High Performance Automation Computer

Overview

The first generation of software and hardware is used in modern
wind tunnels. It allowed Tunnel Technologies to become the market leader
with projects all over the world: Russia, France, Japan, Belgium, Spain, South Korea, Indonesia.

“Modern” automation systems today have complicated multi-level hierarchies and are usually based on highly centralized SCADA architecture. We propose a new paradigm that provides a number of benefits. The transition from centralized to decentralized process management and replacing PLC’s and RTU’s with universal high-performance computers make the whole system more flat and therefore much more reliable, cost efficient and scalable

Decentralized control system
Decentralized control system will increase failure tolerance.
We use cloud servers as top level of our system and broadly use wireless
connectivity — such as WiFi, 4G/5G, LORA, etc.
Since now loss of connection won’t stop important processes.

Scalability and flexibility
Our system can be upgraded in place to match higher computational
needs or to support additional interfaces by equipping
with expansion boards without a need of changing the software.
A new industry standard is released —
we provide a new expansion board within months.

We speak your language
Our approach makes automation available to the majority
of modern developers. We provide library packs for all modern
languages, frameworks and operating systems that support every
interface of our system and basic automation abstractions.
Use our lib packs and video lessons instead of hunting high-skilled
electrical engineers.

Go wireless
Wireless connectivity and machine vision
significantly reduce cabling infrastructure and minimize
capital expenditures.

Easy connectivity
We completely abandoned the use of terminal blocks
in our devices — just industrial plugs and sockets.
It allows to meet IP67 requirements and more importantly —
it frees our customers from manually connecting
countless wires.

Process as a service

Uncontrolled working conditions (such as higher
temperatures, pressures, humidity, etc) can shorten
the component’s (such as engines, machines etc.) lifespan.
Until now the manufacturers sold their components
with limited amount of measurement data to be collected
by integrator’s SCADA systems. In most cases it led
to the situation when SCADA can only inform when it’s
time to replace particular component.

Using our low-cost sensors and cloud monitoring system
component manufacturers can now monitor
the working conditions (as well as storage and transportation
conditions), predict possible failures and perform
the maintenance when it is really necessary to avoid failures.
Moreover, manufacturers get the opportunity to sell not only
components but also the operating time of the equipment,
thus implementing ’’Process as a service’’ approach.

Protect your data
We provide an opportunity to develop automation systems
using modern programming languages instead of IEC languages.
In addition to convenience, this allows to use all up-to-date
encryption algorithms to protect your data.

High Performance Automation Computer
2 in 1: logic controller + high performance industrial computer
The key element of our automation system —
high performance automation computer (HPAC).
Equipped with high performance CPU HPAC allows
the development and execution of a wide range
of powerful applications — automation algorithms,
AI applications, SCADA systems, and more.

Design features allow HPAC to be used in aggressive
environments, ATEX implementations are also available.
Modular approach allows using wide range
of powerful coprocessors (ARM and FPGA-based)
and thus implementing variety of real-time control systems
with sub-microsecond response time.

Proven technologies
The first generation of software and hardware is used in modern
wind tunnels. It allowed Tunnel Technologies to become the market leader
with projects all over the world:
Russia, France, Japan, Belgium, Spain, South Korea, Indonesia.

Specification

General parameters

Height 275 mm
Length 214 mm
Width 82 mm
Weight 2500 g

Processor Intel® Atom™ E39xx, Dual/Quad Core @1.8-2 GHz
Memory up to 64 GB DDR3
Mass storage 500 GB SSD, SATA III
Display (optional) LCD 10.1”, 1024×600 pixels, 250 nit  or LCD 10.1”, 1920×1080 pixels, 1000 nit 
Touch panel (optional) RTP Single-touch  or СTP Multi-touch 
Ingress Protection IP67 
Power supply 90-264V AC, 47-440 Hz up to 120W  or PoE up to 30W 
Mount options Wall mount or DIN rail

Interfaces

Wireless interfaces Wi-Fi 2.4 GHz, 802.11 b/g/n, LTE Cat 4 , Satellite navigation systems GPS/GLONASS/BeiDou/Galileo/QZSS 
Wired interfaces 1xEthernet 1Gb,  1xUSB v2.0,  1xUSB v3.0, Headphones out,  RS-232, CAN,  4 discrete inputs, 4 discrete outputs. 2x or 4xRS-485    
Operating System Linux, Microsoft® WIndows 

Temperature parameters

Standard Temperature, operating ℃  0 ~ +70
Wide Temperature, operating ℃  -40 ~ +70
Temperature, nonoperating ℃  -40 – 85 
Relative humidity, %  10 – 90 

Photo & Video System

Media

The smallest wind tunnel model in Tunnel Tech lineup, TT25 μFLY is an entry-level machine, tailor-made to meet the needs of entertainment-oriented projects. Overseeing the financial side was one of the priorities, while creating TT25 μFLY. The result is a remarkably affordable yet outstanding indoor skydiving solution that doesn’t compromise on quality. A perfect combination of high performance, compact footprint and low energy consumption.

The thrills of a flight can be saved forever with a selection of the best photos and videos. Memories are priceless, whatever the cost. Clients will value quality production and convenient service, and this will provide another source of income for your company.

Automation

Photo & Video Systems can be integrated with your Booking System, allowing your clients to order their favorite photos post-flight via their personal profile on the website. These systems can also be integrated with other booking systems via the API.

User-friendly interfaces

Simple and easy to understand, even for novices.

Unlimited number of stations

You can connect any number of terminals, kiosks, and other stations, placing some in the lobby to reduce traffic in your reception area. Clients can use the kiosks to purchase photos themselves, downloading them onto flash drives, emailing them, or printing them out.

Content selection

Use monitors to display your choice of content, including advertising, online broadcasts, the latest flight, or a gallery allowing clients to navigate through flights. Convenient for placement in lobbies and cafés.

Expandable system

Additional equipment can be added at any point, including cameras, media players, tablets, and other devices.

Judging system

Quality equipment installed where needed can be integrated into a judging system for use during contests, for example.

 
 

Order Photo & Video System

Booking system

Management

Receiving and Recording Payments

The system can easily accommodate any number of online and offline payment aggregators, and tracks various payment methods:

  • Receiving and recording payments
  • Cash, including via ATMs, kiosks, and shops
  • Bank transfers
  • Combined payments

Information from the payment aggregator is processed instantaneously, after which the client receives a confirmation email. Depending on their order type, clients can also be sent a letter confirming their flight time, an automatically produced PDF certificate, a link to photo and video materials, and other communications.

Payments are displayed in various financial reports in real time.The system also supports:

  • Several cash drawers for each sales point
  • Records for duty-free goods (equipment and branded goods, for example)
  • Tracking of the locations of money and responsible individuals

Configuring Access

Allows you to show employees or groups only the information and functions they need. This makes the interface simpler, by removing superfluous information, and more secure.

