SRM Motor Takımı
SRM Engine Suite içten yanmalı motorlardan performans ve egzoz gazı emisyonlarının benzetimi için gerçek bir mühendislik tasarım aracıdır. Motorsiklet, yolcu arabası, motor spor araçları, kamyon, lokomotif, gemi ve güç üretimi gibi örnek uygulamalari içerir.
SRM Engine Suite yazılımımın entegre edilmesine karşın, bizim gelişen müşteri tabanımız yakıt karakteristikleri, motor tasarımı ve kontrol parametrelerinin eşsiz optimizasyonuna olanak sağlayan tasarım sürecine iyi doğrulanmış, dayanıklı ve modern alt model kitaplığına eklenmesi aracılığıyla faydalanmaktadır.
Bütün projeler ve ileri işlemler simulasyonlarınızı kurmak, veriyi dışarı aktarmak/görselleştirmek ve gelişmiş işlem sonrası analiz araçlarını çalıştırmak için sezgisel ve kullanıcı dostu olan CMCL Innovations şirketinin yeni geliştirilmiş SRM Engine Suite arayüzünün kullanımı aracılığıyla işlenir.
Chemical Mechanism Development
There are hundreds of chemical kinetic mechanisms of varying levels of detail, designed for multi-purposes or for very specific chemical processes.
Nevertheless these mechanisms may require further refinement/redesign to achieve;
º A faster result through simplification and reduction
º A result more appropriate for your specific applications
º Improvement in their performance based on user experience/experimental data
º The inclusion of further chemical species i.e. NOx, PM, other fuels
These improvements can be carried out directly by customers using our kinetics software tools. However our customers may wish to outsource these development activities to our expert engineers based at CMCL Innovations. If this is the case, please contact us.
º Advanced chemical model surrogates for diesel or gasoline fuels
º Chemical model surrogates for bio-conventional fuel blends
º Simple chemical model surrogate for diesel fuel for 3D CFD applications
º Advanced chemical model surrogate for dual fuel natural gas/diesel engine applications
º Practical fuel surrogates based on octane number data
º Titanium dioxide and silica material synthasis
Powertrain Simulation & Analysis
Simulation and analysis of complex systems and components is a crucial part of the design and development process, helping to ensure optimal performance while achieving key product aspirations for weight, package size and lifecycle cost. The team at CMCL Innovations have ten years of experience in the application of state-of-the-art analysis processes in design, enabling the implementation of highly innovative solutions to aggressively tight timescales.
º extensive library of CAE models, data, benchmark databases and design guidelines covering a wide range of applications
º access to the advanced suite of cmcl innovation CAE products for powertrain simulation as well as access to leading third party commercial analysis tools
º empirical and physics-based model development for fuels, combustion and emissions
º a decade of experience in producing tailor made solutions as either standalone solutions or plug-ins
º leading scientists and engineers from the world of combustion, chemically reactive flows and fluid dynamics
º software training services
As a technology-intensive, R&D-driven provider of software and services to the scientific and engineering industries, we are actively engaged in collaborative R&D programs in UK/Europe, India, Turkey, Japan and North America.
We are currently leading or participating as a specialised SME partner (small to medium enterprise) within several collaborative R&D programmes managed through the government/innovation calls (e.g., EU frameworks, TSB, DOE, ETI etc.). If you are working on a project or a proposal in areas/themes that cover energy, sustainable chemical processes, carbon abatement, powertrains, fuels, nanomaterials, information communication technology (ICT), data mining, model development and optimisation etc., please get in touch.
Consulting & Project Management Services
With its strong technical expertise and cross-domain experience, CMCL Innovations offers a wide range of consulting services to the industry, governments and academia, worldwide. In performing these services, CMCL Innovations meets customer requirements for shorter development schedules, high quality and reduced costs.
Key Benefits of Working with CMCL
º Access to a world-leading team of experts in mechanical and thermo-fluid analysis with cross-industry experience
º Delivery of fast, robust analysis to support key design decisions reducing testing requirement and problem resolution
º Validated workflow over many years of analysis experience, including quality and process reviews and audits
º Unrivaled experience across many applications within the automotive, clean energy and chemical process industry sectors.
