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Candidate's Name , PEMechanical EngineerEducationExecutive M.B.A., University of New Mexico, Albuquerque, NMB.S., Marine Mechanical Engineering, State University of New York, Maritime College, NYProfessional RegistrationsLicensed Professional Engineer, Mechanical, State of CaliforniaRelevant ExperienceMr. Banisadr has over 20 years of mechanical and HVAC design experience including consulting engineering, construction services RFI resolution, start-up and commissioning. He specializes in central chilled water plant optimization, Building Automation Systems, HVAC air distribution systems, and commissioning. His experience includes new design and renovation projects of major HVAC systems serving semiconductor facilities, data centers, pharmaceutical and governmental projects. He is a subject matter expert in HVAC/Mechanical Engineering within the industry.Representative ProjectsData CentersSenior Mechanical Engineer; Jacobs, Cloud Computing Project; Cheyenne, Wyoming & Quincy WAProvided HVAC design and construction services for this 8MW single story Tier II data center including the support buildings and expansion colos. Provided basis of design updates through procurement support. Project was designed to LEED Gold. Project team was multidisciplinary.Lead Mechanical Engineer; Jacobs, Cloud Computing Project; OverseasProvided HVAC design and consulting engineering services for a 25 MW multi story Tier II data center including the support services. Generated the design documents for the air-cooled chillers, thermal storage system, CRAH units, fuel oil storage, and auxiliary systems. Due to shortage of cooling water, the client had requested for the design of an air-cooled chilled water plant, even though a water-cooled system would have provided a lower PUE.Lead Mechanical Engineer; Los Alamos National Laboratory (LANL)/Department of Energy, New MexicoResponsible for proper operation and performance of the HVAC and control systems serving supercomputer platforms at the Strategic Computing Complex (SCC), in Los Alamos, New Mexico. The servers dissipated up to 54 KW/rack. The SCC is a 30-MW facility utilizing rotary uninterruptible power supplies (RUPS) to allow for efficient, uninterrupted power use and rapid recovery in case of power loss.Senior Mechanical Engineer; Energy Efficient High Performance Working Group, Department of EnergyContributed to the development of a technical white paper focusing on utilization of liquid cooling application using warm water cooling of high-performance computers. The intent was to use Warm Water Cooling in lieu of vapor compression refrigeration for removing the heat from High Density Computers. The result was a reduction in the Power Usage Effectiveness (PUE). This has been implemented on the HVAC systems serving major projects resulting in a PUE of 1.1 or lower.SemiconductorLead Mechanical Engineer, Jacobs, Lark Project, Hillsboro, OregonResponsible for the HVAC design of the hydronic distribution systems serving LARK projects MOD3 Fabrication Facility. The project consisted of a 60,000-ton Central Utility Building (CUB) serving process and HVAC systems. The cooling system consisted of 3800-ton cooling-only, and 1850-ton heat recovery chillers. The heating system consisted of 750 BoHP firetube hot water boilers.The Chilled Water, Heat Recovery and Heating Water distributions systems were designed for a future addition of a 55,000-ton CUB. The chilled water and heat recovery distribution piping were 78 and 54 diameter, respectively. The piping was installed on a 1200-ft trestle connecting the CUB to the Fab.The HVAC calculations, plans and specifications were prepared in accordance with Intels Plan of Record (POR) requirements. The design effort included extensive planning for Flushing & Passivation of the Hydronic systems piping in close coordination with the mechanical contractor. Navisworks and Pipeflo calculations were used in modeling and preparation of the hydronic distribution systems.Senior Mechanical Engineer; Jacobs, Samsung, P2 Project, OverseasConducted peer review of the clients design of the HVAC/mechanical system. It consisted of a 300,000-ton chilled water plant serving HVAC, fabrication, and extreme UV facilities. Provided the appropriate recommendations to standardize the chillers and pumps capacities to streamline the design.In addition, recommended designing a 70,000-Ton, point-of-use chilled water plant serving the extreme UV facility located far away from the main chilled water plant. Provided