All Activity Is Logged

The system stores all client and employee activity together with the status of the indoor skydiving facility. In the event of any errors or malfunctions, this makes it possible to study the circumstances in detail, identify the cause, and avoid future problems.

Adaptive Design

This gives you control from any device, and reduces time required from an internal IT specialist.

Statistics

The system stores data on all flights and allows you to group them together according to different indicators and examine them by different segments using a simple interface.

Ready-to-Use Booking System Interface and Integration with Your Website

The ready-to-use interface saves you time on development. The system includes several formats. If your website is already complete, these formats allow booking to be seamlessly integrated into your site, in a way that matches your site’s style. If your website is not yet complete, the Booking System allows you to launch a simplified working version in just one day.

Localization

You can translate the interface into an unlimited number of languages that can be used simultaneously; clients and employees can choose between them as required. This is convenient for skydiving facilities in a multilingual environment, or in the case of experienced flyers visiting from abroad.

Marketing

Reports on All Flights

These help you to make strategic decisions. For example, you may notice that demand dips at around five in the evening, and so you can find a way to address this issue.

Flexible Pricing

Allows you to apply any pricing structure, varying prices according to the day, time, number of people in the group, number of minutes ordered together, and other factors.

Flexible Discounts and Special Offers

You can apply discounts by any criteria and for a limited time period, for example on the basis of age, physical traits, or promotional codes. You can also use these capabilities to create discounts for one-off events—birthdays or weddings, for example.

Email

The System Supports:

  • Plain and rich text
  • Individual templates
  • Automatic order, payment, reservation, and booking confirmations, promotional messages, and reminders for upcoming flights
  • Messages with flight photos and videos

Advertising in Kiosks and on Tablets

Clients choosing photos and videos at special kiosks in relaxation zones can be offered gift certificates, discounts on future flights, and other promotions. The system lets you manage banner content.

Flight Certificates

Gift certificates allow your clients to purchase flights with an open date for their friends and relatives. The system is compatible with certificates of all kinds, whether professionally printed or sold via your website in PDF format and printed by your clients themselves. It allows you to apply booking priorities or restrictions, as well as time limits on validity.

Photos and Videos

The system links photographs and videos to individual clients. Clients can access them all on your website via a personal profile, allowing them to view and download them at home or in your relaxation zone using kiosks or tablets.
Integrates with Photo & Video system

Bulk Flight Time Packages

Selling flying minutes in bulk increases revenue and helps you to predict use. Access to bulk packages can be provided to all clients who have flown for more than 30 minutes and achieved “experienced flyer” status.

After purchasing a package, experienced flyers can book any number of sessions using their personal profile. This will save time for both the client and your employees.

Automatic accrual of flight time for your employees every month will improve staff loyalty.

Promo Flights

The system records free flights, providing you with more accurate financial information.

Client Reviews

An integrated tool collects client reviews, linking them with other client data.

Personal Data Сollection

The system collects and stores client data in a structured way, allowing marketing experts to analyze your client base effectively.

UTM tracking

For every order, the system records data about how the client found your website, helping you to track the performance of promotional channels and advertising campaigns.

Client сare

Flight Schedule

Compiled automatically from booking data. Shows employees current facility usage. Helps to adjust work schedules for instructors and operators.

Telephony

Integrated into the Booking System, this allows you to record your interaction history with clients and display data about them during calls. It helps you to quickly find bookings mentioned by the client, or notice if they have called five times with the same query, and see what arrangements they have made with an employee on another shift.

Personal Account

Stores flight and payment history. Allows the client to change bookings for future flights independently. Allows clients to receive information in writing rather than orally, as in a telephone call. This also saves staff time.

Flight Lists

Helps the operator to keep track of elapsed and remaining flight time for each client.

Self Check-in

Reduces registration queues and saves staff time. Complete and correct data immediately entered into database.

Gear Issue and Collection

The system records sizes and other information, speeding up the equipment issue process for regular clients. Helps to plan purchasing by collecting data on equipment wear and tear and monitors instructor performance.

Briefing

Helps instructors to remember new regulations or promotions, letting them check for themselves that they are up-to-date. Simplifies training for new employees.

Coming Soon

  1. Dynamic pricing, adapting prices to current facility usage and demand.
  2. Integration with detectors in the Flight Chamber and pre-flight zone to automatically track client movements and establish time spent in the Flight Chamber.
  1. Reports on time worked by employees.
  2. Advanced tools for analyzing client base.
  3. Report builder.
  4. Management System for on-site cafés.
  1. Ordering of printed certificates by mail.
  2. Support for gift cards to be sold through shops.
  3. Tools for selling branded goods.

InnoWave

Overview

Harness the Power of the Ocean with InnoWave

Welcome to a realm where technology and the raw prowess of nature collide, forming a synergy that defies the traditional boundaries of sport—this is the essence of InnoWave. Crafted meticulously to embody the free spirit and unpredictability of the ocean, InnoWave brings you a surfing experience that transcends the ordinary, blurring the lines between the authentic ocean waves and the controllable indoor surfing environment. We invite you to dive into a world where the ebb and flow of the ocean can be felt underfoot, even within the walls of an indoor facility, offering a sanctuary where professionals and novices alike can dance with the waves in true symbiosis.

Tailoring Waves to Every Surfer’s Dream

We understand that the essence of surfing revolves around the unique and individual connection forged between surfer and wave, which is why InnoWave has been designed with an unwavering commitment to versatility and adaptability. Our technology allows for dynamic changes in wave shapes, emulating the geometry of genuine ocean waves and providing a platform for surfers to practice and master authentic sport maneuvers. With the adjustable wave height of up to 1.8m and wave width between 7-10m, InnoWave is not merely a static wave generator but an indispensable, dynamic training tool that adapts to varied skills and surfing styles, ensuring a boundless and unbridled surfing journey.

A Wave of Innovation in Every Ride

At the heart of InnoWave lies a commitment to providing a surfing platform that is not only realistic but also versatile and suitable for all. With options that cater to both first-timers and seasoned professionals, the InnoWave can be adapted to specific use cases and budgets, whether it be for a fixed installation or a mobile setup. The modular design ensures that you can select your desired number of pumps and wave width, ensuring a custom-tailored wave experience for all. Our innovative technology also prioritizes safety, enabling surfing with standard surfboards and fins, while also minimizing the risk of injuries, thereby ensuring that each ride on the InnoWave is not only exhilarating but also securely within a controlled environment.

