Science & Technology Brochure

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Science & Technology ADAPTABLE INNOVATION



Insert TOC Here Contents Introducing Integral Group

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Expert Advice and Insight

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Experience 5

Left: An Left: image of something that we think is relevant RCMP E to DIvision the information Forensic Laboratory on this page. © ©Name ShaneofO’Connor Photographer

Sector Leadership

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The Integral Way

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Introducing Integral Group

The world’s leading deep green engineering and consulting firm

An international network of engineers + consultants collaborating under a single “deep green” umbrella. We enable every client to protect the health of our planet, by taking a regenerative approach to the design, performance and function of buildings, communities, districts and cities. We provide a full range of building and district systems engineering, analysis and sustainability consulting services, delivered by staff widely regarded as innovative leaders in their fields. Our work spans the globe, delivered from offices in Australia, Canada, Europe and the United States.

Kevin Hydes

Our projects are located in over 30 countries - more than 100 are net zero energy buildings.

Integral Group was launched in 2008 by Kevin Hydes, founder and director of Canada Green Building Council, and former Chair of the USGBC and World GBC. Kevin served as Chief Executive Officer for the first 12 years of Integral Group and in 2020 he became the firm’s first Chairman.

Integral Group are proud to be founding signatories of the World Green Building Council’s Net Zero Carbon Buildings Commitment.

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Expert Advice and Insight At Integral Group, we have a dedicated approach to design, which is centered on collaboration. Successful designs require an understanding of the client’s needs at the time of project inception and in the future. We have designed facilities for up-and-coming science-based research firms as well as the world’s leading Life Science companies, collaborating with stakeholders including the client, design team, and municipal governments where facilities are located. We understand how the needs of science and technology facilities evolve rapidly, and we have the experience to adapt and meet these changing needs.

World’s Lowest Energy Labs

Life Science

We have designed many

We design laboratories for

ground-breaking high-efficiency

numerous life science clients

laboratories, demonstrating

as well as incubation hubs for

that even critical facilities can

the life science industry. This

significantly increase their energy

experience helps us to understand

efficiency (50-70% or more than

both the needs of the industry

standard designs) cost effectively

as a whole, but also allows us to

with minimal payback periods.

develop flexible spaces that are

First laboratory with chilled

ready to expand, to add new and

beams

experimental equipment and that

First laboratory to use radiant

operate efficiently and simply.

ceiling panel cooling

Working with our clients, each

First Zero Net Energy-designed,

design is done to suit the needs of

zero-carbon designed and

each project.

• •

LEED Platinum Certified laboratories •

Authored Labs21 Best Practice Guides for energy Efficiency

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Pharmaceutical Flexibility & Expertise Resilience

Innovation

Our global team has extensive

Flexibiility and resilient design

The importance of data analysis

experience working with

is a prerequisite in Life Sciences

is key in reducing research and

pharmaceutical companies,

facilities. The building needs

manufacturing costs. With the

for both small renovations and

to respond to the increasing

rising energy costs, the focus

larger scale pharmaceutical

unpredictability of science

on developing analytical tools

manufacturing. We lean on the

development and business growth.

and processes has taken priority

expertise we have in each global

This challenge of designing for

in recent years. PAT (Process

region to develop designs that

the unknown suits our skills and

Analytical Technology) and AI

adhere to the requirements

expertise in developing processes

(Artificial Intelligence) are two

of regulatory bodies for each

and solutions which provides our

examples which play an important

project, and meet the energy

clients with the ability to adjust

role in the design of new facilities

and carbon targets imposed by

their process as the scientific or

in such a way that it helps reduce

each municipality. Our teams

business demands evolve.

facility footprint and speed up the

partner with knowledgeable

route to market whilst making

architectural teams and process

the manufacturing process

engineering firms to ensure a

more robust, better control of

cohesive and complete team for

intermediate process stages.

any project. The needs for the pharmaceutical industry and specifically manufacturing require the expertise that our team offers.

