-
equipment, site air handlers, building automation systems, and services related to onsite non-emergency conditions. In the event of emergency situations such as equipment malfunction, water main breaks
-
electrostatic devices, Radio Frequency (RF) accelerator cavities and components, vacuum components, cryogenic components, water/air cooled systems, large and small static and dynamic structures, and lifting and
-
centralized chilled water plants, steam plants, water supply and treatment, and sewage treatment plants. Engineer-In-Training or Professional Engineer status in New York State. Familiarity with substation
-
systems and components have well-defined specifications for support systems (electrical power, water cooling, HVAC, compressed air, and controls) and that these are communicated with the responsible support
-
for support systems: electrical power, water cooling, HVAC, compressed air, and controls, and that these are communicated with the responsible support groups Maintain an environment conducive to openness
-
multidisciplinary environment. IP engineering systems are in the areas of HVAC, water cooling, radiation shielding, remote manipulations and lifting, robotic equipment, helium cooling, compressed air, electro
-
as necessary. IP systems include HVAC, target cooling water, hot cells, shielding, shielded casks, remote manipulators, robotic arm, helium cooling, compressed air, electro-mechanical interfaces
-
not limited to knowledge of central chilled water plants, central steam plants, and high-pressure steam/condensate distribution and return systems.Solid time management skills and the ability
-
not limited to knowledge of central chilled water plants, central steam plants, and high-pressure steam/condensate distribution and return systems.Solid time management skills and the ability
-
, Archeological Resources Protection Act, Native American Graves Protection and Repatriation Act, Clean Air Act (CAA), Clean Water Act (CWA), Safe Drinking Water Act (SDWA), Federal Insecticide, Fungicide, and