A Wave of Innovation in Every Ride

At the heart of InnoWave lies a commitment to providing a surfing platform that is not only realistic but also versatile and suitable for all. With options that cater to both first-timers and seasoned professionals, the InnoWave can be adapted to specific use cases and budgets, whether it be for a fixed installation or a mobile setup. The modular design ensures that you can select your desired number of pumps and wave width, ensuring a custom-tailored wave experience for all. Our innovative technology also prioritizes safety, enabling surfing with standard surfboards and fins, while also minimizing the risk of injuries, thereby ensuring that each ride on the InnoWave is not only exhilarating but also securely within a controlled environment.

Technology Meets Ecology, Powering Your Surfing Experience Sustainably

Navigating through the technical prowess of InnoWave, you’ll find a wave-creating technology that’s as conscious about energy as it is about providing a thrilling ride. Even with a substantial wave width and an adjustable height that can challenge any surfer, our technology maintains an average power consumption of 380/500kW for the 7.5m/10m wave, respectively. Meanwhile, when professional surfers seek to push the limits, InnoWave can unleash a torrent of power, ramping up to a maximum capacity of 750/1000kW, thereby offering an ecological yet powerful surfing experience that satisfies both the thrill-seeker and the environmentally conscious.

InnoWave is not just a wave—it’s an experience, a technology, and a harbinger of unexplored surfing possibilities. Immerse yourself in a world where every wave is yours to command, and every ride is a symphony of technology and nature. Connect with us to discover how InnoWave can redefine your surfing experience and elevate your athletic training to unprecedented heights.

Specification

OPERATING CHARACTERISTICS

Design Individual design for the optimum operating point (first-timer vs. professionals)
Adaptation Adaptation to the required use case and budget (fixed installation vs. mobile setup)
Modular Design Modular design (choose your number of pumps & wave width)
Wave Width 7 – 10m
Wave Height up to 1.8m (adjustable)
Realistic deep-water surfing technology Surfable with standard surfboards and fins
Reduced risk of injury
Wave-shaping options Adjustable spoiler segments
Nozzle flaps
Outlet weir (grid)

TECHNICAL CONDITIONS

Dimension Base area foundation: 27×15m (10m version)
Depth of foundation: 7m (10m version)
Average power consumption 380 /500kW (7.5m / 10m wave)
Maximum power capacity for professional surfers 750 /1000kW (7.5m / 10m wave)

Pressure doors

Overview

Innovation, functionality and safety are keystones of Tunneltech’s pressure doors. Designed to enhance the user experience and ensure controlled passage in professional wind tunnels and clean rooms, pressure doors are revolutionizing the way spaces are accessed and experienced.

At TunnelTech, we specialize in engineering cutting-edge pressure doors that set new standards in the industry. Our doors are meticulously designed with precision and attention to detail, providing exceptional reliability and functionality. Featuring a double-leaf door system with transparent triplex glass, our pressure doors offer a clear view and ample space for easy access. The sashes, made of multiple layers of triplex glass, ensure durability and safety.

Operating our pressure doors is effortless. Athletes have full control, opening and closing the doors with touch control panels conveniently installed on both sides. The responsive electro-mechanical drive system allows for quick and efficient entry, with an opening/closing time of just 3 to 5 seconds.

Safety is our top priority. Optical safety sensors are integrated into our pressure doors to prevent accidental injuries, ensuring a secure passage in any direction. The doors also feature an inflatable pneumatic seal that guarantees a tight seal and can withstand air pressure drops of up to 4.5 kPa.
In addition to wind tunnels, our pressure doors find applications in other industries that require controlled environments. They are ideal for special clean rooms, providing airtight seals and efficient separation of room volumes.

Choosing TunnelTech’s pressure doors means gaining a competitive advantage. Our innovative inflatable seal technology ensures reliable and high-quality separation of room volumes, while the double-leaf design reduces opening/closing time for improved efficiency. With TunnelTech’s pressure doors, you can enhance safety, efficiency, and functionality in your projects.

Features and Design:

Pressure doors are meticulously designed and engineered to meet the demanding requirements of professional wind tunnels and clean rooms. These cutting-edge door systems offer a range of features that enhance functionality, efficiency, and user experience:

Hermetic Seal: Pressure doors incorporate an inflatable pneumatic seal that ensures airtight separation between different areas. This hermetic seal guarantees the invariability of air flow parameters in the flight zone, preventing air exchange and maintaining precise airflow control.

Double-Leaf Design: The pressure doors feature a double-leaf configuration with sliding leaves made of transparent triplex glass. This design allows for a wide entrance, facilitating the smooth and convenient passage of athletes and personnel.

Quick Opening/Closing: With an opening/closing time of 3 to 5 seconds, the pressure doors provide rapid access to the designated areas. This swift operation minimizes disruptions and optimizes the efficiency of workflow within the wind tunnel or clean room environment.

Electro-Mechanical Drive: The sashes of the pressure doors are driven by an electro-mechanical drive system, ensuring smooth and precise movement. This mechanism enables effortless operation and reliable performance, enhancing the overall user experience.

Optimal Safety Features: Safety is a top priority in pressure door design. These doors are equipped with optical elements that provide protection against accidental pinching of limbs during passage. The design takes into account the safety of athletes and personnel, ensuring a secure and worry-free experience.

Touch Control Panels: Each pressure door is equipped with touch control panels installed on both sides, allowing athletes to open and close the doors themselves. The intuitive interface and user-friendly controls enhance convenience and autonomy.

Durable Construction: Pressure doors are built to withstand demanding conditions and provide long-lasting performance. The multiple layers of triplex glass in the sashes ensure robustness and durability, while maintaining transparency for visibility.

User Experience and Convenience:

Self-Operated Control: The pressure doors are designed to be operated by the users themselves. With touch control panels installed on both sides of the doors, athletes have full control over the opening and closing process, allowing for independent and efficient passage.

Intuitive Interface: The touch control panels feature an intuitive interface that is easy to understand and navigate. Clear instructions and visual indicators ensure that users can operate the doors with confidence, minimizing the need for external assistance.

Swift and Effortless Passage: The pressure doors’ quick opening and closing time, coupled with the smooth movement facilitated by the electro-mechanical drive system, enable swift and effortless passage for athletes. This eliminates delays and interruptions, allowing for a seamless workflow within the wind tunnel or clean room environment.

Transparent Design: The use of transparent triplex glass in the sashes of the pressure doors provides visibility and transparency, enhancing the overall user experience. Athletes and personnel can observe the surroundings, promoting a sense of connection and enhancing safety during passage.

Safety Precautions: The pressure doors are equipped with optical elements to prevent accidental pinching of limbs during passage. These safety features are meticulously integrated into the design, ensuring the well-being and comfort of users.

Reliability and Durability: Pressure doors are engineered to deliver reliable performance and withstand the demanding conditions of wind tunnels and clean rooms. The durable construction and robust materials used in their design ensure longevity, minimizing downtime and maintenance requirements.

