IPPAD has successfully addressed the following scientific objectives:
1. Developed an experimental database for the effects of three representative additives (detergent, soot reducer and ignition improver) for injection pressures up to 3,000 bar, fuel temperature up to critical point and three different fuels (surrogate Diesel, EU summer Diesel and low-quality Diesel).
2. Develop equations of state for Diesel physical properties and vapour liquid equilibrium (VLE) implemented in both newly-developed as well commercial, diffused interface mixing CFD spray models able to simulate simultaneously the in-nozzle flow and spray dispersion.
3. Performed experiments quantifying the effects of selected additives on soot formation processes; these have included ‘soot reducers’ and ‘ignition improvers’ on flame burners utilising pre-vaporised Diesel as well as ‘detergents’, for new and coked nozzles. Experiments have been performed in both CVC and optical engines.
4. Implemented the validated models in URANS and LES solvers and applied them for the prediction of in-nozzle flow, spray mixing, engine combustion and soot/NOx emissions.
5. In addition, the IPPAD team developed a training programme for the ESRs, which covered: (a) specialised training courses offered by the participating institutions; (b) network-wide training activities in the format of seminar, workshop, conference and summer school; (c) knowledge exchange with the members of the network through activities such as secondments and open events.