Kennedy Space Center Annual Report FY2018

National Aeronautics and Space Administration

KENNEDY SPACE CENTER ANNUAL REPORT FY2018

Table of Contents

4 ............. Center Director's Message 5 ............. Vision, Mission and Core Competencies 6 ............. Significant Events 12 ............. Center Planning and Development 16 ............. Commercial Crew Program 20 ............. Launch Services Program 24 ............. Exploration Ground Systems

Exploration Research and 28 ............. Technology Programs

32 ............. Orion Processing 34 ............. NASA Engineering 36 ............. Spaceport Integration and Services 40 ............. Communication and Public Engagement 42 ............. Business Report

Director's Message This has been an awesome year for the team here at NASA’s Kennedy Space Center. We truly are a premier, multi-user spaceport supporting government and commercial space operations with an ever-increasing number of launches. It is also a great time for America’s space program. Soon, we will once again be launching astronauts from U.S. soil. Today, three commercial companies are building spacecraft to take humans to orbit: Lockheed Martin, Boeing and SpaceX. Our Commercial Crew partners are completing preparations to fly the Boeing Starliner and SpaceX Crew Dragon to the International Space Station. Based primarily at Kennedy, these two companies are developing safe, reliable and cost-effective access to and from low-Earth orbit with American-built spacecraft systems. That’s our number one priority for 2019. As we prepare to send crews to the space station, we continue the important work of processing and launching equipment and supplies to the orbiting outpost on Commercial Resupply Services missions. Lockheed Martin is building the Orion spacecraft in the Neil Armstrong Operations and Checkout Building. We’re getting Orion ready to fly on the Space Launch System rocket. It will travel beyond the Moon, farther out than any human-rated spacecraft on Artemis 1. Ultimately, Orion will help us put boots on Mars.

Director ROBERT D. CABANA

This past summer, Kennedy’s Exploration Ground Systems team moved the mobile launcher to Launch Complex 39B for a fit test and then into the Vehicle Assembly Building for verification and validation checks.

The Launch Services Program celebrated its 20th anniversary by supporting six missions, including one to fly into the Sun’s atmosphere and another to Mars. The Parker Solar Probe is performing the closest-ever observations of a star. The InSight lander is designed to study the Martian crust, mantle and core. One launch that resulted in a great deal of attention took place in February. SpaceX had a spectacular liftoff of the first Falcon Heavy rocket. It gives our nation a greater capability to boost payloads to Earth orbit and beyond. Here at Kennedy, NASA is proud to play a role in supporting our partners’ achievements, providing services needed to process and launch their vehicles as part of our ever-growing, multi-user spaceport. Vice President Mike Pence hosted a meeting of the National Space Council here at Kennedy earlier this year. In simple, yet profound words, he described our role here on Florida’s Space Coast. “Much more than the bridge to space,” he said, “Kennedy Space Center is the bridge to the future.”

Vision, Mission and Core Competencies Kennedy Space Center’s iconic Vehicle Assembly Building anchors the spaceport’s Launch Complex 39 Area. At left is the mobile launcher; at right is the Launch Control Center.

KSC Vision

KSC Core Competencies

KSC is the world’s preeminent launch complex for government and commercial space access, enabling the world to explore and work in space.

Acquisition and management of launch services and commercial crew development

KSC Mission

Payload and flight science experiment processing, integration and testing

KSC safely manages, develops, integrates and sustains space systems through partnerships that enable innovative, diverse access to space and inspire the nation’s future explorers.

Designing, developing, operating and sustaining flight and ground systems and supporting infrastructure

Launch vehicle and spacecraft processing, launch, landing, recovery, operations and sustaining

Development, test and demonstration of advanced flight systems and transformational technologies to advance exploration and space systems 5

Significant Events NOVEMBER 2017 JPSS-1 Launched Aboard Delta II NOAA’s Joint Polar Satellite System-1 (JPSS-1) and a host of small satellites known as CubeSats lifted off aboard a United Launch Alliance Delta II rocket from Space Launch Complex 2 at California’s Vandenberg Air Force Base. JPSS-1 is the first in NOAA’s series of four, next-generation operational environmental satellites designed to advance observations used for severe weather prediction and environmental monitoring.

JANUARY 2018 Underway Recovery Test 6 NASA’s Exploration Ground Systems and the U.S. Navy conducted the weeklong Underway Recovery Test 6 in the Pacific Ocean, testing and improving their processes and ground support hardware to recover astronauts in the Orion capsule once they splash down in the Pacific Ocean. Aboard the USS Anchorage, the combined team rehearsed through a variety of sea conditions, time of day and equipment scenarios.

DECEMBER 2017 SpaceX Launched 13th Commercial Resupply Mission SpaceX launched a Falcon 9 rocket and Dragon cargo spacecraft on the company’s 13th commercial resupply services mission for NASA from Cape Canaveral Air Force Station’s Space Launch Complex 40. The Dragon carried science, research, crew supplies and hardware to the International Space Station.

JANUARY 2018 NASA Initiates First Grow-out in APH on Station The Advanced Plant Habitat, a fully automated plant growth facility aboard the International Space Station, initiated its first grow-out with the help of Expedition 54 astronaut Joe Acaba and researchers at Kennedy Space Center. Investigation data from the small crop of Arabidopsis and dwarf wheat seeds will help the agency prepare crews to grow their own food in space during deep space missions.

Kennedy's Top 20 FEBRUARY 2018 Falcon Heavy Launch a Multi-User Spaceport Success Story

FEBRUARY 2018 Vice President Pence Hosts National Space Council at Kennedy

SpaceX launched a Falcon Heavy rocket on its demonstration flight from Kennedy’s Launch Complex 39A. The successful liftoff of the new vehicle signaled that the center is continuing to grow as the nation’s premier, multi-user spaceport. NASA has partnerships with more than 90 companies that enable commercial space manufacturing, processing and launch operations along Florida’s Space Coast.

Vice President Mike Pence returned to Kennedy to chair a meeting of the National Space Council. Pence also visited facilities at Kennedy and Cape Canaveral Air Force Station. Re-established in 2017 by President Donald Trump, the National Space Council’s role is to advise the president on America’s space policy and strategy, and review the nation’s long-range goals for space activities.

FEBRUARY 2018 Orion Crew Access Arm Installed on Mobile Launcher

MARCH 2018 GOES-S Launched Aboard Atlas V

NASA reached an important milestone on the path to Artemis 1 with the installation of the crew access arm at about the 274-foot level on the 380-foot-tall mobile launcher tower. Astronauts will step across the crew access arm to board the Orion spacecraft when it is in place atop the Space Launch System (SLS) rocket.

NOAA’s Geostationary Operational Environmental Satellite-S (GOES-S) lifted off aboard a United Launch Alliance Atlas V rocket from Cape Canaveral Air Force Station’s Space Launch Complex 41. GOES-S was the second in a series of next-generation GOES weather satellites.

MARCH 2018 Parachute Testing Lands Partners Closer to Crewed Flight Tests

APRIL 2018 SpaceX Launched 14th Commercial Resupply Mission

Crew safety is paramount in the return of human spaceflight launches from Florida’s Space Coast, and a round of parachute testing provided valuable data to help industry partners Boeing and SpaceX meet NASA’s requirements for certification. Boeing conducted the first in a series of parachute reliability tests for its Starliner flight drogue and main parachute system in February 2018. SpaceX performed its 14th overall parachute test supporting Crew Dragon development in March 2018.

SpaceX launched a Falcon 9 rocket and Dragon cargo spacecraft on the company’s 14th commercial resupply services mission for NASA from Cape Canaveral Air Force Station’s Space Launch Complex 40. The Dragon carried science, research, crew supplies and hardware to the International Space Station.

APRIL 2018 TESS Launched Aboard Falcon 9

APRIL 2018 Launch Pad 39B LOX Tank Test

NASA’s Transiting Exoplanet Survey Satellite (TESS) spacecraft launched from Space Launch Complex 40 at Cape Canaveral Air Force Station aboard a SpaceX Falcon 9 rocket. TESS is the first space-based, all-sky surveyor to search for Earth-like planets that are outside our solar system but close enough for further study.

Exploration Ground Systems conducted a six-hour pressurization test of the liquid oxygen (LOX) tank at Launch Pad 39B, which has been upgraded for the agency’s SLS rocket. The SLS will use both liquid oxygen and liquid hydrogen propellants. Results of the test confirmed that the tank was functioning as needed to achieve proper pressurization.

MAY 2018 InSight Launched Aboard Atlas V NASA’s Interior Exploration using Seismic Investigations, Geodesy and Heat Transport (InSight) spacecraft launched from Space Launch Complex 3 at California’s Vandenberg Air Force Base aboard a United Launch Alliance Atlas V rocket. InSight is the first interplanetary mission to launch from the West Coast and will be the first mission to look deep beneath the surface of Mars. It will measure the Red Planet’s heat output and listen for marsquakes to develop a map of its deep interior.

JUNE 2018 SpaceX Launched 15th Commercial Resupply Mission SpaceX launched a Falcon 9 rocket and Dragon cargo spacecraft on the company’s 15th commercial resupply services mission for NASA from Cape Canaveral Air Force Station’s Space Launch Complex 40. The Dragon carried science, research, crew supplies and hardware to the International Space Station.