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Experience

Project BRIGHT | Australian Synchrotron

Univer

University of Sydney | Engineering and Technology Precint

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Rutherford Regional Science & Innovation Centre


rsity of Sussex Life Sciences

Horton Plaza Life Science Tower

University of South Australia M2 Building

J. Craig Venter Institute

University College London | East Marshgate

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Confidential Biotechnology Facility

This state-of-the-art pharmaceutical manufacturing cleanroom facility incorporates significant energy savings strategies to reduce its carbon footprint.

This confidential biotechnology client is developing a new, state-of-the-art GMP facility for the production of therapeutic antibodies and other protein biologics. This two-story building will be a 12,300 m2 facility housing laboratory and office space, common areas such as a lunchroom, gym and collaboration space, as well as a GMP compliant pharmaceutical manufacturing cleanroom facility. The building will also provide 6,000 m2 of car parking space. This facility’s cleanroom design allows for approximately 1,500 m2 of various cleanroom suites designed to ISO7 and 8. Integral Group, working with a process engineering partner, is designing the air systems for pressurization and cleanroom control, process/ laboratory gases, process sanitary, electrical distribution and lighting design. The detailed design is allowing

for future build-out of another 1,800 ft2 of manufacturing cleanroom space. Built into this facility are significant energy saving strategies, including LED lighting throughout, heat recovery air source heat pumps to significantly reduce the building’s carbon footprint, exhaust air heat recovery on chemical exhaust, along with high efficiency heat recovery ventilators to feed the clean laboratory spaces on level 2. This facility will be one of only a handful of similar pharmaceutical manufacturing facilities in Western Canada. Integral Group will provide mechanical, electrical and fire protection consulting services as well as optional energy modeling and lighting design consulting services for the base building, lab and offices.

Client: Confidential Completion: In design Area: 12,300 m2 Key Features: GMP Manufacturing Cleanrooms Process Sanitary Waste Neutralization Heat Recovery Heat Pump Design High Efficiency HRVs 1.5 MW Back-up Generator

Right: © Chobsak Dararuang

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Services Provided: Mechanical Electrical Fire Protection


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Confidential Biotechnology Facility

This state-of-the-art building for a confidential biotechnology client is part of its expansion plans for a purpose-built office and medical laboratory campus.

This project involves the tenant fit out of a seven-story, 167,000 ft2 building for a confidential biotechnology client. Laboratory spaces will be used for research and development, engineering and automation, and antibody engineering and production. The project is slated for completion in fall of 2023. Integral Group is providing electrical, lighting design, technology, and AV and smart building design services for this project. Integral Group began the design of this project during the base build construction phase, quickly gaining understanding on the design of the building and working closely with the client to estimate equipment loads throughout the building with no equipment list or information. This enabled the base building construction team to then integrate the electrical infrastructure into the build for the

tenant. Integral Group’s strategic foresight, clear communication, stakeholder engagement and decisive decision-making ensures the tenant obtains their goal, and the base building construction is kept on schedule. The electrical design allowed for a resilient power system throughout the building. Vertical bus duct was installed to provide flexibility for future lab expansions, along with generator power and UPS backup in the event of power outage. A digital addressable lighting control system was designed which allowed for both ASHRAE 90.1 compliance, and changes to made to the lighting system based on lab user requests as the project moves closer towards completion.