Applications:

Wind Tunnels: In wind tunnel facilities, pressure doors are utilized as the gateway for athletes to access the flight zone while maintaining the integrity of the airflow and pressure within the facility. They ensure a controlled environment for aerodynamic testing, research, and training activities.

Clean Rooms: Pressure doors are commonly used in clean room environments where strict control of air quality, particulate contamination, and pressure differentials is necessary. These doors provide airtight seals and prevent the transfer of contaminants, ensuring a controlled and sterile environment for sensitive manufacturing processes, scientific research, and pharmaceutical production.

 

Aerospace and Aviation: Pressure doors play a crucial role in aerospace and aviation industries. They enable safe entry and exit of personnel and equipment into controlled environments, such as aircraft assembly areas, engine testing facilities, and maintenance hangars. Pressure doors help maintain the required air pressure differentials and prevent contamination in these critical areas.

Research Facilities: Research institutions and laboratories utilize pressure doors to control the airflow and maintain specific environmental conditions in controlled research areas. These doors help prevent cross-contamination, ensure controlled temperature and humidity levels, and create isolated spaces for scientific experiments, testing, and analysis.

Turning vanes

Overview

Turning Vanes also known as Guide Vanes, Flow directors, stand not merely as a system component but a pivotal element, assuring airflow mastery within wind tunnels. Tailored for optimal performance in specific airspeed ranges within rotational sections, these components are crafted bearing in mind the nuanced demands of distinct aerodynamic contexts, ensuring that each vane not only conforms to but enhances the operability and efficiency within its assigned role.

Guide vanes are the cornerstone of wind tunnel efficiency. Classic NASA research shows that up to 30% of energy losses in a tunnel may appear due to poor turning vane design, insufficient frequency within vanes assembly and inappropriate mounting. Most importantly turning vanes design may drastically affect the airflow quality both inducing and reducing the turbulence.
TunnelTech turning vanes are made from aviation grade extruded aluminium and calibrated with precision of microns. Unique X-large profile of our own design provides efficient direction change with virtually no disturbance to the airflow while reduced spacing in turning vanes acts honeycomb alike straightening the slightest airstream differences.

Their design capitalizes on an optimized resistance characteristic in the air stream part, precisely tuned to function amidst air speeds in the rotational section. Ensuring an optimal ratio of spacing to chord at 1/3, the vanes boast a flexible adaptation, with the ability to vary spacing as required. This dynamism in design serves to meet distinct operational demands, ensuring that the flow straighteners are not merely fitting within systems but elevating their functional efficacy.

Turning vanes have been meticulously engineered to ensure that the relationship between spacing and chord is both harmonious and functionally advantageous. While the ideal spacing can be adjusted according to need, the intrinsic design principle ensures that the vanes work in tandem with the surrounding aerodynamic structures, guiding the flow with minimized resistance and maximized efficiency, underscoring a union of practicality and aerodynamic mastery.

Furthermore, rotational sections with optimal or reduced spacing are not only efficient in their primary role but also proficient in effective turbulence intensity suppression, acting as pivotal constituents within deturbulation systems. The meticulous engineering encapsulated within each turning vane allows for a reduced turbulence footprint, assuring that airflows are not only directed but also refined in their passage, ensuring a smoother, more stable, and ultimately more controlled aerodynamic journey through the system.

AUTOMOTIVE TUNNEL

Overview

In the automotive realm, testing is paramount. A controlled environment where vehicles can be pushed to their limits, analyzed, and improved is a necessity. Recognizing this essential industry need, we at TunnelTech are poised and ready to deliver.

While we’ve built our reputation on a plethora of successful tunnel constructions across varied sectors, the automotive domain presents unique challenges – challenges we’re eager and equipped to tackle.

Here’s why considering TunnelTech for your automotive tunnel needs is a logical step forward:

Adaptable Expertise: Drawing from our vast experience in diverse tunnel projects, we’re primed to cater to the specificities of the automotive world.
Unwavering Commitment to Safety: Our track record echoes our commitment to safety. We ensure that our structures stand resilient, safeguarding both personnel and equipment.
Tailored Solutions: Understanding that no two testing needs are alike, we promise customization. Be it environmental simulations or specific vehicular requirements, our designs will mirror your needs.
Compliance Ready: As industry norms evolve, so will our designs. We’re ready to ensure our tunnels meet and exceed any set standards.
Resourceful and Innovative: Though new to the automotive sector, our innovative spirit and resourcefulness make us a worthy contender.

The automobile sector constantly strives for innovation, safety, and superior performance. Testing tunnels play an instrumental role in realizing these objectives, ensuring vehicles are efficient, safe, and reliable before they hit the roads. Here’s an insight into the importance of such testing tunnels and what they bring to the automotive world:

1. Simulated Real-World Conditions:

  • Tunnels offer a controlled environment, where varied climatic and driving conditions can be simulated. From heavy rainfall and icy roads to scorching desert heat, these environments allow for comprehensive vehicle assessments.

2. Aerodynamic Testing:

  • By understanding how air flows around a vehicle, manufacturers can optimize designs for reduced drag, increased stability, and improved fuel efficiency. Tunnels equipped with advanced instrumentation provide insights into air resistance and pressure points.

3. Thermal Management:

  • Extreme temperatures challenge a vehicle’s cooling systems, HVAC, and overall material durability. In testing tunnels, vehicles can be subjected to both hot and cold conditions, ensuring systems operate optimally and materials don’t degrade or fail.

4. Noise, Vibration, and Harshness (NVH) Assessment:

  • Tunnels allow experts to study the noise levels inside and outside the car, vibrations in various components, and overall ride harshness. This ensures a comfortable and quiet ride for passengers and meets regulatory standards.

5. Emission and Pollution Testing:

    • As environmental regulations become stricter, tunnels provide a space to measure and analyze vehicular emissions under different conditions, ensuring vehicles are eco-friendly and compliant.

6. Safety Evaluations:

  • These controlled environments can be used to assess safety features, such as traction control, anti-lock brakes, and stability systems, under various conditions, ensuring vehicles react as intended during critical situations.

7. Endurance and Longevity Testing:

  • Tunnels allow for prolonged testing under controlled, repetitive conditions. This aids in identifying potential wear and tear issues and assessing the overall longevity of vehicle components.

8. Performance Optimization:

  • From acceleration and braking to maneuverability and fuel efficiency, tunnels enable exhaustive performance evaluations, ensuring vehicles deliver on promised specifications.

TT32 µFly

Overview

TT32 μFLY is the largest model among the μFLY Series wind tunnels, aimed at novice flyers. Boasting an enlarged 3.2-meter diameter flight chamber, it is meticulously engineered to offer a high-quality and cost-effective indoor skydiving solution for projects in the entertainment sector.