JULY 2018 Tail Service Mast Umbilicals Installed on Mobile Launcher

AUGUST 2018 Crews Assigned to First Flights on Commercial Spacecraft

Two 35-foot-tall tail service mast umbilicals were installed on the zero-level deck of the mobile launcher. When the Space Launch System rocket stands atop the mobile launcher, these umbilicals will connect to the aft section of the vehicle’s core stage, providing liquid hydrogen fuel as well as electricity prior to launch.

NASA announced the first U.S. astronauts who will fly on Americanmade, commercial spacecraft to and from the International Space Station – an endeavor that will return astronaut launches to U.S. soil. The agency assigned astronauts to crew the first test flight and mission of both Boeing’s CST-100 Starliner and SpaceX’s Crew Dragon. In January 2019, astronaut Michael Fincke replaced Eric Boe for Boeing’s Crew Flight Test.

AUGUST 2018 Parker Solar Probe Launched Aboard Delta IV Heavy NASA’s Parker Solar Probe launched from Space Launch Complex 37 on Cape Canaveral Air Force Station aboard a United Launch Alliance Delta IV Heavy rocket. During its mission to “touch” the Sun, Parker Solar Probe will use gravity assists from Venus seven times over nearly seven years to gradually bring its orbit closer to the Sun. It will fly directly through the Sun’s atmosphere, as close as 3.8 million miles from the star’s surface.

AUGUST 2018 Mobile Launcher Moves to Launch Complex 39B, VAB The mobile launcher to be used in support of the Space Launch System rocket and Orion spacecraft made milestone moves during 2018. Carried atop the crawler-transporter, the mobile launcher moved from its construction site near the Vehicle Assembly Building (VAB) out to Launch Pad 39B, where it remained for several days of testing. Next, it traveled into the VAB to continue preparations for Artemis 1.

AUGUST 2018 Ascent Abort-2 Data Recorders Drop Test NASA successfully tested the approach to collect and retrieve valuable data in support of an upcoming test of the abort system for the agency’s Orion spacecraft. Ejectable data recorders were released from a helicopter 5,000 feet in the air and splashed into the Atlantic Ocean off the spaceport’s coast. The floating devices were then located through beacons transmitting GPS coordinates and scooped up with fishing nets by NASA personnel operating boats.

SEPTEMBER 2018 ICESat-2 Launched Aboard Delta II NASA’s Ice, Cloud and land Elevation Satellite-2 (ICESat-2) spacecraft launched from Space Launch Complex-2 at California’s Vandenberg Air Force Base aboard a United Launch Alliance Delta II rocket. It was the final flight of the Delta II after 29 years in service. ICESat-2 will make high-resolution data measurements documenting changes in the Earth’s polar ice caps and improving forecasts of sea level rise bolstered by ice sheet melt in Greenland and Antarctica.

Vice President Mike Pence addresses a meeting of the National Space Council in the high bay of Kennedyâ&#x20AC;&#x2122;s Space Station Processing Facility on Feb. 21, 2018.

Center Planning and Development Launch Capabilities Increase from Launch Pad 39A

Bangabandhu-1

KoreaSat-

Falcon Heavy Maiden Voyage

SES-11

2018 Center Planning and Development Partnerships

In 201 8 Partn , KSC Wor ership ke Agree d on 68 ment s

tive c A 9 as 8 ements H w re No KSC ership Ag Partn

17% Increase

2018’s New Partnerships These companies signed agreements for the use of Kennedy Space Center capabilities.

Center Planning and Development’s (CPD) work on developing partnership agreements has supported a 17 percent increase of non-NASA jobs from fiscal years 2010-2018 in support of Kennedy’s transformation to America’s premier, multi-user spaceport.

Growing Non-NASA Workforce 2010 Govt-only Launch Complex

2012 Post Space Shuttle Program

2018 Multi-user Spaceport

Total Workforce

13,386

8,605

10,194

Civil Servants

17%

25%

19%

Contractors

73%

65%

54%

Non-NASA jobs

10%

27%

Leveraged $1.01 Billion in KSC Assets Since 2011, CPD has divested NASA facilities and infrastructure used for the Space Shuttle Program that the agency no longer needs, including the 15,000-foot-long Shuttle Landing Facility, the three bays of the Orbiter Processing Facility, historic Launch Complex 39A and others.

Kennedy Kennedy Space Space Center Center released released aa Notice Notice of of Availability (NOA) https://go.nasa.gov/2LJIEo2 Availability (NOA) https://go.nasa.gov/2LJIEo2 for for undeveloped undeveloped land land to to support support activities activities in in launch launch operations, operations, assembly, assembly, testing testing and and processing, processing, renewable renewable energy, energy, research research and and development, development, support support services, services, and and vertical vertical launch launch and and landing. landing. The The announcement announcement is is part part of of Kennedy’s Kennedy’s multi-user multi-user spaceport spaceport objectives objectives and and is is based based on on effectively effectively utilizing utilizing land land assets assets identified in the center’s 20-year Master identified in the center’s 20-year Master Plan. Plan. This This NOA NOA has has aa two-year two-year window window of of opportunity opportunity beginning beginning June June 2, 2, 2018, 2018, and and expiring expiring June June 1, 1, 2020. 2020. Interested Interested parties parties can can respond respond to to the the NOA NOA anytime anytime during during the the open open period. period.

AVAILABLE LAND/ASSETS PARTNERSHIP LAND/ASSETS GOVERNMENT USE LAND/ASSETS

One Blue Origin

Land for Launch Operations

Space Florida

Site for SLS launches

Kennedy approved a Master Plan Amendment, converting an undeveloped 67-acre site from “renewable energy” to “launch operations and support,” in June 2018 to allow for SpaceX’s proposed launch control center and processing facility. The land use change was passed to more effectively accommodate SpaceX’s requirements without impacting NASA operations.

SpaceX

Boeing

ULA

FIRING ROOM 4 SpaceX signed a Reimbursable Space Act Agreement for the use of space inside Launch Control Center Firing Room 4.

SLSL Web

A GROWING SPACEPORT The Master Plan Implementation Strategy (MPIS) is a crucial piece for the continued evolution of Kennedy as a multi-user spaceport. The MPIS aims to further support the center’s continual growth as an environment where government, commercial and academia are able to be successful and will ensure that Kennedy will continue to be humankind’s starting point into the universe.

Commercial Crew Program NASA’s Commercial Crew Program (CCP) and commercial partners,

will be available to anyone at the launch pad to use in the unlikely event

Boeing and SpaceX, made significant strides in Fiscal Year 2018 to return

of an emergency prior to liftoff. In this fiscal year, United Launch Alliance

human spaceflight launch capabilities to the United States. Each company

also completed and prepared to ship the dual engine Centaur, as well as

continued to develop, test and integrate unique space systems to fly

other major structures for its Atlas V rocket that will launch Starliner on the

astronauts for the agency to and from the International Space Station.

uncrewed Orbital Flight Test.

CCP assigned the first crews to fly on Boeing and SpaceX’s flight tests

Boeing continues to manufacture the Starliner spacecraft inside the

and first operational missions. The crews include a total of eight NASA

Commercial Crew and Cargo Processing Facility at Kennedy Space Center.

astronauts and one Boeing astronaut. Boeing plans to fly its uncrewed flight test, known as the Orbital Test Flight, and its Crew Flight Test in late 2019. SpaceX’s uncrewed flight test, known as Demo-1, launched March 2 from Launch Complex 39A at Kennedy Space Center. NASA and SpaceX are reevaluating target test dates for Demo-2, the company’s flight test with crew. Operational missions will begin following NASA certification. The International Space Station continued to prepare for the new commercial spacecraft to arrive, installing high-definition cameras that will provide enhanced views during the final phase of approach and docking of the Boeing Starliner and SpaceX Crew Dragon. The nine astronauts training to fly the test flights and first operational missions on each spacecraft participated in simulations to rehearse each phase of CCP flights. The astronauts continued to lend their unique expertise, participating in spacesuit checkouts and practicing interfacing with the provider systems. Parachute and landing system tests continued for Boeing’s Starliner and the SpaceX Crew Dragon through a series of choreographed trials in the Western U.S. Plans call for completion of parachute testing in 2019. At Space Launch Complex 41 on Cape Canaveral Air Force Station, United Launch Alliance upgraded the white room, which astronauts will walk through just before boarding Starliner. Astronauts and launch support personnel also participated in an emergency escape system test, zip lining from the Crew Access Tower to the ground and driving armored vehicles to a triage site where they received medical treatment. The escape system

Victor Glover and Nicole Mann are two of the nine U.S. astronauts selected for commercial crew flight assignments. On Aug. 21, 2018, they learned about the tools and hardware they will use in spacewalk training at NASA’s Space Vehicle Mockup Facility in Houston. Mann is assigned to launch to the International Space Station on the first crewed flight of Boeing’s CST-100 Starliner. Glover will fly to the station on the second crewed flight of SpaceX’s Crew Dragon.

