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A true Laser Particle Counter with 2 size ranges - small (bacteria, mold, etc) large (pollen, etc.) DC1100 features technology and engineering that allows monitoring of indoor air quality with an LCD screen that provides small and large particle counts with a dynamic bar graph showing actual count reading. Multiple modes including minute, hour, day and monitor to evaluate your air quality and store up to 30 days of air quality history for review. The DC1100 Pro has all the features of the standard DC1100 but with increased lower sensitivity - detecting particles down to 0.5 micron. The large particle size range is calibrated to 2.5 microns and above. PC Interface Option The PC Interface Option has all the features of the standard DC1100, but also has a COM Port interface that allows you to capture the air quality data to a PC for graphing and analysis.

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Personal Air Quality Monitoring Devices Data Research Submitted to Leslie Rhodes, Air Quality Director Mecklenburg County Air Quality By the Energy and Environmental Assistance Office Energy Production Infrastructure Center UNC Charlotte This report was prepared by: Matthew Pfender, Systems Engineering, UNC Charlotte Dadhichee Gujjar, Electical Engineering, UNC Charlotte In Collaboration With: Jeff Francis, Air Quality Program Manager Suzanne Hollenbeck, Sr. Air Monitoring Specialist Regina Guyer, P.E., Executive Director of the Energy and Environmental Assistance Office, UNC Charlotte Karyn Williamson - Coria, Ph.D., Recharge Unit and SEE Intern Specialist of the Energy and Environmental Assistance Office, UNC Charlotte ACKNOWLEDGMENTS The research described in this document was conducted by Sustainability, Energy, and Environmental (SEE) Interns: Matthew Pfender and Dadhichee Gujjar; within the Energy and Environmental Assistance Office at UNC Charlotte. Funding for this project from Mecklenburg County Land Use and Environmental Services Agency - Air Quality Division is gratefully acknowledged.

Shaba shaba malayalam song free download. 2 Executive Summary The Energy and Environmental Assistance Office (EEAO) has provided a report on Personal Air Quality Monitoring Devices Data Research Project. This research project is continuation of past years Personal Air Quality Monitoring Devices project that included evaluation of technology and investigation on availability, capabilities, pollutants being monitored, costs, implementation of usage, pros and cons, data availability, and reliability. Two Sustainability, Energy, and Environmental (SEE) Interns: Matthew Pfender and Dadhichee Gujjar began working on this project in the fall of 2014 with the goal of implementing new devices selected from past to research, gather/analyze data, and to determine the reliability of new wearable and portable Air Quality Monitoring Sensors.

The growing popularity of participatory research, crowd sourcing of data and the citizen science movement has fueled the interest in putting science back into the hands of all citizens with an interest in their environment. Through the research, students have noticed much excitement in the general public in this newfound ability to learn firsthand about their surrounding environment and to feel more knowledgeable and perhaps more in control of their personal health and lives. The project was completed by individual researcher’s investigations and discussions in conjunction with project planning and evaluation meetings. This enabled the students to develop a greater understanding of the scope of the work and its implications for air quality regulations. The results of this process yielded the realization of the trends and differences for these innovated technologies of personal air quality monitors and their impact within society. Data collected by Dylos DC 1700 particulate matter (PM) pollution sensor and Cairclip NO 2 & O3 pollution sensor located at Garinger High School (1100 Eastway Dr. Charlotte NC 28205).

Data collection for Dylos DC 1700 particulate matter sensor was initiated on October 28, 2014. Data collection for Cairclip NO2 & O3 was initiated on November 26, 2014. During the project, there were multiple occurrences of data loss due to freezing temperatures, which are detailed later in this report. 3 Table of Contents Executive Summary. 4 Introduction. 5 Device background – Dylos DC 1700...