![]() Pay your bill from a procedure or hospital stay online or by phone or mail: ![]() Choose the Type of Bill You're Looking to Pay: We care for all who come to us in need, regardless of their ability to pay. Our Mission is to extend the healing ministry of Jesus by improving the health of our communities with emphasis on people who are poor and under-served. This site hosts critical collaborations with the University of Oklahoma and Oklahoma State University.Medical bills can be complicated - we’re here to help. In addition to its scientists conducting climate research using ARM data, Argonne manages the oldest and largest of the fixed ARM sites in Lamont, Oklahoma, and its 17 extended facilities across north-central Oklahoma and southern Kansas. Nine DOE National Laboratories, including Argonne, are involved in the operation or management of three fixed and three mobile atmospheric observatories, as well as the operation and maintenance of 400 meteorological instruments, and an aerial facility that includes a plane and unmanned aerial systems. Argonne National Laboratory researchers support ARM instrument operations remotely and on-site to ensure instrument calibration, appropriate operation, and quality of the data available to researchers around the world.ĪRM serves as an exemplary illustration of DOE collaboration. ARM’s mission is to advance our understanding of cloud, aerosol, precipitation and radiation processes and provide the data to better represent these phenomena in global-scale models. ![]() Department of Energy’s ( DOE) Atmospheric Radiation Measurement ( ARM) User Facility to provide long-term observations of the atmosphere - whether in Oklahoma or Alaska. The National Oceanic and Atmospheric Administration ( NOAA) and similar organizations worldwide rely on the U.S. Department of Energy Atmospheric Radiation Measurement User Facility.) Argonne, DOE labs, NOAA collaborate on climate studiesĪ 60-meter tower rises from a canola field at the ARM Southern Great Plains site’s central facility to document and monitor precipitation, clouds, wind and moisture. Because cement production is energy-consuming and releases high levels of carbon dioxide, knowing the ideal combinations of factors for most efficiently producing cement will lessen the environmental footprint of this second most consumed commodity in the world after water. The insights gained will advance industry knowledge about which ingredients and production processes provide the most durable and cost-effective cements for different applications. The highly penetrating APS X-ray beam provided 3-D images of more than 60,000 cement particles in an approximately 0.1-square-millimeter sample every 10 minutes, allowing scientists to observe in minute detail the physical and chemical processes involved. Department of Energy user facility located at Argonne, allowed researchers to continuously monitor microscopic changes in cement as it dried. The powerful beamlines of the Advanced Photon Source ( APS), a U.S. Department of Energy’s ( DOE) Argonne National Laboratory collaborated to study the hardening mechanisms of cement, the world’s most versatile and commonly used building material. Oklahoma State University, Princeton University, and the X-Ray Science Division and Center for Nanoscale Materials of the U.S. Cement is the world’s most commonly used building material.
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