Multiple service modules and three crew modules are in various phases

flexibility to ensure continued U.S. access to the orbital laboratory. The

of production – one that will perform a Pad Abort Test and two that will

modification also identifies cargo capabilities for the company’s uncrewed

be used for flight tests and follow-on missions to the space station.

and crewed test flights. Exact details of how to best take advantage of the

Throughout the year, the Boeing team tested critical hardware in simulated

contract modification are under evaluation but could allow for additional

space environments around the country. Boeing, NASA and U.S. Army

microgravity research, maintenance, and other activities while Starliner is

teams also rehearsed safely bringing the Starliner home to Earth at White

docked to station.

Sands Missile Range in New Mexico. This proved the team can safely and efficiently get crew and cargo out of the spacecraft post-landing.

SpaceX continued manufacturing the Crew Dragon spacecraft inside the company’s headquarters and manufacturing facility in Hawthorne,

CCP updated its Commercial Crew Transportation Capability, or CCtCap,

California. In total, SpaceX has six Crew Dragon modules in various stages

contract with Boeing to provide flexibility in its commercial flight tests to

of production and testing, including a qualification module, a life support

the space station. Boeing approached NASA and proposed extending the

system testing module, the two spacecraft for flight tests and the two for

duration of the Crew Flight Test, if necessary, and adding a third crew

fully operational missions. This year, SpaceX completed environmental

member to the flight. These modifications could offer NASA additional

testing on the Crew Dragon capsule for Demo-1, the uncrewed flight test,

and shipped it to Cape Canaveral, Florida for final flight preparation. Further qualification testing and work on mechanical integration for Demo-2, the crewed flight test, is ongoing. CCP is moving forward with SpaceX’s plan to fuel the Falcon 9 rocket after the astronauts are in place in the Crew Dragon spacecraft on launch day. While this plan is the baseline for operations, it is contingent upon NASA’s final certification of the operation. SpaceX, NASA and U.S. Air Force personnel completed another full-scale joint recovery exercise to prepare for and ensure crew safety in the unlikely event of a rescue scenario. A full-size model of the spacecraft was used during rescue training, and Air Force pararescue specialists practiced extracting crew from the capsule in the water and transporting them to lifeboats. Boeing and SpaceX continued spacesuit testing to ensure the suits perform as designed.

NASA astronauts Bob Behnken, left, and Doug Hurley, assigned to fly on the first test flight of SpaceX’s Crew Dragon, pose inside a mockup of the spacecraft at NASA’s Johnson Space Center in Houston, Texas on Aug. 2, 2018, ahead of the agency’s announcement of their commercial crew assignment Aug. 3.

At Launch Complex 39A, SpaceX installed its Crew Access Arm and white room along with additional structural upgrades at the site. The company also completed a launch day simulation of crew transport from Crew Quarters to the launch pad and ascent of the Crew Access Tower to the white room. Vice President Mike Pence and members of the National Space Council surveyed progress at Boeing and SpaceX facilities at Kennedy following their National Space Council meeting in February 2018. CCP continued work with Blue Origin and Sierra Nevada Corporation in FY 18 to develop and refine their respective spacecraft and launch systems. Under these agreements, NASA provides expertise and insight into their spaceflight designs. Sierra Nevada Corp. completed a free flight test of its Dream Chaser spacecraft in November 2017 under the Commercial Crew Integrated Capability Space Act Agreement, or CCiCap.

NASA astronaut Nicole Mann poses for a photograph as she exits the Boeing Mockup Trainer at NASA’s Johnson Space Center in Houston, Texas on Aug. 2, 2018 ahead of the commercial crew flight assignments announcement Aug. 3. Mann, along with NASA astronaut Mike Fincke and Boeing astronaut Chris Ferguson were assigned to launch aboard Boeing’s CST-100 Starliner on the company’s Crew Flight Test targeted for mid-2019 in partnership with NASA’s Commercial Crew Program.

The Sun rises over a waterway near the Apollo/Saturn V Center, part of the Kennedy Space Center Visitor Complex.

Launch Services Program October 2018 marked the 20th anniversary for NASA’s Launch Services

satellites, known as CubeSats, selected for flight by the agency’s CubeSat

Program, or LSP, which connects entities with payloads to launch vehicle

Launch Initiative (CSLI). During four missions in FY 2018, 18 CubeSats were

providers. The LSP team at the agency’s Kennedy Space Center works

launched: ELaNa XIII and XIV in November 2017, ELaNa XXIII in May 2018

to provide reliable, competitive and user-friendly launch services in

and ELaNa XVIII in September 2018.

the commercial arena to satisfy agency-wide space transportation requirements and maximize the opportunities for mission success.

The Joint Polar Satellite System-1, or JPSS-1, is the first in a new series of four highly advanced NOAA polar-orbiting satellites to increase weather

LSP had an ambitious schedule for Fiscal Year 2018, working with teams

forecast accuracy. NASA, NOAA and ULA launched JPSS-1 in November

from rocket and satellite providers, including Ball Aerospace, the Johns

2017 on a Delta II rocket from Vandenberg Air Force Base.

Hopkins Applied Physics Laboratory, Lockheed Martin, the National Oceanic

and Atmospheric Administration (NOAA), Northrop Grumman, SpaceX,

The Geostationary Operational Environmental Satellite-S, or GOES-S, now

United Launch Alliance (ULA), the University of California, Berkeley, and

called GOES-17, will occupy NOAA’s GOES-West position and provide faster,

more. LSP managed the launch service for six NASA science missions that

more accurate data for tracking wildfires, tropical cyclones, fog and other

launched on two coasts, from Cape Canaveral Air Force Station in Florida

storm systems and hazards. NASA, NOAA and ULA launched GOES-17 in

and Vandenberg Air Force Base in California.

March 2018 on an Atlas V rocket from Cape Canaveral Air Force Station.

LSP certified two rockets for NASA missions that flew this year: the SpaceX

TESS is the next step in the search for planets outside of our solar system.

Falcon 9 Full Thrust for NASA’s Transiting Exoplanet Survey Satellite

The spacecraft will survey the nearest and brightest stars for two years.

mission, or TESS, and the United Launch Alliance Delta IV Heavy for the

NASA and SpaceX launched TESS in April 2018 on a Falcon 9 rocket from

agency’s Parker Solar Probe mission.

Cape Canaveral Air Force Station.

In addition to NASA’s science missions, LSP manages Educational Launch

NASA’s latest mission to Mars – the Interior Exploration using Seismic

of Nanosatellites (ELaNa) missions, which launch complements of small

Investigations, Geodesy and Heat Transport spacecraft, or InSight, is the

A United Launch Alliance Atlas V rocket stands at Cape Canaveral Air Force Station’s Space Launch Complex 41 during sunset on Feb. 28, 2018, the day before the launch vehicle sent NOAA’s Geostationary Operational Environmental Satellite-S (GOES-S) into orbit.

The Mobile Service Tower is rolled back to reveal the United Launch Alliance Delta IV Heavy rocket with the Parker Solar Probe on board, Aug. 11, 2018, at Launch Complex 37 at Cape Canaveral Air Force Station.

The final United Launch Alliance Delta II rocket is revealed following rollback of the Space Launch Complex 2 mobile service tower at Vandenberg Air Force Base, California, on Sept. 15, 2018. The rocket launched hours later carrying NASAâ&#x20AC;&#x2122;s Ice, Cloud and land Elevation Satellite-2 (ICESat-2).

This illustration depicts the twin Mars Cube One (MarCO) spacecraft as they fly through deep space. The MarCOs are the first CubeSats – modular, minisatellites – to attempt to fly to another planet. They are designed to fly along behind NASA’s InSight lander on its cruise to Mars.

first mission to peer deep beneath the Martian surface, studying the planet’s interior by measuring its heat output and listening for marsquakes. NASA and ULA launched InSight in May 2018 on an Atlas V rocket from Vandenberg Air Force Base. Also aboard the rocket were two CubeSats known as Mars Cube One (MarCO), the first test of miniaturized CubeSat technology in deep space. Parker Solar Probe will provide unprecedented information about our Sun and how changing conditions can spread into the solar system affecting Earth and other worlds. NASA and ULA launched Parker Solar Probe in August 2018 on a Delta IV Heavy from Cape Canaveral Air Force Station. NASA’s Ice, Cloud and land Elevation Satellite-2, or ICESat-2, will measure the changing height of Earth’s ice, carrying a single instrument, the Advanced Topographic Laser Altimeter System (ATLAS). NASA and ULA launched ICESat-2 in September 2018 from Vandenberg Air Force Base on the final Delta II mission. The Ionospheric Connection Explorer, ICON, will study the layer of charged particles high in our atmosphere where Earth’s weather meets space

weather. Knowledge gleaned from ICON will aid in mitigating effects of the processes that can distort signals from satellites and communications technology worldwide. During the fiscal year, NASA and Northrop Grumman prepared for the launch of ICON on a Pegasus XL rocket. LSP also hosted its third annual customer forum bringing together spacecraft customers and rocket providers. A total of 39 CubeSats are being prepared to launch on seven different ELaNa missions in FY 2019. Ten of these CSLI selected CubeSats will fly on LSP’s first Venture Class Launch Services (VCLS) mission. These small satellites will be carried aboard a Rocket Lab Electron rocket from the company’s launch pad, Launch Complex 1, located on the southern tip of the Mahia Peninsula in New Zealand. NASA also awarded two missions, Sentinel-6A, targeted to launch in 2020 aboard a SpaceX Falcon 9 Full Thrust rocket; and Landsat 9, targeted to launch in 2021 aboard a United Launch Alliance Atlas V 401 rocket. LSP will manage the launch service for both missions, which will launch from Vandenberg Air Force Base. Inside the Payload Hazardous Servicing Facility at Kennedy Space Center on Feb. 21, 2018, the first of two solar panels is being deployed on the agency’s Transiting Exoplanet Survey Satellite (TESS).

