Mexico transported in 2018 over 97.3 million passengers on its 77 airports in the country, from which 64 are international, with ana Amsterdam University of Applied Science (AUAS), Weesperzijde 190, 1097 DZ Amsterdam, Netherlandsaverage growth rate of 7.6% respects 2017. Particularity, Queretaro International Airport has shown a very significant growth,handling almost 95 thousand passengers in 2006 towards over one million passengers in 2018 according to Civil AviationAuthorities. Furthermore, in the last years Queretaro city and its suburbs have been developing into a strong industrial regiontogether with an aeronautical cluster; this is as an initiative of Mexican Government which gather more than 80 manufactureaeronautical enterprises such as General Electric, Bombardier, Grupo Safran and Aernova, amongst others. There is one of the Mexico transported in 2018 over 97.3 million passengers on its 77 airports in the country, from which 64 are international, with anbiggest Maintenance, Repairing and Over hall (MRO) service facilities of Latin America which belong to Aeromexico and Delta average growth rate of 7.6% respects 2017. Particularity, Queretaro International Airport has shown a very significant growth,Airlines. In addition, research, educational and training institutions supply high trained personnel to the industry. These unique handling almost 95 thousand passengers in 2006 towards over one million passengers in 2018 according to Civil Aviationcharacteristics of Queretaro airport make suitable for study, particularly an analysis of the main current and potential characteristics Authorities. Furthermore, in the last years Queretaro city and its suburbs have been developing into a strong industrial regionof the business development of the region through the growth model of the airport. Therefore, the work aims to highlight the potential together with an aeronautical cluster; this is as an initiative of Mexican Government which gather more than 80 manufactureaspects of the airport business model and the need to cope with it though an Airport Master Plan (AMP) based on a long-term aeronautical enterprises such as General Electric, Bombardier, Grupo Safran and Aernova, amongst others. There is one of thevision strategy towards 2040-2050. The approach integrates the international, national and regional trends related to aviation, and biggest Maintenance, Repairing and Over hall (MRO) service facilities of Latin America which belong to Aeromexico and Deltathe perspective of global growth as driver of connectivity for commercial and cargo aviation. It has been found that the airport has an Airlines. In addition, research, educational and training institutions supply high trained personnel to the industry. These uniqueinteresting and challenging portfolio of activities and market opportunities. Based on the economic activities in the region and the characteristics of Queretaro airport make suitable for study, particularly an analysis of the main current and potential characteristicsgood landside connectivity to Mexico City the passenger and cargo traffic at Queretaro Airport have good potential for growth of the business development of the region through the growth model of the airport. Therefore, the work aims to highlight the potentialeither via local based home carrier providing connections within Mexico and to major international destinations including long haul. aspects of the airport business model and the need to cope with it though an Airport Master Plan (AMP) based on a long-termThe airport has a solid infrastructure base, a long runway capable to accommodate almost all aircraft types for domestic and vision strategy towards 2040-2050. The approach integrates the international, national and regional trends related to aviation, andinternational traffic and cargo; MRO services, aircraft parts manufacturing facilities, an aviation university as well as the the perspective of global growth as driver of connectivity for commercial and cargo aviation. It has been found that the airport has andevelopment of commercial services for passengers and in the surrounding communities. Queretaro Airport is capable to move fast interesting and challenging portfolio of activities and market opportunities. Based on the economic activities in the region and thebased on its current portfolio of activities, facilities, and scheduled modifications of the terminal, etc. We can assume that airlines good landside connectivity to Mexico City the passenger and cargo traffic at Queretaro Airport have good potential for growthwill be looking for new opportunities to serve the Mexican market at large and the Mexico City area in particular. Dedicated airlines either via local based home carrier providing connections within Mexico and to major international destinations including long haul.marketing, to speed up development of landside commercial services (hotel, landside transportation to Mexico City) will position The airport has a solid infrastructure base, a long runway capable to accommodate almost all aircraft types for domestic andQueretaro Airport to benefit from this new development.international traffic and cargo; MRO services, aircra
In this paper we propose a novel approach for validating a simulation model for a passengers' airport terminal. The validation approach is based on a "historical data" and "model-to-model" validation approach, and the novelty is represented by the fact that the model used as comparison uses historical data from different data sources and technologies. The proposed validation approach , which is presented as part of the IMHOTEP project, implements various data fusion and data analytics methods to generate the passenger "Activity-Travel-Diary", which is the model that is then compared with the results from the simulation model. The data used for developing the "Activity-Travel-Diary" comes from different sources and technologies such as: passengers data (personal mobile phone, apps), airport data (airport Wi-Fi, GPS, scanning facilities), and flight Information (flight schedules, gate allocation etc.). The simulation model is based on an agent-based simulation paradigm and includes all the passengers flows and operations within a terminal airport. The proposed validation approach is implemented in a real-life case study, Palma de Mallorca Airport, and preliminary results of the validation (calibration) process of the simulation model are presented.