A 7,5-meter-tall glass flight chamber ensures a more exciting experience for both participants and spectators. Its conical design prioritizes safety for first-time flyers, providing stability and eliminating risks of uncontrolled high-speed ascents. Chemically strengthened glass makes the environment shatterproof for mayor confidence of flyers and operators.

Although TT32 μFLY provides a larger flight area, it remains a super compact solution with minimum footprint and great performance. Powered by one extra-large axial fan, it minimizes energy costs while proving enough wind speed for intermediate freefly training and head-up flying. The strategic placement of the fan within the vertical air duct, combined with the use of carbon fiber blades, significantly elevates energy efficiency and contributes to a more eco-friendly, quiet and cost-effective operation.

The integrated active cooling system ensures a consistently comfortable flying experience by delivering smooth, turbulence-free cooling via hollow turning vanes, regardless of external temperatures.

Thanks to its innovative modular design, TT32 μFLY doesn’t require large-scale construction works and allows trouble-free assembly, reducing both installation time and labor expenses. A great choice for the projects with spatial constraints or budget limitations.

TT32 μFLY is a versatile and adaptable wind tunnel solution that caters to various applications and settings including entertainment venues, shopping centers, educational institutions. Whether your goal is to diversify your entertainment offering, attract crowds and enhance foot traffic within your shopping complex, foster curiosity and STEM learning, TT32 μFLY guarantees success.

Apart from entertainment flyers TT32 μFLY holds a special appeal for skydivers. By offering advanced training sessions and accommodating skydivers during off-peak hours, you can maximize your revenue potential and optimize the wind tunnel’s occupancy, ensuring that the TT32 μFLY remains a valuable and profitable asset for your project.

Specification

General Parameters

Flight сhamber inner diameter 3.2 (10′ 5″)
Glass height default 7.2 m (23’6″)
Glass height maximum

Dimensions Single Loop

Height18.9 m (62′)
Length 11.1 m (36’4″)
Width5.5 m (18′)

Power Requirements

Power capacity (min) 750 kW
Average time-weighted power consumption 326 kW
Power consumption @ 180 km/h 420 kW
Standard power capacity 750 kW
Advanced power capacity n/a
Beast power capacity n/a

Performance

Noise level 65 dBa (optional)
Darcy-Weissbach drag coefficient, Xi 0.31
Max. Speed @ Standard power capacity 259 kW
Max. Speed @ Advanced power capacity n/a kW
Max. Speed @ Beast power capacity n/a

Flight Chamber

Diameter 3.2 m (10’5″)
Height (minimum) 7.2 m (23’6″)
Area sq.m.
Default glass height 7.2 m (23’6″)
Glass type chemically strengthened, non-shattering
Glass total thickness ≥50 mm
Low iron glass optional
Optional maximum glass height m (‘”)
BASE jumping chamber height n/a
Patented safety net maintains long stroke in close proximity to the walls
Safety net tensioner 2 per cable
Speed drop (Diffusion rate)
Portal entrance shape curved, collision safe
Portal entrance material cast rubber compound
Entrance area speed drop ≤1%

Decompression Chamber

Airlock doors automated
Airlock emergency exit yes
Smooth decompression yes
Transit time of customer groups to/from the flight chamber <1 min

Axial Fans

Supplier Tunneltech , Germany
Quantity 1
Power (per fan) @ Standard power capacity 750 kW
Power (per fan) @ Advanced power capacity n/a
Power (per fan) @ Beast power capacity n/a
Location return vertical airduct
Axel orientation vertical
Diameter 4.25 m (13’95”)
Effective crossectional area 11.68 sq.m.
Blades material
Blades count
Automated lubrication

Airducts

Material of FC Airjet (FC Contraction) FRP
Material of FC Diffuser
Material of return vertical airducts

Climate Control

Ventilation (a.k.a. Passive Cooling) yes
Max ventilation to airflow ratio 30%
Active Cooling System yes (optional)
Additional drag, caused by active cooling system 0 Pa (No drag)
Active Cooling type through turning vanes
Recommended Chiller Cooling Capacity 700 kW (2,390,000 BTU/h)

Illumination

Color LED backlight strips between glass panels yes, flicker-free (optional)
LED Strips power per m 10W
LED Strips frame rate 60 fps
LED Projectors yes, flicker-free (optional)
LED projectors default number installed (optional) 8-32 (optional)
LED projectors max. power 90 W
LED projectors max. luminous flux power R:1950 G:2700 B:750 lumen
LED projector dimming capability 0 – 100%
LED control from Main Panel yes
LED anti-flicker function high frequency PWM
LED projector PWM frequency 1 kHz
LED color depth 24 bit, 16,777,216 colors
LED projector color depth 36 bit, 64 bln colors

Controls

Main panel control display 28″
Touch screen main panel yes
Flight chamber info display 31.5″
Operator desk speed controller autonomous knob
Waiting zone speed controller autonomous knob
Base chamber speed controller autonomous knob
Speed controller knob resolution 0,1%

Turning Vanes

Chord 500 mm
Chord-to-Spacing ratio ≥3:1
Material aluminium
Surface treatment anodized
Cooling channels 6
Darcy-Weissbach
Turning vane heat transfer ratio, per meter @ 10-35m/s airflow speed >105 (±15) W/(m*K)

Projects

TT25 µFly

Overview

The smallest wind tunnel model in Tunnel Tech lineup, TT25 μFLY is an entry-level machine, tailor-made to meet the needs of entertainment-oriented projects. Overseeing the financial side was one of the priorities, while creating TT25 μFLY. The result is a remarkably affordable yet outstanding indoor skydiving solution that doesn’t compromise on quality. A perfect combination of high performance, compact footprint and low energy consumption.

Designed with first-timers as the main target group, TT25 μFLY features a cozy 2.5-meter diameter flight chamber. 5 meters of completely transparent chemically strengthened glass provide a safe environment inspiring to try body flying. The conical shape of the flight chamber optimizes safety and stability, allowing novice flyers to enjoy the experience with confidence.

Despite its size, TT25 μFLY is powerful enough for intermediate freefly training and head-up flying. As a result, it’s appealing for skydivers eager to hone their basic skills. This customer group can generate additional revenue in off-peak hours and increase the occupancy of the tunnel.

Featuring an extra-large low RMP axial fan with carbon fiber blades located in the vertical airduct, TT25 μFLY ensures high energy efficiency and low noise emissions. The built-in active cooling system provides turbulence free cooling through hollow turning vanes making the flying experience comfortable at any outside temperatures.