NASAâ&#x20AC;&#x2122;s Interior Exploration using Seismic Investigations, Geodesy and Heat Transport spacecraft (InSight) is lifted for placement on a spin table during preflight processing inside the Astrotech processing facility at Californiaâ&#x20AC;&#x2122;s Vandenberg Air Force Base.

A United Launch Alliance Delta II rocket lifts off from Space Launch Complex 2 at Vandenberg Air Force Base on Nov. 18, 2017 carrying the Joint Polar Satellite System-1 (JPSS-1) spacecraft.

Exploration Ground Systems Fiscal Year 2018 was a busy year for Exploration Ground Systems (EGS).

A month later, the new year came in with a splash for EGS’s Landing and

While other Exploration Systems Development programs are hard at work

Recovery Team as the integrated NASA and U.S. Navy team aboard the

building the Orion spacecraft and Space Launch System (SLS) rocket, EGS

USS Anchorage tested out new ground support equipment and practiced

is putting the finishing touches on Kennedy Space Center’s infrastructure

procedures needed to recover the Orion capsule and crew when they return

to support not only SLS and Orion, but a myriad of other spacecraft and

from deep space in the Pacific Ocean off the coast of California.

rockets that are in development. A key aspect of the program’s approach is long-term sustainability and affordability. EGS’s flexible engineering

An important step in preparation for A1 took place March 29, 2018, with a

designs makes Kennedy’s processing and launch infrastructure available to

demonstration of a portion of the launch countdown focused on fueling the

commercial and other government customers, thereby distributing the cost

new SLS. For A1, the countdown is expected to take about 45 hours and

among multiple users and reducing the cost of access to space.

40 minutes beginning two days prior to liftoff. The launch team already has started writing the launch countdown procedures for SLS, and having an

Artemis 1 (A1) really came into focus in early December as EGS took

opportunity to run through those operations is extremely beneficial so the

ownership of the SLS rocket’s Interim Cryogenic Propulsion Stage — the

team can take what they learn from the demonstrations and roll them into

first integrated piece of flight hardware to arrive in preparation for the

the launch countdown processes and procedures.

uncrewed mission. To ensure ground support equipment is ready for SLS and Orion, the upgraded crawler-transporter 2 trekked to Launch Pad 39B for an early spring fit check. Later in the summer, the crawler was used to condition the crawlerway, the 4.4 miles from the Vehicle Assembly Building (VAB) to the pad, to ensure it could handle the massive weight of the new mobile launcher. After the crew access arm, the Interim Cryogenic Propulsion Stage Umbilical and a pair of Tail Service Mast Umbilicals were installed on the mobile launcher, wrapping up installation of the last of the 20 major launch accessories and umbilicals that provide access, power, communication, coolant, fuel and other services to the launch vehicle and spacecraft, the mobile launcher was ready for its inaugural test trek. In late August/early September, the mobile launcher, traveling at a top speed of .7 mph atop crawler-transporter 2, arrived at Launch Pad 39B for the first time since being modified. At the pad, the mobile launcher spent several days undergoing fit checks and verifying key systems before heading into the VAB, where it will stay for nine months of testing. Performing these tests now will give NASA the confidence that the ground systems can safely and effectively support integration, processing and launch of SLS and Orion on missions to the Moon and future missions to Mars.

Packed inside its canister, the Interim Cryogenic Propulsion Stage (ICPS) stands inside the high bay of Kennedy Space Center’s Space Station Processing Facility. The ICPS is the first integrated piece of flight hardware to arrive in preparation for the uncrewed Artemis 1. With the Orion attached, the ICPS sits atop the SLS rocket and will provide the spacecraft with the additional thrust needed to travel tens of thousands of miles beyond the Moon.

NASA’s mobile launcher, atop crawler-transporter 2, arrives at the entrance to High Bay 3 at the Vehicle Assembly Building (VAB) on Sept. 8, 2018. The mobile launcher traveled to the VAB from Launch Pad 39B, where it completed several days of testing. This journey marked the first time the modified mobile launcher made the trek to the pad and the VAB.

In addition to the mobile launcher testing at the pad, Launch Pad 39B saw a lot of action this year, starting with an initial wet flow test in December where thousands of gallons of water flowed into the flame trench and through upgraded systems at the pad. In the spring, about 450,000 gallons of water flowed at high speed from a holding tank through new and modified piping and valves, the flame trench, flame deflector nozzles and mobile

The Orion crew access arm, top right, begins a swing test on the mobile launcher on Aug. 21, 2018.

launcher interface risers during a second wet flow test. The test was performed to confirm the performance of the Ignition Overpressure/Sound Suppression system. During launch of the SLS and Orion spacecraft, the high-speed water flow will help protect the vehicle from the extreme acoustic and temperature environment during ignition and liftoff. The major construction on the flame deflector in the pad’s flame trench that began in July 2017 also was completed this year. The new main flame deflector is critical to safely deflecting the plume exhaust from the massive SLS rocket during launch. Drawing on more than five decades of excellence, EGS continues to make strides toward the first launch of SLS and Orion while unlocking deep space access for others from the world’s premier

NASA Launch Director Charlie Blackwell-Thompson monitors operations from her console in Firing Room 1 in Kennedy’s Launch Control Center on March 29, 2018, during a countdown simulation for Artemis 1.

multi-user spaceport.

Teams from the U.S. Navy’s Explosive Ordnance Disposal Mobile Unit 3, the Special Boat Unit, the USS Anchorage and the USS New Orleans work together to connect tending lines to the Orion test article off the coast of San Diego during Underway Recovery Test-6 on Jan. 21, 2018. Kennedy Space Center’s NASA Recovery Team works with the U.S. Navy to improve recovery procedures and hardware ahead of Orion’s next flight, Artemis 1, when it splashes down in the Pacific Ocean.

About 450,000 gallons of water flowed at high speed from a holding tank through new and modified piping and valves, the flame trench, flame deflector nozzles and mobile launcher interface risers during a wet flow test Dec. 20, 2017, at Launch Pad 39B. At peak flow, the water reached about 100 feet in the air above the pad surface. The test was a milestone to confirm and baseline the performance of the Ignition Overpressure/ Sound Suppression system. During launch of NASA’s Space Launch System rocket and Orion spacecraft, the high-speed water flow will help protect the vehicle from the extreme acoustic and temperature environment during ignition and liftoff.

A sliver of the Moon is visible through one of the steel structures of the mobile launcher.

Exploration Research and Technology Programs In fiscal year 2018, employees from NASA’s Kennedy Space Center

Business Technology Transfer initiatives, sponsored innovation events and

Exploration Research and Technology Programs (ER&T) carried out a

competitions at Kennedy, and led the agency in the total number of new

number of firsts and advanced the state of the art in their fields through

patent license agreements executed, with 18 licenses.

execution of research and development projects that support Space Technology, Human Exploration and Operations and Science mission

In October 2017 on the International Space Station, astronauts installed the

directorates. Additionally, ER&T partnered with small businesses and

Advanced Plant Habitat (APH), which features 180 sensors and the ability to

academia through the Small Business Innovation Research and Small

tightly control biological growth conditions. Simultaneously, the astronauts harvested three plant varieties from the Veggie growth chamber, a first for Veggie. In January, APH started testing by growing with Arabidopsis and dwarf wheat. Plant growth experiments in microgravity occurred continuously throughout the year on the space station in Veggie and APH. Veggie also provided edible fresh greens for the crew, adding to Thanksgiving and many other meals. Principal investigators from institutions across the country used the center’s growth chambers for research, advancing progress for NASA’s exploration goals. More than 100 schools contributed data through a multiyear partnership with the Fairchild Tropical Botanic Garden in Miami and identified two species of plants suitable for growing in space that went to the station in June 2018. The successful testing of new crop species and the testing of new plant watering systems resulted in new scientific knowledge in closed environmental systems. Among the significant ER&T accomplishments during fiscal year 2018 was a demonstration of excavation, autonomy and resource collection for in-situ resource utilization operations featuring RASSOR 2.0. During the fall of 2017, ER&T hosted the center’s annual Innovation Expo, which demonstrated technologies developed by Kennedy’s researchers, and the center held a KickStart Competition to foster creative thinking.

Inside the Space Station Processing Facility high bay at Kennedy Space Center, technicians work on the pump package assembly (PPA) on Aug. 30, 2018. The payload was carried to the International Space Station on SpaceX’s 16th Commercial Resupply Services mission. The PPA will be used to continuously drive the cooling water in the space station’s thermal control system.

The Federal Laboratory Consortium for Technology Transfer (FLC) recognized Kennedy’s innovation

Above: NASA scientists with advanced degrees arenâ&#x20AC;&#x2122;t the only ones deciding what crops should be grown in space. Students, including a special group from Columbus, Ohio, are also taking a bite out of this tasty cause. Tessa Hanna, at right, an AmeriCorps Vista volunteer, helps students from schools in Columbus, Ohio, collect and record data on plants they are growing as part of The Fairchild Challenge.

