Showing total 4 results

1. Effect of Turbulence Boundary Conditions to CFD Simulation

Author

Ossi Kaario, Eero Antila, and Kalle Lehto

Subjects

Physics::Fluid Dynamics, Cfd simulation, business.industry, K-epsilon turbulence model, Turbulence, Turbulence modeling, Environmental science, K-omega turbulence model, Mechanics, Boundary value problem, Computational fluid dynamics, business

Abstract

The CFD simulation of diesel combustion needs as accurate initial values as possible to be reliable. In this paper the effect of spatial distribution of state and turbulence values at intake valve closure to those distributions prior to SOI is studied. Totally five cases of intake and compression stroke simulations are run. The only change between cases is the intake boundary condition of turbulence. In the last case the average values of p, T, k, ε and swirl number at intake valve closure are used as initial values to compression simulation. The turbulence in the engine cylinder is mainly generated in the very fast flow over the intake valves. In this paper the effect of boundary conditions of turbulence to its level at intake valve closure is studied. Several cases are simulated with different boundary conditions of turbulence. Also the swirl number is compared to experimental value. The discharge coefficients over the valves calculated from simulation results are compared to measured values. Simulated engine is a single-cylinder research engine is based on a commercial 6-cylinder off-road common rail diesel engine.

Published

2011

2. Comparison of diesel and natural gas bus performance

Author

Nils Olof Nylund, Juhani Laurikko, V. Karvonen, and Hannu Kuutti

Subjects

Diesel fuel, Natural gas, business.industry, Environmental science, SDG 7 - Affordable and Clean Energy, business, Automotive engineering

Abstract

Over the years, natural gas has been promoted as a clean-burning fuel, especially for transit buses. A decade ago one could claim that natural gas buses deliver significant emission benefits over diesel buses, especially regarding particulate emissions. The spread in nitrogen oxide emissions has always been significant for natural gas engines, high for lean-burn engines and low for three-way catalyst equipped stoichiometric engines. With the introduction of US 2010 and Euro VI (effective as of 2014) exhaust emission regulations, independent of the fuel, the regulated emissions of all engines have been brought close to zero level. This means that the advantage of natural gas as a clean fuel is diminishing, especially in a situation in which electric transit buses are also entering the market. The motivation to use natural gas could still be diesel fuel substitution and to some extent, also reduction of greenhouse gas emissions. However, looking at the full fuel cycle and also taking into account methane leakages in various part of the fuel cycle, natural gas is, at its best, comparable to diesel regarding greenhouse gas emissions, not better. One of the reasons for this is the low fuel efficiency of spark-ignited gas engines compared to diesel engines. To deliver an advantage regarding greenhouse gas emissions, the efficiency of the gas engines should be significantly improved. Alternatively natural gas should be replaced with biogas. The paper presents a comparison of diesel and natural gas buses for regulated emissions, selected unregulated emission components, greenhouse gas emissions and energy efficiency.

Published

2014

3. Bus fleet operation on renewable paraffinic diesel fuel

Author

Arno Amberla, Reijo Mäkinen, Nils-Olof Nylund, Kimmo Erkkilä lng, and Pirjo Saikkonen

Subjects

Diesel fuel, bus fleet operation, business.industry, fuel performance, Environmental science, SDG 7 - Affordable and Clean Energy, business, Paraffinic renewable diesel, Automotive engineering, Renewable energy

Abstract

Helsinki Region Transport, Neste Oil, Proventia Emission Control and VTT Technical Research Centre of Finland carried out a 3.5 year PPP venture "OPTIBIO" to demonstrate the use of paraffinic renewable diesel (hydrotreated vegetable oil HVO) in city buses. The fleet test in Metropolitan Helsinki involving some 300 buses is the largest one in the world to demonstrate this new fuel. The fuels were a 30 % blend of renewable diesel and 100 % renewable diesel. This paper describes the overall set-up of the project, gives an overview of the emission results as well as presents experience from the field.

Published

2011

4. Simulation of the loading dynamics of a log forwarder

Author

Sami Arola, Simo Pekka Leino, Heikki Handroos, and Tommi Hammarberg

Subjects

Axle, Engineering, Mathematical model, Hydraulics, law, business.industry, Forwarder, Axle load, Structural engineering, business, law.invention

Abstract

The main purpose of this investigation was to develop the virtual prototype of the whole log forwarder by using ADAMS dynamic system simulation software. The virtual prototype contains hydraulic systems of the loader (except the grapple), mechanisms (steering, bogie axles), tire-terrain interaction, the log loader with structural flexibility and the control systems of the loader. Then the virtual prototype was validated with a simple procedure describing loading dynamics.

Published

1998