Airport management is often challenged by the task of managing aircraft parking positions most efficiently while complying with environmental regulations and capacity restrictions. Frequently this task is additionally affected by various perturbations, affecting punctuality of airport operations. This paper presents an innovative approach for obtaining an efficient stand assignment considering the stochastic nature of the airport environment and emissions reduction target of the modern air transportation industry. Furthermore, the presented methodology demonstrates how the same procedure of creating a stand assignment can help to identify an emissions mitigation potential. This paper illustrates the application of the presented methodology combined with simulation and demonstrates the impact of the application of Bayesian modeling and metaheuristic optimization for reduction of taxi-related emissions.
Het Raak Pro project Terugschakelen naar ketendenken liet een aantal zaken zien: 1. Het is lastig MKBers bij onderzoek te betrekken; 2. Via de zgn. Leaderfirm benadering lukt dit wel bedrijven bij voor hen relevant onderzoek te betrekken, 3. Op basis van een eigen benchmakronderzoek naar international airport-seaportregio's komt Amsterdam als een sterke mainport naar voren. De benchmark leverde een aantal aanbevelingen om de NL mainport te versterken. In deze Top Up maken we gebruik van de Leaderfirm benadering om de Benchmark die éénmalig was uitgevoerd in de Raak Pro Terugschakelen naar ketendenken te verrijken, kwalitatief en kwantitatief uit te breiden en te verdiepen. (doorwerking richting beroepspraktijk) In dit Top Up project doen we dat door studenten in een zgn. afstudeeratelier bij het benchmark onderzoek te betrekken en hen i.s.m. onderzoekers de benchmark te laten uitvoeren (doorwerking richting onderwijs). De verrijkte benchmarkt vormt een belangrijk focuspunt binnen het lectoraat Mainport Logistiek en zorg voor nieuwe publicaties (doorwerking richting onderzoek en werkveld)
The carbon dioxide emissions of aviation play an important role in many studies and databases. But unfortunately, a detailed and reliable overview of emission factors, and algorithms to calculate these based on factors like seating class, airline type, and aircraft type, did not exist for the Dutch aviation sector. This study calculated such emissions for a sample of over 5000 international flights in 2019 from the 5 Dutch main airports. The data about the flights were gathered from FlightRadar and enriched with seating capacities specific to the airline performing ten flights. in this way, emissions could be assigned to each of the four seating classes (economy, economy-plus, business and first). By aggregating the data to airline types and distance of the flight, algorithms were developed that help researchers and policy-makers to calculate the emissions. Societal IssueThe carbon footprint of Dutch aviation is about 10% of the total footprint. To prevent the world to exceed 1.5 degrees C and enter 'dangerous climate change', emissions need to decline to zero before 2050. This study helps assess and understand current aviation emissions from Dutch airports.Benefit to societyThe results were an update of emissions factors as used by the funding organisation, MilieuCentraal, and the official emission factors list (https://www.co2emissiefactoren.nl/lijst-emissiefactoren/).
Client: European Institute of Innovation and Technology (EIT) The European Institute of Innovation & Technology, a body of the European Union founded to increase European sustainable growth and competitiveness, has set up a number of Knowledge and Innovation Communities (KIC). One of these Communities is on climate change (Climate-KIC). In 2013, Climate-KIC in the Netherlands approved funding for the IMPACT project (IMPlementation & Adoption of Carbon footprint in Tourism travel packages). This ‘pathfinder’ project aimed to assess the viability of and market for a comprehensive carbon calculator. Such a calculator would enable enterprises in the wider travel industry to determine the carbon dioxide emissions, the main cause for climate change, of tourism products and include ‘carbon management’ in their overall policy and strategy. It is generally expected the cost for fuel and carbon will significantly rise in the near en medium future. The calculator will not only cover flights, but also other transport modes, local tourism activities and accommodations. When this pathfinder project finds interest for carbon management within the sector, we aim to start a much larger follow-up project that will deliver the calculator and tools. The IMPACT project was coordinated by the research institute Alterra Wagenigen UR, the Netherlands. Partners were: - Schiphol Airport Group, Amsterdam, The Netherlands- Technical University Berlin, Germany- TEC Conseil, Marseille, France- TUI Netherlands, Rijswijk, The Netherlands- NHTV Breda University for Applied Sciences, The NetherlandsThe project ran from September 2013 to February 2014.