Below: Two cryogenic propellant system technologies developed by ER&T were incorporated in the construction of the new 1.4-million-gallon liquid hydrogen storage tank at Launch Pad 39B. These technologies enable future zero boil-off and densification of the hydrogen.

Dr. Howard Levine, a research scientist at Kennedy Space Center, reviews the growth of several tomato plants in a laboratory in the Space Station Processing Facility. The tomato plants are growing in the Veggie Passive Orbital Nutrient Delivery System (PONDS), a direct follow-on to the Veg-01 and Veg-03 hardware and plant growth validation tests. PONDS is planned for use during Veg-04 and Veg-05 on the International Space Station after the Veggie PONDS Validation flights on SpaceX-14 and OA-9.

In the Swarmathon competition at the Kennedy Space Center Visitor Complex on April 28, 2018, students were asked to develop computer code for the small robots, programming them to look for “resources” in the form of AprilTag cubes, similar to barcodes. Teams developed search algorithms for the Swarmies to operate autonomously, communicating and interacting as a collective swarm similar to ants foraging for food.

Team members from New York University work on their robot miner in the RobotPits on the fourth day of NASA’s 9th Robotic Mining Competition, May 17, 2018, at Kennedy Space Center Visitor Complex. More than 40 student teams from colleges and universities around the U.S. used their mining robots to dig in a supersized sandbox filled with simulated lunar soil, gravel and rocks, and participate in other competition requirements. The Robotic Mining Competition is a NASA Human Exploration and Operations Mission Directorate project designed to encourage students in science, technology, engineering and math, or STEM fields. The project provides a competitive environment to foster innovative ideas and solutions that could be used on NASA’s deep space missions.

Inside the Spectrum prototype unit on Oct. 16, 2017, organisms in a Petri plate are exposed to blue excitation lighting. The device works by exposing organisms to different colors of fluorescent light while a camera records what’s happening with time-lapse photography. Results from the Spectrum project will shed light on which living things are best suited for long-duration flights into deep space.

efforts for NASA’s role in developing and transferring the Autonomous Flight

team also demonstrated mixing nitrogen and oxygen to make breathable

Termination Unit (AFTU) to more than 26 commercial space companies

air on the space station as a contingency for emergency situations by

and other government agencies, earning Kennedy the FLC’s U.S. Southeast

repurposing existing support.

Region’s 2018 Interagency Partnership Award. Establishing deeper working relationships with the Science Mission As a significant example of technology infusion into our spaceflight

Directorate, ER&T has been given the opportunity to develop two scientific

programs, the Exploration Ground Systems Program approved incorporation

instruments. The Water Analysis and Volatile Extraction (WAVE) instrument,

of two ER&T-developed technologies for cryogenic propellant systems in

intended for use in a future lunar rover, would accept and heat regolith

the construction of the new 1.4 million gallon liquid hydrogen storage tank

samples to quantify water and other volatiles extracted from below the

for Launch Complex 39B to enable future zero boil off and densification

surface. Mass Spectrometer observing lunar operations instrument, or

of the hydrogen. The center also loaned the Universal Propellant Servicing

MSolo, is a component of WAVE that could be used as a stand-alone

System (UPSS) to a commercial partner to support critical systems

instrument for one of the first Commercial Lunar Payload Services missions.

level testing. The UPSS, a versatile capability for transferring cryogenic propellants, provides an option for servicing small-class launch vehicles

Branching out to work with new partners also occurred when ER&T

and broadens Kennedy’s ability to support commercial launch operations.

performed the first optical quality testing on a window for NASA’s Orion spacecraft. Meanwhile, other projects met development milestones,

Space station resupply and utilization work remains a key focus, and

including efforts to turn waste on spacecraft into usable gases in a reactor,

the ER&T ground processing crews prepared payloads for SpaceX CRS-

the ability to control dust buildup on surfaces using electrostatic fields,

13, which launched in December 2017, and similar activity occurred for

using algae in a bioreactor for waste processing, and printing a polymer

science payloads including the Transitioning Exoplanet Survey Satellite,

concrete mix using regolith and plastic wastes.

the InSight Mars Lander, Parker Solar Probe, and other station resupply missions.

ER&T had a full year of supporting the center’s academic engagement activities such as the annual Swarmathon and Robotic Mining Competition,

The Orbital Replacement Units team traveled to Tanegashima Space

participation in “NASA Days” recruiting events, providing technical guidance

Center in Japan in April 2018 and spent four weeks completing the final

to students interested in space biology through the “Fairchild Gardens”

processing and integration of the Life Science Glovebox facility and two

initiative, and the mentoring of student interns engaged in a variety of life

basic express racks into the Japanese Pressurized Logistics Carrier. The

science, ground technology and advanced systems development.

Orion Processing ORION PRODUCTION OPERATIONS AT KENNEDY

on Dec. 18, 2017, at Michoud Assembly Facility in New Orleans. The final

The Orion production team of engineers and technicians and their

in a Crew Module Transportation Fixture and driven to Kennedy in a super-

Lockheed Martin counterparts achieved several major processing

wide transport truck where it arrived on Aug. 24, 2018. The pressure vessel

milestones in fiscal year 2018 – helping the agency get closer to sending

is now residing in the O&C high bay where it is undergoing structural build

humans farther into space than ever before.

for flight.

FINAL PREPARATIONS FOR ARTEMIS 1 ORION CREW MODULE

TESTING FOR ASTRONAUT SAFETY

In the beginning of the year, the Orion processing team successfully

Abort-2, or AA-2, flight test. Targeted for 2019, AA-2 will be a full-stress

completed thermal cycle testing of both the heat shield and the Orion crew

test of the launch abort system (LAS) and will launch on a booster provided

module. The test, in a specially constructed thermal cycle chamber in the

by Northrop Grumman from Space Launch Complex 46 (SLC-46) on

airlock of the Neil Armstrong Operations and Checkout Building’s (O&C)

Florida’s Cape Canaveral Air Force Station.

high bay, exposed the spacecraft to the stress of harsh environmental elements and monitored how they performed. All systems performed well and will ship out along with the service module in Fall 2019 for integrated thermal cycle testing at NASA Glenn’s Plum Brook Station in Sandusky, Ohio. This final thermal testing will be one of the validations needed for flight readiness. In addition to environmental testing, the team worked to pre-fit Orion’s heatshield and back shells—the outer skin of the spacecraft. The heatshield was secured on the vehicle for the final time to the bottom of the crew module. The heat shield is the largest of its kind designed for missions to carry astronauts. The installation of this mighty shield that will withstand temperatures of nearly 5,000 degrees Fahrenheit marks the beginning of closing out the crew module assembly, a huge milestone in the progress toward Artemis 1. The back shells were pre-fitted and will be installed for the final time early next year.

PROCESSING HUMANITY’S RIDE BACK TO DEEP SPACE While the team is working hard on Artemis 1 processing and launch, they also have started processing for the next launch, Artemis 2 or A2. This mission will take humankind back into deep space for the first time since Apollo 17 in 1972. The production of the A2 pressure vessel, which is the primary structure that maintains the atmosphere astronauts will breathe and work in while in the vacuum of deep space, began with the first weld

weld to the vehicle was performed on July 24, 2018, before it was packed

The production team also played a crucial part in preparing for the Ascent

The Orion crew module pressure vessel for Artemis 2 is in a work stand called the “bird cage” inside Kennedy’s Neil Armstrong Operations and Checkout Building high bay on Sept. 11, 2018. The pressure vessel is Orion’s primary structure that holds the pressurized atmosphere astronauts will breathe and work in while in the vacuum of deep space.

To prepare, this year all three aeroshells, or outercoverings for the booster, arrived for processing inside the Vehicle Assembly Building, where they were stacked and rolled to SLC-46 for pathfinding exercises. Two of the three motors that make up the LAS, the jettison abort motor and the launch abort motor, have arrived for processing in the Launch Abort System Facility at Kennedy. The team also did a drop test of the electronic data recorders, or black boxes that will jettison off the mock Orion crew module during AA-2 to verify and validate recovery operations. The test was smooth and recovery time exceeded expectations. AA-2 will be the final validation test needed for the LAS to be verified for humans, making it a monumental milestone for A2 processing.

Lockheed Martin engineers and technicians install the heat shield to the Orion crew module July 25, 2018, inside the Neil Armstrong Operations and Checkout Building high bay at NASA’s Kennedy Space Center in Florida. Orion is being prepared for Artemis 1, the first uncrewed integrated flight test atop NASA’s Space Launch System rocket. The heat shield will need to withstand temperatures of up to 5,000 degrees Fahrenheit during Orion’s descent and re-entry through the Earth’s atmosphere before it splashes down in the Pacific Ocean.

