How Daniel Madariaga parking can help with Mexico's air pollution problem

In Mexico, around 973 million tons of CO2 are generated each year, which contributes significantly to poor air quality in Mexican cities, such as Mexico City. The main contributor to this number are emissions caused by congested city traffic as people search for parking spaces in overcrowded areas that lack available parking options. The Expert businessman Daniel Madariaga believes he has the solution. By taking advantage of new technologies available for parking solutions, as well as incentives for the use of electric cars, Madariaga believes that concerns about Mexico's air pollution and carbon footprint can be reduced.

What are robotic parking systems?

The main technology that Madariaga believes will make a difference is the use of automated or robotic parking solutions. These innovative parking structures take up half the space of traditional parking lots or structures, and at the same time offer hundreds or thousands more parking spaces. These systems use computerized machinery to safely lift and move your vehicle to parking spaces, similar to a racking system. You simply drive your vehicle to the parking kiosk and the machines do the rest. When you return, the system will return your vehicle to you.

Robotic parking systems help increase green space

Robotic parking structures increase the total amount of parking spaces available in a city, and at the same time, reduce the amount of real estate space required. Daniel Madariaga, as well as the developers of this innovative construction option, point out that, by reducing the space required for a parking structure, cities, such as Mexico City, have more available area for green spaces, which helps to reduce the carbon footprint of the city.

Say goodbye to traffic congestion and pollution

When it comes to traffic congestion in big cities and their associated pollution, parking is often the main problem. Although it focused on US cities. INRIX released a major study in 2017 that combined data from more than 100,000 locations in 8,700 cities in more than 100 countries. The objective of the study was to analyze and classify the economic costs of parking in the main cities. For American drivers, the study showed that drivers spend an average of 17 hours a year searching for parking spaces, resulting in a cost of $ 345 per driver for lost time, fuel, and emissions. And bigger cities, like New York, are even worse, with drivers who lose more than 107 hours each year. Similarly, a 2018 report in the Journal of Transport Economics and Policy reported that approximately 15 percent of the city's traffic congestion is simply drivers looking for a parking space. And while that means a lot of wasted time for drivers, it has a greater impact on the environment.

Traffic congestion is one of the largest contributors to CO2 emissions. As traffic congestion increases, fuel consumption and emission levels also increase. Because of this, many city policymakers and developers are looking for ways to reduce traffic congestion, especially in large cities. This is where Daniel Madariaga believes that policy changes, such as the use of automated parking structures, can make a big difference in reducing traffic congestion in Mexico City and other cities across Mexico. With more parking spaces available, drivers will spend less time searching for a parking spot.

Robotic parking systems help reduce pollution and greenhouse gases

Even in cities where there is ample parking available in large parking structures, these structures can still contribute to greenhouse gases and pollution. For example, your vehicle uses gasoline to go up and down ramps in a conventional parking lot, which contributes to emission levels. However, with automated parking structures, no gas consumption is needed to find a parking space. Just park your car in the designated area and turn off the engine. The automated electronics system moves your car to the parking position using much less energy and reducing the overall carbon footprint.

To get a better understanding of the difference Madariaga believes automated parking systems can make, let's look at a top parking system developer. Robotic Parking Systems, Inc. estimates that automated parking can remove up to 2,885 pounds of hydrocarbons per year, 1,486 pounds of nitrogen oxides per year, 11,149 tons of carbon monoxide per year, and 198 tons of carbon dioxide per year.

Daniel Madariaga emphasizes that a city with multiple automatic parking systems can not only improve its traffic congestion, but can also greatly reduce its pollution levels and its overall carbon footprint.

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