WALDRON
37 Industrial Ave.
Exeter, NH 03833
One Penn Plaza,
36" Floor
New York, NY 10119
Michael D. Adams, P.E., Lead Controls Engineer
Background
Mr. Adams has practiced engineering for eight years including one year in the
biopharmaceutical industry as a Process Controls Engineer, in the defense industry
for two years as a Systems Test Engineer, and in the power industry for five years as
a Controls and Mechanical Engineer. Michael has experience in all phases of facility
engineering including preliminary design, detailed engineering, startup,
commissioning, and performance testing. Specialized experience inciudes control of
mechanical systems, system validation and verification, and creation of block
diagram logic.
Experience
Halletts Point Cogeneration Project — Astoria, NY
Engineering design of an electric and thermal utility generation plant for an off-grid
residential and commercial area in New York. Project includes five reciprocating
engines, two absorption chillers, three electric chillers, 4 hot water boilers and
related balance of plant systems.
Role: Lead controls engineer responsible for control system hardware, control system
logic and sequencing for electrical and process systems, specification of
instrumentation, and design of communications networks.
Erving CHP Plant — Erving, MA
Engineering design, procurement, startup, and commissioning of CHP Plant for
Erving Paper’s Mill in Erving, MA. Project includes a 6.5 MW Combustion Turbine
with a duct fired heat recovery steam generator.
Role: Lead controls engineer responsible for control system hardware, control system
logic and sequencing for electrical and process systems, specification of
instrumentation, and design of communications networks.
Four Times Square — New York, NY
Engineering design of a CHP Plant for Four Times Square in New York. Project
includes four reciprocating engines with waste heat recovery, two absorption chillers
and two electric chillers.
Role: Lead controls engineer responsible for control system hardware, control system
logic and sequencing for electrical and process systems, specification of
instrumentation, and design of communications networks.
Longwood Medical Energy Collaborative — Boston, MA
Project Description: Economic analysis and feasibility study of installation of various
CHP options for the Longwood Medical Association in Boston, MA. Project includes
evaluation of five stand-alone CHP plants for each member against three
neighborhood CHP plants that would provide power and thermal] utilities to the
member hospitals.
WALDRON