With the well-thought-out design installation and disassembly are straightforward. TT25 μFLY is your flexible, hassle-free solution for both permanent and temporary locations. TT25 μFLY arrives as a complete package, including a load-bearing structure and a chiller. It’s a plug-and-play solution, streamlining the setup process for your convenience.

TT25 μFLY allows to start generating returns swiftly. Our solution is crafted to minimize downtime and maximize profitability, ensuring that your investment pays off in record time. TT25 μFLY opens new opportunities for small-scale projects and economically challenging environments. Suitable for shopping malls, entertainment centers and amusement parks.

Specification

General Parameters

Flight сhamber inner diameter 2.5 (8′ 2″)

Dimensions Single Loop

Height 16.5 m (54′)
Length 10.7 m (35′)
Width 4.7 m (15’4″)

Power requirements

Power capacity (min) 450 kW
Average time-weighted power consumption 199 kW
Power consumption @ 180 km/h 146 kW
Standard power capacity 450 kW
Advanced power capacity n/a
Beast power capacity n/a

Performance

Noise level 65 dBA
Darcy-Weissbach drag coefficient, Xi 0.31
Max. Speed @ Standard power capacity 250 km/h

Flight chamber

Diameter 2.5 (8′ 2″)
Height (minimum) 5 m (16’4″)
Glass type chemically strengthened, non-shattering
Glass total thickness ≥50 mm
Low iron glass yes
Optional maximum glass height
BASE jumping chamber height
Patented safety net maintains long stroke in close proximity to the walls
Safety net tensioner 2 per cable
Speed drop (Diffusion rate) 2.12
Portal entrance shape curved, collision safe
Portal entrance material impact-dampening rubber
Entrance area speed drop ≤1%

Decompression Chamber

Airlock doors automated
Airlock emergency exit yes
Smooth decompression yes
Transit time of customer groups to/from the flight chamber <1 min

Axial Fans

Supplier Tunneltech , Germany
Quantity 1
Power (per fan) @ Standard power capaccity 450 kW
Location return vertical airduct
Axel orientation vertical
Diameter 3.37 m (11′)
Effective crossectional area 7.68 sq.m.
Blades material carbon fibre
Blades count
Automated lubrication yes

Airducts

Material of FC Airjet (FC Contraction) FRP
Material of FC Diffuser FRP or glass (optional)
Material of return vertical airducts FRP

Climate Control

Ventilation (a.k.a. Passive Cooling) yes
Max ventilation to airflow ratio 30%
Active Cooling System yes (optional)
Additional drag, caused by active cooling system 0 Pa (No drag)
Active Cooling type through turning vanes
Recommended Chiller Cooling Capacity 450 kW (1,535,464.1 BTU/h)

Illumination

Color LED backlight strips between glass panels yes, flicker-free (optional)
LED Strips power per m 10 W
LED Strips frame rate 60 fps
LED Projectors yes, flicker-free (optional)
LED projectors default number installed (optional) 8 – 32 (optional)
LED projectors max. power 90 W
LED projectors max. luminous flux power R:1950 G:2700 B:750 lumen
LED projector dimming capability 0 – 100%
LED control from Main Panel yes
LED anti-flicker function high frequency PWM
LED projector PWM frequency 1 kHz
LED color depth 24 bit, 16,777,216 colors
LED projector color depth 36 bit, 64 bln colors

Controls

Main panel control display 28″
Touch screen main panel yes
Flight chamber info display 31.5″
Operator Desk Speed Controller yes
Waiting Zone Speed Controller yes
Base Chamber Speed Controller n/a
Speed Controller Knob Resolution 0,1%/click

Turning Vanes

Chord 500 mm
Chord-to-Spacing ratio ≥3:1
Material aluminium
Surface treatment anodized
Cooling channels 6
Turning vane heat transfer ratio, per meter @ 10-35m/s airflow speed >105 (±15) W/(m*K)

TT43 Smart Fly

Overview

TT43 Smart represents a top-quality budget-friendly wind tunnel solution for venues combining entertainment and sport training aspects. It fulfills the needs of a wide range of customers: from thrill-seekers to professional flyers. As a full-size 14ft class wind tunnel, TT43 Smart is well-equipped to host FAI world-class competitions, including 4-way formation skydiving and dynamic disciplines. Delivering stable and consistent airflow, minimized noise levels, and safety for highspeed disciplines, TT43 Smart ensures an enjoyable experience for both flyers and spectators.

Its 4.3-meter-diameter flight chamber easily accommodates larger groups of skydivers for training sessions. The height of the glass section is 4 meters. The cylindrical shape provides enough room for the flyers to perform maneuvers and allows spectators to follow the action up close. Chemically strengthened glass ensures safety and impact resistance during high-speed activities.

TT43 Smart is equipped with two extra-large axial fans with carbon fiber blades to provide high airflow speeds. Positioned in the vertical air ducts, the fans contribute to remarkable energy efficiency while maintaining a low noise level.

The integrated active cooling system ensures comfortable temperatures inside the wind tunnel, regardless of external conditions. Cooling the airflow through the hollow turning vanes doesn’t generate neither turbulence nor energy losses.

TT43 Smart is the financially viable solution for entertainment flights, training programs and international competitions. This model effortlessly combines quality, affordability, versatility, and high-energy efficiency, making it an excellent option for your project.

Specification

General Parameters

Flight сhamber inner diameter 4.3 m (9’5″)
Glass height default 4.2 m (13’8″)
Glass height maximum 10 m (32’8″)

Dimensions Double Loop

Height 25 m (82′)
Length 27.4 m (89’9″)
Width 8.7 m (28’5″)

Dimensions Single Loop

Height 31.5 m (103’3″)
Length 20.5 m (67’3″)
Width 9 m (29’5″)

Power Requirements

Power capacity (min) 1260 kW
Average time-weighted power consumption 569 kW
Power consumption @ 180 km/h 418 kW
Standard power capacity 1260 kW
Advanced power capacity 1420 kW
Beast power capacity 1600 kW

Performance

Noise level 60 dBa (optional)
Darcy-Weissbach drag coefficient, Xi 0.3
Max. Speed @ Standard power capacity 260 km/h
Max. Speed @ Advanced power capacity 270 km/h
Max. Speed @ Beast power capacity 280 km/h

Flight Chamber

Diameter 4.3 m (14′)
Height (minimum) 10 m (32’8″)
Area 14.51 sq.m.
Default glass height 4.2 m (13’8″)
Glass type chemically strengthened, non-shattering
Glass total thickness ≥50 mm
Low iron glass yes
Optional maximum glass height 10 m (32’8″)
BASE jumping chamber height 10 m (32’8″)
Patented safety net maintains long stroke in close proximity to the walls
Safety net tensioner 2 per cable
Speed drop (Diffusion rate) 1.9
Portal entrance shape curved, collision safe
Portal entrance material impact-dampening rubber
Entrance area speed drop ≤1%

