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Artist rendering of the 51³Ô¹ÏPro on the Maunakea site - The TMT design utilizes a calotte-style enclosure, which minimizes the size and footprint of the facility, while allowing full movement of the telescope and optical systems. Image credit: 51³Ô¹ÏPro

TMT Telescope Enclosure Ready for Production

Pasadena, CA – TMT’s Enclosure System has achieved its final design milestone, successfully passing a series of Production Readiness Reviews (PRR) in March 2020.

Over the last several years, the enclosure design has progressed through its final design phase followed by the completion of the models, drawings and specifications required for procurement and fabrication.  Completion of the PRR sets the stage for effectively starting the procurement and fabrication of the enclosure parts, which will be followed by factory assembly, testing, and shipment of the enclosure components to the TMT construction site.

The TMT Enclosure calotte design, selected after extensive trade studies, is a spherically shaped building that surrounds and protects the telescope and instrumentation during non-observing time and in severe weather conditions.  During science operations, the enclosure aperture opens to allow the telescope a clear and unobstructed view of the sky.

Fundamental features of this calotte design include:

  • A minimum size due to its spherical form.  The clearance between the inside of the enclosure and some telescope parts is as small as 0.5 meters in some places.
  • A minimum aperture opening that provides maximum protection to the telescope from windshake, critical for maximizing telescope image quality performance.
  • A very low mass for a structure of its size due to the structurally-efficient calotte shape.  The enclosure can be repositioned to any point in the sky very quickly with reasonable drive power demands.

The TMT enclosure has been designed to minimize its mass and size, with enhanced control and performances during scientific observations. This unique design will enable rapid changes of pointing direction, while providing a maximum protection from wind-induced vibrations and dome-seeing degradation, which could otherwise impact the performances and image quality of the telescope.

“TMT’s enclosure is unique among the Extremely Large Telescopes being built today,” says Luc Simard, Director General of the Herzberg Astronomy and Astrophysics Research Centre. “It will facilitate the observations of astronomical phenomena requiring a rapid response and will deliver optimal conditions for Adaptive Optics observations at an unprecedented spatial resolution. TMT's enclosure design will be key to the scientific success of TMT.”

The PRR focused primarily on the structural and mechanical fabrication drawings, electrical schematics, specifications, and special processes for fabrication of TMT enclosure components and assemblies.  However, additional independent assessments of compliance to the enclosure design requirements, management, safety and risk were also completed as a part of the review.  The review board unanimously agreed that the fabrication data package for the enclosure structural, mechanical, electrical and control systems is now complete and ready for the enclosure fabrication phase.

TMT’s enclosure design was completed by Empire Dynamic Structures of Port Coquitlam, BC, Canada as a Canadian in-kind contribution to the TMT Project, managed by the Canadian National Research Council (NRC).  The work was conducted through a contract between Dynamic Structures and the Canadian Commercial Corporation (CCC) on behalf of the NRC.  Dynamic Structures assembled an excellent and dedicated team of structural, mechanical, electrical, systems, controls and CAD engineers to complete the work.

Cross-section view of TMT Enclosure

The TMT Enclosure System is a dome structure housing the telescope. The three principal enclosure moving components are the rotating base, cap and shutter structures. Combined rotation of the rotating base and cap provides a range of required azimuth and zenith angles. The shutter is a rotating structure enabling opening and closing of the telescope aperture  -  Image credit: 51³Ô¹ÏPro

TMT Enclosure Design Overview

The TMT calotte style enclosure consists of 3 major structural components; the base, cap and shutter.  The base is the lower portion of the enclosure and it rotates about the azimuth axis.  The cap and shutter upper sections rotate in a plane tilted 32.5 degrees from horizon.  Through combined motion of the base, cap and shutter, the shutter aperture can be positioned anywhere within the viewing range of the telescope.

Relative motion of the cap and shutter is used to either close and seal the enclosure or open the shutter aperture during science observations.  The shutter structure is located directly inside the cap structure.  It consists of an open steel framework supporting a steel plug structure. The shutter rotates about 180° around the same axis as the cap, enabling opening and closing of the telescope aperture. The cap also includes a set of deployable external flaps designed to divert incoming air flow and provide wind protection for TMT secondary mirror.

Major components of TMT Enclosure

Major components of TMT Enclosure - Image credit: Empire Dynamic Structures

 

There are a total of 88 inner and outer ventilation doors which are used to provide controlled ventilation of the enclosure during astronomical observations. These vents can be opened or closed to modulate the amount of outside ambient air flowing through the enclosure and maintain a steady flow and air temperature within the optical path. Calculations using Computational Fluid Dynamics modeling have shown good wind flushing properties inside the TMT dome and around the telescope to eliminate thermal effects on the seeing.

The telescope enclosure, which is 66 meters in diameter (about the width of a soccer field), has a height of approximately 56 meters above the surrounding ground and a total mass of 2900 metric tons.  It is able to open its 31.25 meter diameter aperture in less than 2 minutes and will allow the telescope to point an astronomical object in under 3 minutes. 

The enclosure is equipped with 3 crane systems to facilitate the maintenance and technical operations of the telescope and instrumentation systems.  The enclosure safety requirements are fully defined and provide adequate safety for the observatory personnel and visitors, including local emergency stop buttons, sensors and wiring that interface with the observatory safety system.


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