Client: Confidential Completion: In design Area: 167,000 ft 2 Key Features: High efficiency heat pumps Active heat recovery of lab exhaust

Right: © Gorodenkoff

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Services Provided: Mechanical Electrical Lighting Design Technology AV Smart Building Design


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Confidential Biomanufacturing Facility This biomanufacturing facility demonstrates leading-edge design for vaccine manufacturing, which will achieve carbon reduction by over 70%

This project involves a major renovation in a new build industrial facility, encompassing 3 of 4 floors, for a new biomanufacturing facility. This facility will house half a floor of general office and meeting space, a floor supporting wet laboratories and offices, and a floor consisting of GMP certified biomanufacturing, warehousing and supporting wet laboratories. This project requires a completely independent HVAC central plant to be built and installed within a facility that was designed to house a light industrial tenant. We are supporting approximately 10 new air handling units (AHUs) to supply only the 2nd floor, a separate system for all of the 3rd, and a manifolded exhaust system for all major exhaust.

This project includes the following major engineering initiatives: • High Plume Exhaust turn-down based on wind tunnel modelling and sensing at the roof • Lab exhaust active heat recovery • High efficiency, air cooled heat recovery heat pumps with N+1 redundancy • 100% redundancy for all GMP systems, including standby power coordination to limit any possible shutdowns or failures • Detailed 3D modeling of all systems and coordination between GMP/Base Building systems, to limit construction challenges

Client: Confidential Completion: 2023 Area: 80,000 ft 2 Key Features: Heat recovery heat pumps Active heat recovery of lab exhaust 100% Redundancy for GMP systems

Right: © Louis Reed

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Services Provided: Mechanical GMP Process HVAC/Plumbing Energy Modeling


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Charles River Laboratory

The exhaust ducts from the lab spaces were routed through energy recovery run-around coils to reclaim waste energy from the exhaust air stream.

Charles River Laboratories provides research models and laboratory animal support services, preclinical services, and clinical services to the biomedical market, and are focused on improving human and animal health by becoming the premier global company advancing the search for drugs from discovery through market approval. This 350,000 ft² Preclinical Research Services facility contains 230,000 ft² of mixed species vivarium space and combined with 120,000 ft² of research laboratory, office and support space. Renovation of an existing printing/ warehouse building included inserting a new second level of vivarium and research lab space inside the existing high bay warehouse area.

To maximize program useable area and to minimize loads on the existing roof structure, custom 100% outside air handling units were placed on grade adject to the building with large double wall supply air ducts routed up to and along the roof. These air handling units were equipped with evaporative cooling/ humidification systems to dramatically reduce chilled water-cooling energy as well as add humidity to the supply air. The roof manifold exhaust ducts from the vivarium and lab spaces were routed through energy recovery run-around coils to high-plume exhaust fans to reclaim waste energy from the exhaust air stream. The central plant included a 2,200-ton central cooling plant and 2,400 BHP high pressure steam plant, as well backup generator capacity for full facility operation on loss of utility power.

Location: Reno, USA Client: Charles River Laboratories Architect: Perkins & Will Construction Value: $115 Million Completion: 2008 Area: 350,000 ft² Right: Charles River Laboratory © Perkins & Will

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Services Provided: Mechanical Electrical Plumbing


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Horton Plaza Life Science Tower

Using parametric modeling of over 80,000 simulations, we developed performance and financial forecasts for varying weather, tenant conditions, and utility rate tariffs.

The life science tower of the Horton Plaza Campus redevelopment project is a 300,000 ft², 10-storey, high rise within the downtown campus. Designed as warm-shell, speculative laboratory space, the MEP systems are convertible to accommodate either life science or office tenants to meet market demands. The mechanical systems are all-electric to meet the zero-carbon goals of the campus development. Heat recovery coils in the lab exhaust reduce the energy needed to heat the 100% outdoor air lab systems and save on heating equipment installation costs. As part of the campus development, the life science tower is served by San Diego’s first onsite commercial blackwater treatment system, harvesting wastewater from the core restrooms

and treating it for re-use in the cooling towers and flushing. This system saves 55% of the campus potable water use. In addition to MEP engineering, Integral provided energy advisory services for the optimization and procurement of the campus’s 5 MW photovoltaic and battery storage systems. Using parametric modeling of over 80,000 simulations, we developed performance and financial forecasts for varying weather, tenant conditions, and utility rate tariffs, and structured an innovative off-balancesheet Power Purchase Agreement (PPA) for the project procurement. All told, our services eliminated $6M in upfront capital costs and cut operating electric utility costs by over 60%.