Decompression Chamber

Airlock doors automated
Airlock emergency exit yes
Smooth decompression yes
Transit time of customer groups to/from the flight chamber <1 min

Axial Fans

Supplier Tunneltech , Germany
Quantity 2 / 4
Power (per fan) @ Standard power capacity 2 x 630 kW / 4 x 315 kW
Power (per fan) @ Advanced power capacity 4 x 355 kW
Power (per fan) @ Beast power capacity 4 x 400 kW
Location return vertical airduct
Axel orientation vertical
Diameter 2 х 4.25 m / 4 x 2.8 m
Effective crossectional area 11.68 sq.m.
Blades material 8
Blades count Carbon Fibre
Automated lubrication Yes

Airducts

Material of FC Airjet (FC Contraction) FRP
Material of FC Diffuser metal
Material of return vertical airducts FRP/metal

Climate Control

Ventilation (a.k.a. Passive Cooling) yes
Max ventilation to airflow ratio 30%
Active Cooling System yes (optional)
Additional drag, caused by active cooling system 0 Pa (No drag)
Active Cooling type through turning vanes
Recommended Chiller Cooling Capacity 900 kW (3,000,000 BTU/h)

Illumination

Color LED backlight strips between glass panels yes, flicker-free (optional)
LED Strips power per m 10 W
LED Strips frame rate 60 fps
LED Projectors yes, flicker-free (optional)
LED projectors default number installed (optional) 8 – 32 (optional)
LED projectors max. power 90 W
LED projectors max. luminous flux power R:1950 G:2700 B:750 lumen
LED projector dimming capability 0 – 100%
LED control from Main Panel yes
LED anti-flicker function high frequency PWM
LED projector PWM frequency 1 kHz
LED color depth 24 bit, 16,777,216 colors
LED projector color depth 36 bit, 64 bln colors

Controls

Main panel control display 28″
Touch screen main panel yes
Flight chamber info display 31.5″
Operator desk speed controller autonomous knob
Waiting zone speed controller autonomous knob
Base chamber speed controller autonomous knob
Speed controller knob resolution 0,1%

Turning Vanes

Chord 500 mm
Chord-to-Spacing ratio ≥3:1
Material aluminium
Surface treatment anodized
Cooling channels 6
Turning vane heat transfer ratio, per meter @ 10-35m/s airflow speed >105 (±15) W/(m*K)

TT 3.6 Smart

Overview

TT36 Smart embodies the best balance between customer experience and cost-effectiveness for projects focused on entertainment with sport training capabilities. Designed for indoor skydiving enthusiasts and professionals alike, it offers optimal performance, safety and energy efficiency.

Capable to provide higher wind speed, TT36 Smart is ideal for skydivers looking for intensive training in small groups of 2-4 persons. Compliant with FAI regulations, TT36 Smart is suitable for indoor skydiving competitions in several disciplines, including 2way formation skydiving and 4way VFS. This brings advanced marketing opportunities and greater turnover compared to the μFLY Series.

3.6-meter-diameter flight chamber features a 4-meter-tall cylindrical glass section. This configuration guarantees a smooth flying experience while allowing spectators to enjoy the action up close. Chemically strengthened glass ensures maximum durability and great transparency.

TT36 Smart is thoughtfully engineered to deliver exceptional performance while keeping power consumption low. 2 extra-large low RMP axial fans with carbon fibre blades are situated in the vertical air ducts. This design ensures high level of power efficiency and brings down operational costs and environmental impact. Moreover, it reduces noise output creating pleasant environment in the facility.

The default active cooling system based on hollow turning vanes makes flying sessions comfortable even in hot climate zones without affecting the airflow quality.

TT36 Smart will perfectly cater to the needs of creating an indoor skydiving community in the regions where this sport is still a trend to be discovered.

Specification

General Parameters

Flight сhamber inner diameter 3.6 m (12′)
Glass height default 4 m (13′)
Glass height maximum 10 m (32’8″)

Dimensions Double Loop

Height 21.7 m (71’2″)
Length 25.6 m (84′)
Width 7.85 m (25’7″)

Dimensions Single Loop

Height Custom
Length Custom
Width Custom

Power Requirements

Power capacity (min) 1000 kW
Average time-weighted power consumption 359 kW
Power consumption @ 180 km/h 263 kW
Standard power capacity 1000 kW
Advanced power capacity n/a
Beast power capacity n/a

Performance

Noise level 60 gBa (optional)
Darcy-Weissbach drag coefficient, Xi 0.27
Max. Speed @ Standard power capacity 270 km/h
Max. Speed @ Advanced power capacity n/a
Max. Speed @ Beast power capacity n/a

Flight Chamber

Diameter 3.6 m (11’8″)
Height (minimum) 10 m (32’8″)
Area 10.18 m (33’4″)
Default glass height 4 m (13′)
Glass type chemically strengthened, non-shattering
Glass total thickness ≥50 mm
Low iron glass yes
Optional maximum glass height 10 m (32’8″)
BASE jumping chamber height 10 m (32’8″)
Patented safety net maintains long stroke in close proximity to the walls
Safety net tensioner 2 per cable
Portal entrance shape curved, collision safe
Portal entrance material Impact-dampening rubber
Entrance area speed drop ≤1%

Decompression Chamber

Airlock doors automated
Airlock emergency exit yes
Smooth decompression yes
Transit time of customer groups to/from the flight chamber <1 min

Axial Fans

Supplier Tunneltech , Germany
Quantity 2
Power (per fan) @ Standard power capacity 500 kW
Power (per fan) @ Advanced power capacity 560 kW
Power (per fan) @ Beast power capacity 630 kW
Location return vertical airduct
Axel orientation vertical
Diameter 3.37 m (10’7″)
Effective crossectional area 7.68 sq.m.
Blades material Carbon Fibre
Blades count 8
Automated lubrication Yes

Airducts

Material of FC Airjet (FC Contraction) FRP
Material of FC Diffuser metal
Material of return vertical airducts FRP/metal

Climate Control

Ventilation (a.k.a. Passive Cooling) yes
Max ventilation to airflow ratio 30%
Active Cooling System yes (optional)
Additional drag, caused by active cooling system 0 Pa (No drag)
Active Cooling type through turning vanes
Recommended Chiller Cooling Capacity 700 kW (2,388,450 BTU/h)

Illumination

Color LED backlight strips between glass panels yes, flicker-free (optional)
LED Strips power per m 10 W
LED Strips frame rate 60 fps
LED Projectors yes, flicker-free (optional)
LED projectors default number installed (optional) 8-32 (optional)
LED projectors max. power 90 W
LED projectors max. luminous flux power R:1950 G:2700 B:750 lumen
LED projector dimming capability 0 – 100%
LED control from Main Panel yes
LED anti-flicker function high frequency PWM
LED projector PWM frequency 1 kHz
LED color depth 24 bit, 16,777,216 colors
LED projector color depth 36 bit, 64 bln colors

Controls

Main panel control display28″
Touch screen main panelyes
Flight chamber info display31.5″
Operator desk speed controllerautonomous knob
Waiting zone speed controllerautonomous knob
Base chamber speed controllerautonomous knob
Speed controller knob resolution0,1%

Turning Vanes

Chord 500 mm
Chord-to-Spacing ratio ≥3:1
Material aluminium
Surface treatment anodized
Cooling channels 6
Turning vane heat transfer ratio, per meter @ 10-35m/s airflow speed >105 (±15) W/(m*K)

TT65 PRO

Overview

TT65 PRO – Biggest machine among commercially feasible

Best for image oriented or government ventures where business is secondary to vision, opportunity and publicity.

