Introducing Parkital

  • Parking as a service
  • Automated Vehicle Storage Systems
  • Mobile app, nfc card ticketing and access
  • Minimize traffic congestion and carbon emissions
  • Repurpose real estate space buildings/plots
  • Parking space maximization
  • Greenhouse capturing facade
  • Urban centric

Parkital USP (Unique Selling Proposition)

parking as a service, built on modular AVS systems and complementary tech stack.


Automated Vehicle Storage Systems

Maximizing function, reducing investment costs, helping the environment and improving quality of life.

The use of mechanical, automated vehicle storage systems is commonplace in Europe and Asia; in other markets however, is just beginning to bud, opening a wealth of opportunities for companies looking to provide investors and public and private clients with a reliable, sustainable and relevant solution that will change the concept of vehicle storage in urban and metropolitan areas.

Automated Vehicle Storage Systems (known as AVSS) provide a substantial reduction in toxic emissions when compared to Conventional Concrete Ramp Garages (CCRGs); they also provide a quick and efficient way to park and retrieve vehicles minimizing city center congestion, air pollution and fuel consumption.

Designed to withstand seismic activity ensuring a safe and secure facility for vehicles and their users. A fully automated vehicle storage system is operational twenty-four hours a day without the need of staff.

Environmental Impact

“Studies show that vehicle storage system with the equivalent capacity of a 500 car garage will save over 22,700 litres of oil per year”.

Minimal illumination requirements provide significant savings in energy consumption.

The following systems may be implemented as a contingency in case of a power outage:

  • Solar panel
  • Battery Back-Up
  • Back-Up diesel generator

AVS employ interchangeable electromechanical motors, giving it a considerable advantage over competitive systems that run on hydraulics. Major drawbacks of hydraulic systems vis-à-vis electromechanical motors include:

  • Greater heat generation
  • Higher emissions of hazardous airborne oil particles
  • Greater noise in operation
  • High risk of component failure

AVS systems have been designed with special drip trays underneath each vehicle, capable of catching any damaging fluids that may fall from the vehicle stored directly above (such as coolant or oil based lubricants). This ensures that waste products are disposed of in an acceptable manner and protect the integrity of the vehicles stored below.

AVS Systems greatly contribute with the reduction of vehicle emissions:

  • 83% Reduction of Carbon Dioxide (CO2)
  • 81% Reduction of Nitrogen Dioxide (NO2)
  • 77% Reduction of Carbon Monoxide (CO)
  • 68% Reduction of Volatile Organic Compounds
  • 83% Reduction in Energy Consumption (Fuel Use)
  • Eliminate 1,000 pounds of Hydrocarbons
  • Eliminate 3.5 tons of Carbon Monoxide
  • Eliminate 500 pounds of Nitrogen Oxides
  • Eliminate over 60 tons of Carbon Dioxide

Spatial Impact

Reduced land requirements and costs

AVSS use a significantly smaller footprint than conventional vehicle storage solutions such as Conventional Concrete Ramp Garages — CCRG.

Depending on configuration, less than 50% of land is required compared to a CCRG, thus significantly reducing the cost of real estate acquisition or maximizing usage and profitability of the available real estate. When space is at a premium, AVSS is the most cost-effective (and in some cases the only) solution to provide vehicle storage services in high density areas with high demand and limited offer and/or land availability.

A minimal footprint is achieved by eliminating:

  • Walkways, fire exits, stairs, and elevator spaces
  • Toll booth / ticketing space
  • Internal Ramps
  • Lost areas in turn-around bays & dead zones
  • Corners where two spaces are 90° to each other
  • Flexible stall heights and widths

This also has a direct relationship with underground parking where excavation requirements can be substantially reduced thus limiting the amount of soil to be removed and disposed.

AVSS is 100% aligned and particularly relevant in areas where an “Infill Approach” is the most suitable (if not the only) answer. The infill approach is an urban planning concept and refers to the rededication of available land or to the construction of undeveloped land within the urban area. Infill also refers to land usage within a high density and built-up area, particularly for community redevelopment, management or smart growth projects.

The Infill Approach aims to maximize the use of obsolete, wasted or underutilized buildings and sites within the urban area subject to development or revitalization.

Economic & Social Impact

Economic Impact

AVS Systems allow for significant cost reduction in acquisition, construction, operation and building time.

  • Lower land requirement
  • Lower land cost
  • Lower operational cost
  • Lower energy cost
  • Faster depreciation
  • Faster construction period
  • Higher salvage value — life cycle analysis
  • Flexibility of use for vehicle storage

Social Impact

  • Lower crime related costs
  • Increased safety for people & property
  • Provides new opportunities for green spaces
  • Traffic flow intelligence capabilities
  • Improves quality of life
  • Infill approach capabilities
  • Better architectural design integration

“Vertical, simply practical”

We’ll be releasing more information in the coming weeks., following with Tirana’s Case Study.

Parkital Inc ©️ 2022

Enea Erebara

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