Location: San Diego, USA Client: Stockdale Capital Partners Completion: 2022 Area: 300,000 ft² Sustainability: LEED Platinum Target WELL Platinum Target WiredScore Certification Target Awards: 2020, SCDF Design Awards, Unbuilt Concept or On the Boards or Under Construction

Right: Horton Plaza Life Science Tower © Stockdale Partners

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Services Provided: Mechanical Electrical Plumbing Technology Advanced Energy Advisory Services


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J. Craig Venter Institute

Located on the campus of UC San Diego, this genomics research facility is the first laboratory of its kind to be designed as a Zero Net Energy and Zero Net Carbon building.

The J. Craig Venter Institute (JCVI) is the worlds first zero energy, zero carbon designed laboratory and a leader in all electric building design. It is a purpose built facility for research dedicated to genomic research, including flexible wet laboratories for molecular biology, dry labs for cutting edge computational biology, and office spaces for the approximately 300 researches and staff. To achieve the high performance energy targets, the mechanical systems incorporate a suite of energy recovery and thermal storage strategies. During daytime cooling, heat is rejected into underground tanks and then drawn out overnight for night time heating. Highly efficient, all electric heat pumps are used for peak heating and cooling.

Operable windows with coastal views and breezes provide natural ventilation and daylighting to all office spaces. When the windows are closed, chilled beams provide cooling & ventilation to the spaces. The MEP strategies reduced the overall energy consumption by 75% compared to a typical laboratory, allowing the rooftop photovoltaic system to generate enough power to achieve zero net energy operation. Beyond the energy goals, this project also incorporated a 95,000 gallon rainwater storage system that meets all non potable building water demands for most of the year, reducing the potable water consumption by 70% annually. Location: La Jolla, USA Client: J. Craig Venter Institute Architect: Zimmer Gunsul Frasca Construction Value: $35 Million Completion: 2013 Area: 350,000 ft² Sustainability: LEED Platinum Certified Zero Carbon Zero Net Energy Designed Awards: 2019 SDGBC Sustainability Awards, Honor Award LEED BD+C Category 2016 AIA COTE Top Ten Awards 2015 Architizer A+ Awards, Architecture + Sustainability Award

Right: J. Craig Venter Institute © Hedrich Blessing

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Services Provided: Mechanical Electrical Plumbing Commissioning


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University of Sussex Life Sciences Building Integral recommended alternative solar and shading strategy options to reduce heating and cooling. This satisfied both the architect and client, while also improving overall efficiency of the building

The new, state of the art life sciences building will provide a new home for the many, previously disparate scientists from the School of Life Sciences. Their various research and teaching fields, such as the Genome Damage and Stability Centre, Sussex Drug Discovery Centre and various other research fields from neuroscience to evolution will be under a single roof for the first time. The close proximity to each other along with a large ground floor atrium and café will help to facilitate improved interaction and collaboration.

The original design was a highly glazed envelope, meeting the clients desire to have a highly visible and permeable building. Integral recommended alternative solar and shading strategy options to reduce heating and cooling. This satisfied both the architect and client, whilst also improving overall efficiency of the building. External vertical fins in front of the curtain wall glazing help to minimise incoming solar heat gain and reduce solar glare. The fins’ work by reducing the cooling load of the building which not only saves air conditioning operating cost and carbon emissions but also initial capital cost of the mechanical systems.

Location: Brighton, UK Client: University of Sussex Architect: Hawkins Brown Area: 17,800 ft² Construction Value: £80,000,000 Completion:2020

Right: University of Sussex Life Sciences Building © Hedrich Blessing

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Services Provided: Mechanical Engineering Electrical Engineering Plumbing Engibeering Environmental Design Energy Modeling


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University College London | East Marshgate As part of the regeneration of London’s East End, UCL establishes a new campus with new courses and room to expand.