recommendations to streamline the configuration of the HVAC and makeup air handling units serving one-million square feet of fabrication facility. The intent was to reduce the number of heating and cooling coils in 100 AHUs while maintaining control over supply air temperature.Lead Mechanical Engineer; Jacobs, Samsung, P3 Project, OverseasMechanical Engineer leading a team of professional engineers and designers completing the Conceptual Design on a major semiconductor complex. The complex consisted of a two million square foot multi-stacked cleanroom FAB and a ten million square foot facility. It included a Universal Support Building (USB), a Central Utility Building (UT), a 154 kV substation, and a Tank Yard.The 170,000-ton Central Utility Building (UT) contained 4,000-ton low-temperature and 4,800-ton medium-temperature chillers, including the primary/secondary chilled water pumps and roof-mounted cooling towers. It also contained over 41,000 BoHP of HW capacity consisting of 2,000-BoHP boilers.The Air Handling Systems consisted of Makeup Air Handling units (MAH), Recirculation Air Handling units (RAH) serving the clean rooms, and General Air Handling Units (GAH) serving the non-clean and miscellaneous areas. The Exhaust Systems consisted of the Ammonia Exhaust, Acid Exhaust, Solvent Exhaust, and General Exhaust systems designed for N+1 redundancy.Strategic Mechanical Engineer; Intel Corporation, Hillsboro, OregonMechanical Project Engineer on Intels Eagle Project in Arizona, responsible for compliance of the A/E firms HVAC design documentation with Intels Plan of Records (POR). Attended weekly workgroup and breakout sessions with the consulting firms mechanical design engineers. Provided feedback on the design of the hydronic systems calculations, plans and specifications. Eagle was a fast-track project that pursued a parallel path with the Sparrow in Israel, pivoting the latter during the construction.The Project included two Central Plants, each having several and cooling-only low temperature and heat recovery medium temperature centrifugal chillers. The total Low temperature and medium temperature capacities were 27,000 tons and 31,000 tons, respectively. The heating water system consisted of three hot water boilers rated at 720 BoHP each.Mechanical Project Engineer on Intels Cardinal Project in Ohio. Attended weekly Mechanical Work Group Meetings with two major A/E firms mechanical design engineers working on the Project. Provided feedback and guidance to the A/E firms to optimize the technical aspect of the project and comply with Intels Plan of Records (POR) technical requirements. Provided feedback on the design of the hydronic systems calculations, plans and specifications.Cardinal was a part of the U.S. Governments CHIPS Act. The Central Plant included several duplex cooling-only low temperature and heat recovery medium temperature centrifugal chillers. The total Low temperature and medium temperature capacities were 31,000 tons and 32,000 tons, respectively. The heating water system consisted of seven hot water boilers rated at 720 BoHP each.Performed an in-depth analysis of the Optimum Energy Control Theory and proposed Sequence of Operations developed for implementation of the HVAC systems energy conservation measures toward control of the CHW, CW, and HRW loops at Intels Fab 28A in Israel.Reviewed the comments with the Chief Technology Officer of Optimum Energy LLC. Provided several recommendations for optimization of the HVAC systems sequence of operation. Supported the senior mechanical engineers in Israel for approval of the White Paper: Implement Optimum Control Loop in F28A Chilled Water System.Mechanical Project Engineer on Intels Stork Project in Poland. Attended weekly Mechanical Work Group Meetings with a major A/E firms mechanical design engineers working on the Project. Provided feedback and guidance to the A/E firms to optimize the technical aspect of the project and comply with Intels Plan of Records (POR) technical requirements. Provided feedback on the design of the hydronic systems calculations, plans and specifications.The Central Plant included six duplex cooling-only and heat recovery centrifugal chillers for a total cooling capacity of 19,000 tons. The heating water system consisted of three hot water boilers rated at 775 BoHP each.Strategic Project Engineer responsible for the managing and updating Intels HVAC POR documents on Heating Water (IMDS_1230), Heat Recovery Water (IMDS_1231), Chilled Water (IMDS_1241) and Condenser Water systems (IMDS_1244).Summary of Work: