wind speed and did not significantly reduce wind clogging. Buffer #2 significantly reduced wind speed but also significantly reduced wind blockage. The third design, the splint, reduced wind speed significantly and did not assist in decreasing wind blockage at all. Finally, I conducted a test with a resistor which gave extremely negligible data and shows the system to create nearly zero current. After realizing the electrical charge from the piezo is created staticly, the low current is justified. Overall, with the current technology of piezoelectric materials, with effects such as low current and relatively low generation when compared to other wind energy harvesting systems, piezoelectric materials are not a viable source of wind energy harvesting.