The development is part of the new UCL East masterplan. This eight-storey building will provide a mixture of teaching and research-based laboratory spaces. Key features will include a large central atrium, café, media studio, research and group workspaces, laboratories, library, exhibition areas, studio spaces, classrooms and lecture theatres. We are acting as the technical supervisor and compliance monitoring, reviewing the D&B Contractor design development drawings and technical submittals, overseeing services installation quality and handover. Fixed equipment locations relied heavily on early detailed modelling to incorporate into early

concrete casting, so getting this right early on is essential to installation of service routes and outlets in the concrete structure. The laboratories will be carrying out research in a range of fields including advancement in battery technology and chemical engineering. Our team have been reviewing the design to ensure that compliance with DSEAR (Dangerous Substances and Explosive Atmospheres Regulation) is being met in the most efficient way. This review process aims to guarantee the safety of occupants without overdesigning in a way that leads to inefficient use of energy and to reduce costs.

Location: London, UK Client: UCL Architect: Stanton Williams + Sheppard Robson Area: 366,000 ft² Construction Value: £230,000,000 Completion: 2023 Sustainability: BREEAM Excellent

Right: University College London | East Marshgate © Stanton Williams

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Services Provided: Technical Compliance Monitoring Mechanical Engineering Electrical Engineering Plumbing Engineering Vertical Transportation Environmental Design Energy Modeling


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University of Exeter |Biosciences Department Key challenges included the delivery of adjacent laboratories with a high temperature differential, placement of new plant within a new underground bunker extension adjacent to the building, and the Aquatics Laboratories.

This project objective was the creation of a world class bioscience/aquatics laboratory and research facility for the University of Exeter. The project comprises of 14 world class aquatics labs at ground floor level with new laboratory teaching spaces on the upper floors. The historic Physics building was adapted to include a fully operational BSL3 research suite and other BSL 2 high quality research suites. The team designed and managed the delivery of 4 specialist laboratories to cater for all chemical, biochemical and analytical needs, state-of-the-art aquariums, an extended teaching lab, support facilities

to the teaching lab, flexible school seminar space, an integrated student support office,130 new desk spaces for postgraduates, 25 new staff offices and a fully refurbished foyer. Key challenges included: Compliance with The Home Office CoP for the care of animal life in research; Design of spaceconstrained and adjacent laboratories operating at very high differences of temperature and humidity, leading to interstitial and surface condensation risks; Air permeability issues with the existing construction in order to achieve a reliable pressure cascade.

Location: Exeter, UK Client: University of Exeter Architect: Atkins Construction Value: £18,000,000 Completion: 2011

Right: University of Exeter |Biosciences Department © The University of Exeter

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Services Provided: Mechanical Engineering Electrical Engineering Plumbing Engineering Energy Modeling


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University of South Australia M2 Building M2 provides dedicated high-level research spaces for the sharing of knowledge between diverse groups of industry and researchers who can come together in small and large collaborative settings.

The award winning M2 Building at the University of South Australia Mawson Lakes Campus includes a cell therapy research facility. The cell therapy facility incorporates an ISO 7 (Class 10,000) clean room within a PC3 (BSL3) suite that includes the cell therapy suite and an adjoining PC3 biocontainment support laboratory. The clean room and the cell therapy suite were designed in accordance with

the Good Manufacturing Practice (GMP) requirements of the Therapeutic Goods Administration (TGA), and is licensed by the TGA for the manufacture of human blood and tissue products for cell therapy research. Integral Group (formally Umow Lai) were the mechanical, electrical, hydraulic, fire protection and ESD consultants for the project, which was designed by John Wardle Architects

Location: Mawson Lakes, SA, AUS Client: University of South Australia Architect: JWA in association with Swanbury Penglase Architects Construction Value: $50,000,000 Completion: 2011 Area: 78,575 ft 2 Sustainability 5 Star Green Star as Built & Design Rating

Right: University of South Australia M2 Building © Sam Noonan

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Services Provided: Mechanical Engineering Electrical Engineering Plumbing Engineering Fire Protection Engineering


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Monash University|New Horizons Centre The Monash University New Horizons Centre is an iconic, world-class research facility. Leading edge technologies were employed to ensure that energy efficiency is maximized and meets the University’s specific needs.

Monash University stepped up to new heights with the addition of The New Horizons Centre, becoming a significant technological innovation hub in the Southern Hemisphere. The most important feature of the New Horizons building is its integrated and multi-use design that allows co-located academics and neighbouring partners, the CSIRO, to work together in a true collaborative partnership. Leading edge technologies were employed to ensure that energy efficiency is maximized and that the

University’s specific needs were met. Efficiently planned spaces separate laboratory facilities from offices by voids while on the fourth and top level of the building, is a large lounge for staff. In designing the services for the building, our team had to balance the very specific needs of a first-class research facility, that by nature are high energy users, with the low energy requirements for a building that achieved a 6 Star Green Star Education Design v1 rating.

Location: Clayton, VIC, AUS Client: Monash University Architect: Lyons Architecture Area: 188,400 ft² Construction Value: $140,000,000 Completion: 2013

Right: Monash University|New Horizons Centre © Lyons Architecture

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Services Provided: Mechanical Engineering Electrical Engineering Plumbing Engineering Fire Protection Engineering Communications


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Rutherford Regional Science + Innovation Centre “Our first job in New Zealand, the NZ$200+ million University of Canterbury Rutherford Regional Science & Innovation Centre (RRSIC) in Christchurch, represents an important milestone for us.” David Uhlhorn, Principal, Integral Group

Integral Group, formerly Umow Lai, entered into a joint venture arrangement with Cosgroves, a Christchurchbased building services engineering consultancy, to deliver the RR SIC project. The development comprised of two stages, the first being the Rutherford Regional Science and Innovation Centre, the Undergraduate Teaching Hub, completed in April 2017. Phase 2 of the project, the Beatrice Tinsley Building, housing the Postgraduate and Staff Research Hub, was completed in 2019. The project needed to deliver high quality science in a building that had to withstand a 1 in 1000 year earthquake. This led to an innovative steel framed building sitting on a thick concrete slab incorporating distinctive red buckling restrained braces. There are 124 fume cupboards in the building, of which 118 of are manifolded, allowing flexibility and fan power energy savings as well as he ability to reclaim heat from the exhaust stream to preheat incoming make-up air. An existing underground aquifer was

used to provide cooling to classrooms and scientific equipment, and for heating using a water cooled reverse cycle heat pump chiller. The aquifer was also used for heat rejection for the chiller when in cooling mode. The RR SIC comprises of: •

An undergraduate teaching hub with a range of physics, astronomy, chemistry, geology and other science laboratories

A postgraduate and departmental hub designed to co-locate academic staff and their postgraduate students with their research laboratories.

Specialist research facilities including nuclear magnetic resonance (NMR’s), X-ray crystallography and electron microscopy. The project was benchmarked against the NZGBC Green Star Education Tool, targeting 5 stars, although it will not be formally certified.

Location: Christchurch, NZ Client: University of Canterbury Architect: JASMAX Area: 506,000 ft² Construction Value: $200,000,000 Completion:2019

Right: Rutherford Regional Science + Innovation Centre © Lightforge

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Services Provided: Mechanical Engineering Electrical Engineering Vertical Transportation Sustainability Acoustics Security Dangerous Goods


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Project BRIGHT | Australian Synchrotron The Synchrotron accelerates electrons close to the speed of light, producing synchrotron light at high intensity and in a broad range of electromagnetic spectrum ranging from infrared to x-rays.

As a landmark scientific facility the Australian Synchrotron in Clayton, offers researchers and the industry with unique equipment that provides exceptional results not achieved in conventional laboratories. The Synchrotron accelerates electrons close to the speed of light, producing synchrotron light at high intensity and in a broad range of electromagnetic spectrum ranging from infrared to x-rays. The Australian Synchrotron features ten world-class beamlines, covering a broad range of applications including health and biological sciences, earth and environmental sciences, advanced materials, engineering and manufacturing, energy and sustainability science, cultural heritage and archaeology as well as fundamental physics, chemistry and accelerator science.

Project BRIGHT will significantly expand the Synchrotrons capability with the addition of seven new research beamlines, for which Integral Group have been engaged as the Engineering Services designers. The new beamlines in some cases need to focus x-rays to a spot less than 100 nanometers in diameter. This level of precision can only be achieved when the enclosures are maintained with an extremely stringent temperature stability. Integral Group have been engaged for the design of the HVAC systems for the new beamlines to provide the stringent temperature and humidity control within the enclosures. Integral Group has also provided electrical engineering expertise for mitigating static electricity risks associated with the low relative humidity environments required in several of the enclosures.

Location: Clayton, VIC, AUS Client: ANSTO Architect: Architectus Construction Value: $110,000,000 Completion: 2022 Area: 13,000 m² Right: Project BRIGHT | Australian Synchrotron © cafuego

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Services Provided: Mechanical Engineeringl Electrical Engineering


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Sector Leadership We pride ourselves on personality and commitment in driving performance engineered tailored solutions. Our team of specialists have decades of experience in the evolving landscape of science, tech and Data Centre facilities that support innovation, technological resilience and data driven performance.

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Calina Ferraro

Principal, United States Calina brings over a decade of sustainable engineering experience to the Integral Group team. Working in collaboration with the design team, Calina takes a holistic approach to design, striving to create healthy, enjoyable, and environmentally responsible spaces while minimizing the size & complexity of the mechanical systems. Calina’s design experience covers a range of building sectors, including commercial, higher education, hospitality, laboratories, and healthcare.


Kevin Shea

Rui Dinis

David Ulhorn

Kevin brings over thirteen years of industry experience to his role as Principal and leads Integral Group’s Science and Technology Sector. With experience and emphasis in delivering high-performance, sustainable solutions for the science + technology sector that are practical, maintainable, healthy, resilient and resource-responsible, Kevin’s personal dedication to his projects reflects Integral Group’s core pillars: imagine, perform, accelerate and sustain.

Rui has worked with some of the biggest and leading names in Life Sciences, R&D facilities, Pilot and scale-up plants, Clinical trial and QC labs, GMO and Non-GMO, Bulk and intermediate manufacturing plants covering Sterile/Aseptic/ OSD/Semisolids manufacturing and secondary production facilities. Rui has a strong background in Mechanical and Pharmaceutical Engineering and ensures compliance with all the relevant GMP regulations and standards for different markets and fields of application.

With over 40 years experience, David has been involved in significant projects across Australia and New Zealand, which include the Bio21 Institute at The University of Melbourne, Colleges of Science and The John Curtin School of Medical Research at the Australian National University. David has presented at ABSANZ, CIBSE, TEMC and SIA conferences where he has shared his knowledge and expertise, primarily on sustainable laboratory design.

Principal, Canada

Associate Principal, UK

Principal, Australia

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The Integral Way Mission: To be the top quality Deep Green engineering and consulting firm with global reach. Trust The basis of every successful relationship, team and collaboration

Nurture We never stop learning or growing

Inspire We share our passion and expertise widely

Imagine We bring creativity and curiosity to solve complex problems

Perform Our work is target-driven, outcomeled, and evidence based

Accelerate Time is short - we need to urgently scale up

Sustain We grow and thrive so that we can have more impact

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