The groundbreaking indoor skydiving wind tunnel that offers an unparalleled flying experience and state-of-the-art safety features. Currently under construction in Qatar, this colossal wind tunnel boasts the second largest diameter in the world, setting new standards in the indoor skydiving industry. Its cutting-edge design and technology make it the ultimate choice for hosting world championships, including dynamic flying disciplines. Experience the future of indoor skydiving with the TT65 PRO.

World Championship Suitability

The TT65 PRO’s exceptional size and innovative design make it an ideal venue for hosting the world championship, including dynamic flying disciplines. Its spacious flight chamber can accommodate larger teams and more complex maneuvers, allowing athletes to push the boundaries of their skills and showcase the true potential of indoor skydiving.

 

Power Efficiency

Power efficiency is crucial for indoor skydiving projects, as it directly affects operational costs, environmental impact, and long-term sustainability. The TT65 PRO’s advanced engineering ensures that energy consumption is minimized without sacrificing performance or safety. This energy-efficient design translates into lower energy bills and reduced carbon footprint, making it an attractive option for environmentally-conscious operators.

Safety

Safety is paramount in the world of indoor skydiving, and the TT65 PRO incorporates several features to ensure a secure and enjoyable flying experience for all:
1. Flight chamber diffusion ratio of 2: This design aspect guarantees a smooth and stable airflow, minimizing turbulence and enhancing the overall flying experience.
2. Well-balanced safety net with large strokes close to the walls: This feature provides a cushioned landing surface, ensuring maximum protection in case of accidental falls or collisions.
3. Curved entrance to the flight chamber: This design prevents injuries by ensuring that potential strikes go tangential to the surface, reducing the risk of direct impact.
4. Noise levels of 55 dbA in close proximity to the flight chamber: This feature reduces disturbance for bystanders and contributes to a more enjoyable environment both inside and outside the wind tunnel.

As the only TT65 PRO is still under construction, our team of experts at TunnelTech are committed to providing unmatched installation experience and support throughout the entire process. We take pride in ensuring that every aspect of the project is completed to the highest standards, from design to construction and beyond.

Specification

General Parameters

Flight сhamber inner diameter 6.5 m (21’4″)
Glass height default 18m (59′)
Glass height maximum 36 m (118’11”)

Dimensions Double Loop

Height 37.7 m (123’7″)
Length 38.3 m (41’5″)
Width 14 m (45’9″)

Dimensions Single Loop

Height 45 m (147’6″)
Length 30 m (98’4″)
Width 12 m (39’4″)

Power Requirements

Power capacity (min) 3360 kW
Average time-weighted power consumption 1171 kW
Power consumption @ 180 km/h 857 kW
Standard power capacity 3360 kW
Advanced power capacity n/a
Beast power capacity n/a

Performance

Noise level 60 dBA (optional)
Darcy-Weissbach drag coefficient, Xi 0.27
Max. Speed @ Standard power capacity 275 km/h
Max. Speed @ Advanced power capacity 290 km/h

Flight Chamber

Diameter 6.5 m (21’3″)
Height (minimum) 21.5 m (70’5″)
Area 33.16 m (108’8″)
Default glass height 18 m (59′)
Glass type chemically strengthened, non-shattering
Glass total thickness ≥50 mm
Low iron glass yes
Optional maximum glass height up to 36 m (118’11”)
BASE jumping chamber height 19 m (62’3″)
Patented safety net maintains long stroke in close proximity to the walls
Safety net tensioner 2 per cable
Speed drop (Diffusion rate) 1.47
Portal entrance shape curved, collision safe
Portal entrance material impact-dampening rubber
Entrance area speed drop ≤1%

Decompression Chamber

Airlock doors automated
Airlock emergency exit yes
Smooth decompression yes
Transit time of customer groups to/from the flight chamber <1 min

Axial Fans

Supplier Tunneltech , Germany
Quantity 6
Power (per fan) @ Standard power capacity 560 kW
Power (per fan) @ Advanced power capacity n/a
Location return vertical airduct
Axel orientation vertical
Diameter 3.37 m (11′)
Effective crossectional area 7.68 m (25’2″)
Blades material carbon fibre
Blades count 8
Automated lubrication yes

Airducts

Material of FC Airjet (FC Contraction) FRP
Material of FC Diffuser glass
Material of return vertical airducts FRP/steel

Climate Control

Ventilation (a.k.a. Passive Cooling) yes
Max ventilation to airflow ratio custom
Active Cooling System yes (optional)
Additional drag, caused by active cooling system 0 Pa (No drag)
Active Cooling type through turning vanes
Recommended Chiller Cooling Capacity 2400 kW (8,189,140 BRU/h))

Illumination

Color LED backlight strips between glass panels yes, flicker-free (optional)
LED Strips power per m 10 W
LED Strips frame rate 60 fps
LED Projectors yes, flicker-free (optional)
LED projectors default number installed (optional) 8 – 32 (optional)
LED projectors max. power 90 W
LED projectors max. luminous flux power R:1950 G:2700 B:750 lumen
LED projector dimming capability 0 – 100%
LED control from Main Panel yes
LED anti-flicker function high frequency PWM
LED projector PWM frequency 1 kHz
LED color depth 24 bit, 16,777,216 colors
LED projector color depth 36 bit, 64 bln colors

Controls

Main panel control display 28″
Touch screen main panel yes
Flight chamber info display 31.5″
Operator desk speed controller autonomous knob
Waiting zone speed controller autonomous knob
Base chamber speed controller autonomous knob
Speed controller knob resolution 0,1%

Turning Vanes

Chord 500 mm
Chord-to-Spacing ratio ≥3:1
Material aluminium
Surface treatment anodized
Cooling channels 6
Turning vane heat transfer ratio, per meter @ 10-35m/s airflow speed >105 (±15) W/(m*K)
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