Engineering This year was a banner year for the Engineering Directorate at NASA’s

to the Vehicle Assembly Building, where Multi-Element Verification and

Kennedy Space Center. The team accomplished an unprecedented number

Validation testing began.

of achievements while supporting all of the agency’s spaceflight programs. The team persisted with advancements in engineering and technology

In 2018, the Engineering Directorate provided critical engineering expertise

developments that have firmly established the center as a premier, multi-

to the Launch Services Program (LSP) to help them successfully launch

user spaceport, enabling research, processing and launch site operations

a historic portfolio of six launches, including launches from two different

for government and commercial customers.

coasts. This includes the launch of the Parker Solar Probe, which will travel through the Sun’s atmosphere and closer to the surface than any

The Engineering team supported the Commercial Crew Program’s (CCP)

spacecraft before.

significant progress toward certifying both CCP partners, SpaceX and Boeing, for their first flight tests. These flights, while uncrewed, will be the

This increased launch pace and launch vehicle diversity created challenges

first time the United States has launched a human-rated spacecraft in more

and complexities throughout the year, but all were conquered by the LSP

than seven years. While focused on the test flights, the team continues to

team. The directorate also worked throughout 2018 to provide engineering

work on all SpaceX Crew Dragon modules and Boeing Starliners, including

excellence during the ground processing and flight readiness of three

the vehicles that will carry the astronaut crews that were named this year.

commercial resupply missions that launched over 19,000 pounds of science, crew supplies, and hardware to the International Space Station

The Space Launch System, Orion and Exploration Ground Systems

and is on target to launch two more missions prior to the end of the year.

Programs realized significant progress as the Kennedy Engineering team delivered, prepared and installed ground system equipment that will enable

The Engineering Construction of Facilities (CoF) team had another

the fulfillment of NASA’s goals and objectives of deep space exploration.

successful year, providing superior leadership and technical prowess in the design and construction of both institutional and programmatic facilities.

This year marked the completion of umbilical testing at the Launch

The CoF team is in the process of completing the first of two phases of

Equipment Test Facility, with subsequent installation of all 21 required

the Kennedy Coastal Shoreline Restoration project in support of Hurricane

umbilicals and vehicle support posts on the Mobile Launcher (ML). Activity

Matthew recovery efforts. The successful implementation of this project

progressed as the ML made a successful trek to Launch Complex 39B and

will mitigate a center-wide risk as breach of the 4.5-mile shoreline would result in a significant disruption of Kennedy’s critical center-wide services and operational support. Kennedy continues to serve as the archetype of innovation, paving the way for a dynamic future in space exploration. The Engineering Directorate’s significant contributions to all center programs help the agency be better positioned for overcoming future challenges. The combined expertise and diligent engineering provided by Kennedy’s workforce this past year will transform a rich record of successes into tomorrow’s victories.

The team that tested the umbilical lines and accessories that will connect from the mobile launcher to NASA’s Space Launch System rocket and Orion spacecraft for Artemis 1 pause for a group photo during a banner signing event July 24, 2018, marking the completion of testing at the Launch Equipment Test Facility.

The team that tested the umbilical lines and accessories that will connect from the mobile launcher to NASA’s Space Launch System rocket and Orion spacecraft for Artemis 1 hold a banner signing event July 24, 2018, to mark completion of testing at Kennedy’s Launch Equipment Test Facility. A total of 21 umbilicals and launch accessories were tested on various simulators at the facility before they were transferred to the mobile launcher for installation. Employees of Kennedy’s Engineering Directorate gather in the conference room of Operations Support Building II for a presentation by NASA Administrator Jim Bridenstine. He made his first official visit to the Florida spaceport on Aug. 6 and 7, 2018.

Spaceport Integration and Services The Spaceport Management and Integration Division is an integral part of Kennedy’s evolution to a multi-user spaceport. The division leads the processes that enable NASA’s commercial space partners to operate as independently as possible, efficiently obtain essential services, and successfully conduct Federal Aviation Administration-licensed launches from America’s spaceport. A total of 20 launches were supported in 2018, including three NASA Launch Services Program missions and 14 commercial launches licensed by the Federal Aviation Administration, including the first launch of the SpaceX Heavy rocket from historic Launch Complex 39A.

FACILITY UPGRADES

28,000+ Pieces of Inventory

Spaceport Integration refurbished the Astronaut Crew Quarters inside the center’s Neil Armstrong Operations and Checkout Building; rennovated the Beach House, a historic conference facility damaged during 2016’s Hurricane Matthew; and revitalized the Central Industry Assistance Office Facility.

Spaceport Integration Improves Inventory Tracking by reducing the center’s loss rate to .08 percent, well below the agency benchmark of .5 percent.

Key Facility Systems Pass the Test The Facility Systems Branch created and tested Kennedy Complex Control System Human Machine Interface screens in support of numerous Construction of Facilities and Program projects. This included screens for the C5 emergency power plant, Central Campus power distribution, Central Campus Solar Farm, Pad B Uninterruptible Power Supply, Mobile Launcher power, fire suppression and facility pneumatic panels. The Facility Systems Branch engineering personnel were also the project managers and lead engineers for the Pad B UPS replacement project, which was completed mid-summer.

PASS

KENNEDY IS ENVIRONMENTALLY ‘GREEN’ Environmental stewardship and sustainability are essential to managing resources and protecting the unique landscape the spaceport calls home. The center scored almost all “green” on its annual Sustainability Scorecard, by meeting or surpassing the center’s goals in the reduction of greenhouse gas emissions, energy and potable water usage, use of renewable energy and alternative fuels, pollution prevention and waste management, and sustainable acquisition. The FY2018 Energy and Water Program goals were met and contributed to substantial cost savings for the center and agency.

60 Million Pounds

Tons of waste were diverted from the center’s landfill including soil dredged from roadside ditches, steel from Launch Complex 39A, compost, office paper, recycled glass, aluminum, plastic and steel cans/bottles.

Facilities Ready to Support

MULTI-USER SPACEPORT

Facility Systems Branch engineering personnel supported successful completion of Launch Pad 39B flame deflector installation; supported solid rocket booster throat plug resolution team efforts and supported Blue Origin regarding their Ignition Overpressure and Sound Suppression system. In May, the team successfully led the Pad B Standalone Wet Flow 2.0 Verification and in September, the Validation Test and mobile launcher fit check test at Launch Complex 39B.

12,000+ Tons of Soil In a Launch Site Clean-up, the Remediation Program conducted the excavation and proper disposal of 9,771 tons of contaminated soil from three sites and is currently removing 2,380 tons from a fourth site.

REVOLUTIONARY AIR TECHNOLOGY DEVELOPED The Biomedical Engineering and Research Laboratory (BERL) has been involved in improving the state-of-theart of liquid air-based life support technology. Under a partnership with the National Institute for Occupational Safety and Health (NIOSH), the BERL has developed new techniques for long term storage of liquid air, new breathing devices capable of working in various orientations, and sensors to detect cryogenic liquid levels in a moving dewar (a liquid air storage device). During this past year, BERL personnel have developed a revolutionary technology for a liquid air self-contained breathing apparatus (SCBA) that utilizes the user’s body heat to vaporize and warm the liquid air and make it breathable. BERL has also prepared for a new era in human spaceflight by developing specialized equipment for crew rescue and medevac capabilities. This includes new, dual patient capacity for Kennedy’s helicopters, maximizing space available for patient treatment. BERL is developing specialized equipment for Air Force helicopters, improving paramedics’ ability to effectively treat patients. Additionally, they worked on converting the Mine Resistant Ambush Protected (MRAP) vehicles from their original design for military use to meet the center’s needs as an emergency crew egress vehicle.

3.5 Miles of Shoreline Kennedy’s Hurricane Matthew Shoreline Repair Project is underway to restore its natural state by fortifying 3.5 miles of Kennedy’s shoreline. This project is designed to not only restore habitat, but protect Kennedy’s crucial launch infrastructure.

10,700+ POUNDS RECYCLED During Kennedy’s America Recycles Day event, a total of 10,736 pounds of employees’ personal material was collected and donated to charitable organizations.

345

LEATHERBACK

5,374

GREEN

LOGGERHEAD

RECORD NUMBER OF NESTS

Lights Out for Sea Turtles runs from March through October contributing to a successful nesting season on the beaches of the Canaveral National Seashore and Merritt Island National Wildlife Refuge.

$2.2 Million Excessed $308,000 Sales of Surplus The logistics branch also supplemented Kennedyâ&#x20AC;&#x2122;s budget for new procurements by coordinating the reutilization of $2.2 million in excess property, and generating $308,000 in proceeds from surplus sales.

Ready for Emergencies The Protective Services Office Emergency Management Team activated the Emergency Operation Center 37 times to support Kennedy and 45th Space Wing launches and a visit to the spaceport by Vice President Mike Pence.

Full-Scale Aircraft Training Exercise Kennedyâ&#x20AC;&#x2122;s Fire Department conducted a full-scale aircraft training exercise which required firefighters to perform aircraft firefighting extinguishment and search-and-rescue operations. The training was conducted in extreme smoke and live fire conditions.

FAST ROPE Kennedy’s Flight Operations and the Emergency Response Team conduct fast rope training on space center property. Security works frequently with Flight Operations to conduct realistic training to ensure both groups are prepared.

WORLD-CLASS COMPETITORS Kennedy’s Emergency Response Team placed fifth overall while participating in the 2017 annual SWAT Roundup International Competition. There were 54 teams from around the world.

