Commercial Vehicle Air Consumption: Simulation, Validation and Recommendation

Commercial Vehicle Air Consumption: Simulation, Validation and Recommendation

This report details the work done in a master thesis project. The project was conducted at the Brake Performance Department at Scania CV AB. The project involves the development of a numerical model (in Matlab) that calculates and predicts air consumption in a truck under different drive cycles. The...

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Main Authors: Karanja, Bethuel, Broukhiyan, Parsa
Format: Others
Language:English
Published: KTH, Maskinkonstruktion (Inst.) 2017
Subjects:
Numerical model
air consumption
pneumatic system
simulation
brake
air suspension
Numerisk modell
Luftförbrukning
Pneumatiskt System
Simulering
Broms
Luftfjädring
Mechanical Engineering
Maskinteknik
Online Access:http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-209657
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record_format oai_dc
spelling ndltd-UPSALLA1-oai-DiVA.org-kth-2096572017-06-22T05:34:59ZCommercial Vehicle Air Consumption: Simulation, Validation and RecommendationengLuftförbrukning i kommersiella fordon: Simulering, validering och rekommendationerKaranja, BethuelBroukhiyan, ParsaKTH, Maskinkonstruktion (Inst.)KTH, Maskinkonstruktion (Inst.)2017Numerical modelair consumptionpneumatic systemsimulationbrakeair suspensionNumerisk modellLuftförbrukningPneumatiskt SystemSimuleringBromsLuftfjädringMechanical EngineeringMaskinteknikThis report details the work done in a master thesis project. The project was conducted at the Brake Performance Department at Scania CV AB. The project involves the development of a numerical model (in Matlab) that calculates and predicts air consumption in a truck under different drive cycles. The report first details tests and experiments done so as to acquire the necessary information for the development of the model. The report then presents the model that was created and delves into tests that were conducted for its validation. A model is created that allows the user to select different component combinations on the trucks along with different loading scenarios and drive cycles. Finally the model is used to evaluate air consumption in trucks during particularly strenuous cycles. The model developed is found to be reliable and accurate to with 7% with regard to amount of air consumed. With its help, several recommendations on how air consumption in commercial vehicles can be improved are made. The best components’ combination is also found and presented. I denna rapport beskrivs ett examensarbete som genomfördes på bromsavdelningen på Scania CV AB. Projektet innefattar utveckling av en numerisk modell (i Matlab) som beräknar och förutspår luftförbrukningen i en lastbil under olika körcykler. I rapporten beskrivs det tester och experiment som gjordes för att ta fram nödvändiga uppgifter för utvecklingen av modellen. Sedan presenteras modellen som skapades och alla valideringstester som genomfördes. Modellen är gjord så att användaren kan kombinera olika komponentkombinationer för lastbilar med olika lastningskonfigurationer och körcykler. Slutligen används modellen för att utvärdera luftförbrukningen i lastbilar under särskilt ansträngande körcykler. Den utvecklade modellen visade sig vara pålitlig och korrekt med en felmarginal på 7% med avseende på mängden luft som konsumeras. Med dess hjälp kunde flera rekommendationer ges om hur luftförbrukningen i kommersiella fordon kan förbättras. De bästa komponentkombinationerna hittades också och presenteras i denna rapport Student thesisinfo:eu-repo/semantics/bachelorThesistexthttp://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-209657Examensarbete MMK 2017:99 MKN 194application/pdfinfo:eu-repo/semantics/openAccess
collection NDLTD
language English
format Others
sources NDLTD
topic Numerical model
air consumption
pneumatic system
simulation
brake
air suspension
Numerisk modell
Luftförbrukning
Pneumatiskt System
Simulering
Broms
Luftfjädring
Mechanical Engineering
Maskinteknik
spellingShingle Numerical model
air consumption
pneumatic system
simulation
brake
air suspension
Numerisk modell
Luftförbrukning
Pneumatiskt System
Simulering
Broms
Luftfjädring
Mechanical Engineering
Maskinteknik
Karanja, Bethuel
Broukhiyan, Parsa
Commercial Vehicle Air Consumption: Simulation, Validation and Recommendation
description This report details the work done in a master thesis project. The project was conducted at the Brake Performance Department at Scania CV AB. The project involves the development of a numerical model (in Matlab) that calculates and predicts air consumption in a truck under different drive cycles. The report first details tests and experiments done so as to acquire the necessary information for the development of the model. The report then presents the model that was created and delves into tests that were conducted for its validation. A model is created that allows the user to select different component combinations on the trucks along with different loading scenarios and drive cycles. Finally the model is used to evaluate air consumption in trucks during particularly strenuous cycles. The model developed is found to be reliable and accurate to with 7% with regard to amount of air consumed. With its help, several recommendations on how air consumption in commercial vehicles can be improved are made. The best components’ combination is also found and presented. === I denna rapport beskrivs ett examensarbete som genomfördes på bromsavdelningen på Scania CV AB. Projektet innefattar utveckling av en numerisk modell (i Matlab) som beräknar och förutspår luftförbrukningen i en lastbil under olika körcykler. I rapporten beskrivs det tester och experiment som gjordes för att ta fram nödvändiga uppgifter för utvecklingen av modellen. Sedan presenteras modellen som skapades och alla valideringstester som genomfördes. Modellen är gjord så att användaren kan kombinera olika komponentkombinationer för lastbilar med olika lastningskonfigurationer och körcykler. Slutligen används modellen för att utvärdera luftförbrukningen i lastbilar under särskilt ansträngande körcykler. Den utvecklade modellen visade sig vara pålitlig och korrekt med en felmarginal på 7% med avseende på mängden luft som konsumeras. Med dess hjälp kunde flera rekommendationer ges om hur luftförbrukningen i kommersiella fordon kan förbättras. De bästa komponentkombinationerna hittades också och presenteras i denna rapport
author Karanja, Bethuel
Broukhiyan, Parsa
author_facet Karanja, Bethuel
Broukhiyan, Parsa
author_sort Karanja, Bethuel
title Commercial Vehicle Air Consumption: Simulation, Validation and Recommendation
title_short Commercial Vehicle Air Consumption: Simulation, Validation and Recommendation
title_full Commercial Vehicle Air Consumption: Simulation, Validation and Recommendation
title_fullStr Commercial Vehicle Air Consumption: Simulation, Validation and Recommendation
title_full_unstemmed Commercial Vehicle Air Consumption: Simulation, Validation and Recommendation
title_sort commercial vehicle air consumption: simulation, validation and recommendation
publisher KTH, Maskinkonstruktion (Inst.)
publishDate 2017
url http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-209657
work_keys_str_mv AT karanjabethuel commercialvehicleairconsumptionsimulationvalidationandrecommendation
AT broukhiyanparsa commercialvehicleairconsumptionsimulationvalidationandrecommendation
AT karanjabethuel luftforbrukningikommersiellafordonsimuleringvalideringochrekommendationer
AT broukhiyanparsa luftforbrukningikommersiellafordonsimuleringvalideringochrekommendationer
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