Preparing for Orion Ascent Abort-2 Kennedy’s Flight Operations team worked with members from the Orion Ascent Abort-2 program at NASA’s Johnson Space Center in Houston for testing of electronic data recorders five miles offshore of the Florida spaceport. The recorders were dropped from one of Kennedy’s UH-1H II helicopters flying 5,000 feet above the ocean surface to simulate deployment during an ascent abort scenario. Flight Operations personnel led the team through the Airworthiness and Flight Safety Review Board process. The test was a key requirement in preparing for a FY2019 flight test from Cape Canaveral Air Force Station’s Space Launch Complex 46.

More than 150 Kennedy first responders, volunteers, controllers, evaluators and observers participated in a full-scale, realistic activeshooter exercise testing all aspects of the space center’s emergency first-response capabilities. The exercise was captured for a video to be used as a training and awareness tool.

Communication and Public Engagement Journalists came to Kennedy Space Center during FY 2018 to participate in

addition to launches, two NASA Socials were held in conjunction with major

the 52 media projects that took place throughout the year. Six launches and

agency events at Kennedy: the State of NASA and a meeting of the National

five media day events brought in about 865 media members. Kennedy also

Space Council, chaired by Vice President Mike Pence.

hosted individual media requests on projects for the Discovery Channel, BBC, Travel Channel and Science Channel, as well as 150 crew members

The Kennedy Academic Engagement Team reached 38,493 students

for movie production of “First Man.”

and educators through workshops and programs led by professional educators at the Public Engagement Center and Educator Professional

Through a variety of social media channels, Kennedy engaged and

Development Cohort. Kennedy hosted two educator and 133

informed millions of people online about the exciting missions and science

undergraduate and graduate interns.

taking place. NASA Established Program to Stimulate Competitive Research (EPSCoR) awarded 14 new Research Cooperative Agreements and augmented 28 Research Infrastructure Development projects with an additional year of funding. The program released four solicitations, including Research, International Space Station Flight Opportunity, Rapid Response Research and Research Infrastructure Development. EPSCoR partnered with Minority University Research Education Program (MUREP) to form a new collaboration, EPSCoR/MIRO (MUREP Institution Research Opportunities). Three International Space Station Flight Opportunity projects successfully flew in their third year. NASA Administrator Jim Bridenstine, seated, far end of the table, center, talks with members of the local media in a conference room inside the Space Life Sciences Laboratory during his tour of the spaceport on Aug. 7, 2018. Seated next to him is Kennedy Center Director Bob Cabana.

The Academic Engagement Team hosted two university-level competitions at Kennedy, impacting approximately 3,000 students. Swarmathon is a software competition utilizing NASA’s “Swarmies” technology. The Robotic

Priority social media platforms include Facebook, Twitter, Instagram, YouTube,

Mining Competition has teams design and build robots to mine regolith

Flickr and USTREAM.

simulant and return it for processing. They also wrote and presented outreach project reports and system engineering papers. NASA’s First

Through hundreds of posts and Tweets, the center reached 38.1 million

Nations Launch Competition, hosted in partnership with Wisconsin’s Space,

Twitter users and 3.8 million Facebook users. On YouTube, Kennedy has

reached more than 102 Native American students.

75K subscribers and had more than 1.3 million views and 2.5 million minutes watched in FY 2018.

NASA Days at Minority Serving Institutions provides college students the opportunity for one-on-one interaction with NASA managers, information

NASA Social events brought more than 350 participants to the Florida

sessions on NASA internship programs, networking meetings with faculty

spaceport to cover six launches: three commercial resupply missions to the

members and NASA managers, and insight for the science and technology

International Space Station, the Geostationary Operational Environmental

research community on conducting research business with NASA. Visits

Satellite-S, Transiting Exoplanet Survey Satellite and Parker Solar Probe. In

in 2018 included two campuses of Polytechnic University of PR, three

campuses of Inter-American University in Puerto Rico, Southern University, Florida International University and Bethune Cookman University. Educator programs hosted at Kennedy included two NASA MUREP Educator Institute (MEI) and a NASA Community College Aerospace Scholars (NCAS) workshop. MEI hosts pre-service teaching students and faculty from minority serving institutions for an immersive experience with NASA facility tours, presentations by subject-matter experts, and “train the trainer”style workshop sessions. It requires prerequisite online coursework and post-requisite professional development. The NCAS workshop is a four-day, on-center workshop for community college students who have successfully completed a five week online course. Student teams mentored by Kennedy engineers compete in two Lego rover challenges to win a fictional NASA contract.

Members of the media attend a briefing in the NASA News Center auditorium on June 28, 2018. The briefing focused on research planned for launch to the International Space Station on SpaceX CRS-15.

Below: Students from Montgomery College in Rockville, Maryland, follow the progress of their Swarmie robots during the spaceport’s third annual Swarmathon competition at the Kennedy Space Center Visitor Complex on April 17, 2018. Twenty-three teams representing 24 minority serving universities and community colleges were invited to develop software code to operate these innovative robots known as “Swarmies” to help find resources when astronauts explore distant locations, such as the Moon or Mars.

Above: Television reporters begin setting up at the NASA News Center to await liftoff of the SpaceX Falcon Heavy rocket from Kennedy’s Launch Complex 39A at Kennedy Space Center in Florida. The iconic Vehicle Assembly Building and Launch Control Center are visible in the background. The Falcon Heavy demonstration flight was a significant milestone for the world’s premier multi-user spaceport.

Kennedy Business Report The Kennedy Space Center Fiscal Year 2018 budget was $2.57 billion. The center also performed $179.1 million in reimbursable work with other government and commercial entities. During Fiscal Year 2018, the Commercial Crew Program (CCP), along with industry partners Boeing and SpaceX, made significant strides to return human spaceflight capabilities to the United States through its Commercial Crew Transportation Capability (CCtCap) contracts. Both partners continued to develop, test and integrate their unique space systems, completing key milestones and making significant progress toward NASA certification. CCP assigned flight crews to Boeing and SpaceX’s test flights and first operational missions. The crews include a total of eight NASA astronauts and one Boeing astronaut. The program updated its CCtCap contract with Boeing to provide flexibility in its flight tests to the space station. Boeing proposed extending the duration of the Crew Flight Test, if necessary, and adding a third crew member to the flight. These modifications could offer NASA additional flexibility to ensure continued U.S. access to the orbiting laboratory. The modification also identifies cargo capabilities for the company’s uncrewed and crewed test flights. Exact details of how to take advantage of the contract modification are currently under evaluation. Boeing continues to manufacture its CST-100 Starliner spacecraft inside the Commercial Crew and Cargo Processing Facility at Kennedy. Multiple service modules and three crew modules are in various phases of production. At Launch Complex 39A, SpaceX installed its Crew Access Arm and white room, along with additional structural upgrades to the site. The company also completed a launch day simulation, which involved crew transport from Crew Quarters to the launch pad and ascent of the Crew Access Tower to the white room. SpaceX, NASA and U.S. Air Force personnel also completed a joint recovery exercise to prepare for and ensure crew safety in the unlikely event of a rescue at sea. As part of this exercise, a full-scale model of the spacecraft was used for Air Force pararescue specialists to practice extracting crew from the capsule and transporting them to lifeboats. CCP also is working with Blue Origin and Sierra Nevada to develop and refine their respective spacecraft and launch systems. Under these Commercial Crew Development Program Round 2 (CCDev2) and Commercial Crew Integrated Capability (CCiCap) agreements, NASA provides expertise and insight into their spaceflight designs.

All of these activities demonstrate how the CCP continues to contribute toward making the Florida Spaceport a premier launch complex for human spaceflight. During the fiscal year, the Launch Services Program supported five successful mission launches: Geostationary Operational Environmental Satellite (GOES-S), Transiting Exoplanet Survey Satellite (TESS), Interior Exploration using Seismic Investigations, Geodesy and Heat Transport (InSight), Parker Solar Probe, and Ice, Cloud and land Elevation Satelite-2 (ICESat-2) launched from Cape Canaveral Air Force Station in Florida and Vandenberg Air Force Base in California. LSP achieved its 90th mission with the recent launch of ICESat-2 on the final Delta II rocket. The program also procured launch vehicle services and other support for several manifested missions scheduled to launch in FY 2019 and beyond. The Exploration Ground Systems Program budget included both Exploration Ground Systems and the 21st Century Space Launch Complex funding. Key modernization and compatibility efforts for the launch of the Space Launch System rocket and the Orion spacecraft on Artemis 1 (A1) include the move of the mobile launcher into the Vehicle Assembly Building (VAB), which signifies the center’s readiness for A1. In addition, support began for mobile launcher and VAB multi-element validation and verification, Pad B modernization (including the Liquid Hydrogen Sphere Upgrades) and development of the Spaceport Command and Control System. Furthermore, enhancements for the Kennedy Space Center multi-user spaceport continued for the development of ground operations infrastructure to facilitate the activities of future customers and stakeholders, including government agencies, commercial industry, and current and future NASA programs. The International Space Station Program allowed for continued success toward achieving and maintaining the space station program mission of fully utilizing a permanent human outpost in space. Kennedy’s Exploration Research and Technology Programs efforts afforded provisions for ground processing support for experiments hardware, as well as orbital replacement units needed to maintain the space station. The budget also provided for ongoing development of hardware intended to promote full utilization of the space station through the establishment of fundamental biological research capabilities. Kennedy’s Center Management and Operations maintained the center’s essential infrastructure and its core technical capabilities, and sustained necessary safety and engineering technical authorities to support NASA’s mission and enable multi-user spaceport readiness. Kennedy’s Hurricane Irma emergency supplemental budget funded windstorm damage assessments, facility stabilizations and subsequent ongoing repairs to ensure all underlying center capabilities and critical infrastructure are ready and able to help fulfill NASA mission objectives and Spaceport partner requirements.

KENNEDY SPACE CENTER FY 2018 BUDGET AUTHORITY ($ IN MILLIONS) Commercial Crew Program

$913

Launch Services/Science

$492

Ground Systems Development and Operations

$517

Space Station

$57

Center Management & Operations

$329

Other

$270

Total KSC

$2,578

NASA/KSC BUDGET AUTHORITY SUMMARY FY 2016 THROUGH FY 2018 ($ IN MILLIONS) $0

$500

$2,637

FY2016

$2,595

FY2017

$2,578

FY2018

$1,000

$1,500

FY 2018 KSC BUDGET BY ELEMENT ($ IN MILLIONS) TOTAL $2,578M

$2,000

$2,500

$3,000

Personnel Costs $294M (11.4%)

$3,500

$4,000

Travel $7M (0.3%)

Procurement $2,277M (88.3%)

Workforce Overview Kennedy Space Center is the nation’s premier,

At the end of each year, the center takes a snapshot

multi-user spaceport. It is an integral part of the

of its workforce. This picture includes all federal and

local economy, providing nearly 10,000 jobs for civil

contractor employees chartered to work for Kennedy.

servants, contractors, tenants and construction crews.

Other organizations, such as the European Space Agency and Patrick Air Force Base, have roles here but

The workforce includes people with many skills

are not reflected in these numbers.

who are dedicated to supporting the nation’s space program and NASA’s future exploration to destinations

The civil servant skill mix includes those in science,

including the Moon and Mars. To accomplish the

technology, engineering and mathematics positions

agency’s various missions, these individuals fulfill a

and those in professional administrative and clerical

multitude of tasks.

positions.

KENNEDY SPACE CENTER WORKFORCE PROFILE (through 9/30/18)

Civil Servants 1,909* NASA Pathways Interns 82 Total Civil Servants 1,991 *includes 8 part-time permanent and 1 full-time temporary employees Civil Servants Skill Mix Scientific, Technology, Engineering and Mathematics Clerical and Professional Administrative On-site Contractor Employees Off-site/Near-site Contractor Employees

33% 67% 4,557 85

(Excludes construction workers)

Total Contractor Employees

4,642

Total Construction Workers

445

Total Tenants TOTAL KSC POPULATION

2,146 9,224

Procurement Report INDUSTRY PARTNERS AT A GLANCE The companies listed below were some of Kennedy Space Center’s top support or launch services contractors in terms of dollars obligated in Fiscal Year 2018. Following is a brief description of their work for the agency:

THE BOEING COMPANY The Boeing Company participated in NASA’s goal of developing orbital commercial Crew Transportation Systems. Under the Commercial Crew Transportation Capability (CCtCap) contract for NASA’s Launch America initiative, Boeing was tasked with developing safe, reliable and cost-effective crew transportation to and from the International Space Station on American spacecraft launched from the United States.

UNITED LAUNCH SERVICES LLC United Launch Services, or ULS, is a subsidiary of United Launch Alliance, a joint venture between The Boeing Company and Lockheed Martin Commercial Launch Services. ULS provided commercial launch services to NASA using the Delta and Atlas launch vehicles under the NASA Launch Services (NLS) II multiple-award, indefinite delivery, indefinite quantity task order contract. Principal location for the Delta and Atlas vehicle assembly

the Commercial Crew Transportation Capability (CCtCap) contract for NASA’s Launch America initiative, SpaceX was tasked with developing safe, reliable and cost-effective crew transportation to and from the International Space Station on American spacecraft launched from the United States. SpaceX also participated via a Space Act agreement supporting the agency’s Commercial Crew Integrated Capability (CCiCap) initiative.

URS FEDERAL TECHNICAL SERVICES INC. URS Federal Technical Services provided base operations support for Kennedy Space Center. URS Federal Technical Services was responsible for operations, maintenance and engineering for specific Kennedy facilities, systems, equipment and utilities. URS Federal Technical Services also was responsible for calibration and propellants handling at the center.

PRECISION MECHANICAL INC. Precision Mechanical Technical Services provided for the fabrication, construction and integration of a new 1.25 million gallon LH2 storage sphere, associated vaporizers, flare stack and propane system, and other equipment into the liquid hydrogen (LH2) system at the center’s Launch Complex 39B.

is Decatur, Alabama. Both vehicles launch from Cape Canaveral Air Force

J.P. DONOVAN CONSTRUCTION INC.

Station in Florida and Vandenberg Air Force Base in California.

J.P. Donovan Construction Inc., provided general contracting management and construction services for Exploration Ground Systems’ mobile

JACOBS TECHNOLOGY INC. Jacobs Technology Inc., prime contractor for the Test and Operations Support Contract (TOSC), is responsible for the overall management and implementation of ground systems capabilities, flight hardware processing and launch operations at Kennedy Space Center. Specific services provided by Jacobs Technology under TOSC include launch vehicle, spacecraft

launcher ground support equipment installation effort. The mobile launcher modifications are necessary to meet NASA’s beyond Earth orbit mission. J.P. Donovan Construction also was the prime contractor for the Pad 39B flame trench deflector and refurbishment, and the center’s shoreline restoration effort.

and payload integration and processing; operations and development of

AFDS FEDERAL DATA SOLUTIONS LLC

associated processes for ground systems to support integration, processing

AFDS Federal Data Solutions provided communication and information

and launch; servicing and testing of flight hardware; and launch of

technology services under the Kennedy Infrastructure Applications &

development and operational flights at Kennedy.

Communications, or KIAC, contract. Products and services AFDS provides include: application operations and software development; data center

SPACE EXPLORATION TECHNOLOGIES CORP. Space Exploration Technologies Corporation (SpaceX) participated in NASA’s goal of developing orbital commercial Crew Transportation Systems. Under

operations; voice, imaging and data communications; multimedia services support; documentation and reproduction; and research and library management.

YOUR PROCUREMENT DOLLARS AT WORK GEOGRAPHICAL DISTRIBUTION BY STATE (Fiscal Year 2018 Obligations)

STATE ALABAMA

10,941,844

ARIZONA

8,723,000

STATE

TOTAL DOLLARS

MONTANA

816,947

NEVADA

228,260

CALIFORNIA

274,791,214

NEW JERSEY

19,321

COLORADO

456,006,224

NEW MEXICO

11,708,296

CONNECTICUT

TOTAL DOLLARS

4,223,245

NEW YORK OHIO

526,236

FLORIDA

199,613,403

GEORGIA

8,711,900

PENNSYLVANIA

20,945,475

ILLINOIS

505,146

SOUTH DAKOTA

1,146,309

INDIANA

2,193,282

TENNESSEE

312,847,868

LOUISIANA

8,133,520

TEXAS

660,419,656

MARYLAND

237,532,822

VIRGINIA

MICHIGAN

1,531,344

WASHINGTON

MISSOURI

2,083,018

TOTAL

4,371,418

78,392,660 614,325 $2,307,026,733

TOP 25 KSC BUSINESS CONTRACTORS FOR FY 2018 Contractor Dollars THE BOEING COMPANY

650,286,847

UNITED LAUNCH SERVICES LLC

455,470,330

JACOBS TECHNOLOGY INC.

293,217,559

SPACE EXPLORATION TECHNOLOGIES CORP.

260,521,115

URS FEDERAL SERVICES INC.

148,869,119

PRECISION MECHANICL INC.

60,683,436

J.P. DONOVAN CONSTRUCTION INC.

51,119,483

ASRC FEDERAL DATA SOLUTIONS INC.

40,435,809

AI SOLUTIONS INC.

35,963,687

CHENEGA INFINITY INC.

32,664,256

MILLENNIUM ENGINEERING AND INTEGRATION CO.

22,815,199

INTEGRATED MISSIONS SUPPORT SERVICES LLC

16,753,837

AIR PRODUCTS AND CHEMICALS INC.

15,463,970

FLORIDA POWER AND LIGHT COMPANY INC.

14,157,975

APACHE-LOGICAL JV

11,730,866

PAE-SGT PARTNERS LLC

10,982,415

SWORD & SHIELD ENTERPRISE SECURITY INC.

10,969,613

AIR LIQUIDE LARGE INDUSTRIES U.S. LP

9,918,243

NEW DIRECTIONS TECHNOLOGY CORP.

9,651,221

ABACUS TECHNOLOGY CORP.

9,578,880

ODYSSEY INTERNATIONAL INC.

8,723,000

A-P-T RESEARCH INC.

8,679,541

SES CIVIL CONTRACTORS LLC

7,928,034

BREVARD ACHIEVEMENT CENTER INC.

6,986,856

SAUER INC.

6,552,428

TOTAL

2,200,123,719

National Aeronautics and Space Administration John F. Kennedy Space Center Kennedy Space Center, FL 32899 Public Affairs Directorate www.nasa.gov

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