Selected Consulting Projects
º Development of a simulator for analysing knock, misfire and stable engine operation in a dual fueled (CNG/diesel) IC engine a multinational OEM
º Designing a low-cost, ultra-low emission advanced IC engine for the Asian market Engine OEM
º Correlating fuels and IC engine performance characteristics for a variety of engine operation modes a European oil major
º Bespoke software development for an automotive control application a Tier 1 Japanese OEM supplier
º Techno-economic analysis of CO2 utilisation to produce high-value nutraceuticals, commodity chemicals and hydrocarbon fuels [UK government]
º Due diligence and evaluation of proposals for the establishment of a Cleantech Research Centre [Middle East].
Training & Teaching
On-going staff development is critical to maintaining a state-of-the-art workforce. We provide teaching and training to our customers in the following areas;
º IC engine combustion and emissions formation
º Chemical kinetics from fundamentals to practical applications
º Alternative fuelling concepts: biofuels, hydrogen, CNG, fuel-blends and dual fuels
º Autoignition, pre-ignition, knock in IC engines
º Coal and biomass based power generation
º CCS, CCU: CO2 capture, utilisation and storage
º data-driven modelling, uncertainty propagation analysis and surrogate model development
º Optimisation and intelligent design of experiments (DoE)
Examples of Recent Training Events
º A 1-day classroom and and virtual lab-based technical training entitled, Physics-based multi-cycle engine simulations IFP School (France), CTI (Germany), Cambridge University (UK)
º A 2-day on-site (at cmcl innovations) virtual engineering laboratory focusing on the modelling of fuels, combustion and emissions in IC engine applications
º A 1-day client-site technical training module for OEM engineers: Utilising chemical kinetics for powertrain engineering applications delivered at JLR, Toyota, Caterpillar, Navistar etc.
º International Energy Agency (IEA) GHG Carbon Capture and Storage (CCS) Summer School 2013: Techno-economics of Biomass for Power generation with CCS
º Advanced IC engine modelling: ECO-Engines 2006 Summer School, France.
kinetics: The Chemical Kinetics Model Builder
The team at CMCL Innovations is now proud to offer kinetics, directly to customers with full support from our experienced technical staff. This tool simplifies the experience of building, designing, maintaining,and applying chemical kinetics reaction models to engineering applications in the automotive/non-road, energy, and chemical processing industries. The kinetics tool enables you to design & develop your own solutions in an efficient, intuitive & flexible environment offering the following benefits and features:
º Efficient evaluation of process performance & emissions/species evolution within various reactor configurations in practical computational times.
º User friendly & intuitive graphical interface, that helps streamline workflow.
º Help & training from our experienced technical support staff.
º State-of-the-art chemical solvers, with access to our library of fuel models.
º Multi-Processor (MPI) support for shorter analysis time-scales.
º Advanced mechanism viewer enabling full visualisation of mechanism parameters.
º Accompanying training material examples accelerate the learning curve.
º Serial & Parallel batch running & analysis of multiple cases.
º A wide range of analysis tools including Sensitivity Analysis, Design of Experiments, and Particle Animations.
º Construct & simulate parameter sweeps through the use of sub-cases.
º A fully flexible API library compatible with FORTRAN and C++.
º A library of reactors suitable for all your simulation requirements.
º Full support for Windows Vista, 7, and 8 (for both 32 & 64 bit architectures).
º Full support for distributed network server applications.
º Multiple processing capability distributed as standard.
MoDS (Model Development Suite)
The Model Development Suite (MoDS) is an advanced software tool designed to simplify the model development process and gain more insight from any model, simulator or computer aided engineering (CAE) tool using advanced analysis techniques.
The software enables you to fully exploit your models through the application of an advanced suite of numerical and statistical tools. This process has been simplified through an intuitive user interface designed by our team around the needs and requirements of engineers, scientists and decision makers.
The software eases the automation of robust and technically challenging statistical analyses and can be used to highlight key trends and predictions in applications across multiple disciplines.
A subset of features includes
º Parameter estimation calibrate your model against existing data sets
º Process optimisation (single- and multi-objective) meet your design targets such as maximising efficiency and/or minimising cost
º Design of experiments (DoE) extract the maximum information about your model/process
º Uncertainty analysis find the parameters with the biggest uncertainties and/or propagate those uncertainties through your model
º Fast response/surrogate models dramatically reduce the cost of computationally expensive processes
The user interface supports the design process and guides you through the work-flow.
º Starting from an initial raw data exploration, MoDS supports querying and filtering of large data sets in multiple formats
º Help with your data selection through flexible plotting of the raw data and key subsets
º Configure and set-up the model or user defined mathematical expressions with intelligent error checks
º Execute and batch processing of the the model according to your selected chain of algorithms
º Flexible data collation: Post-processing, querying and plotting of model and algorithm outputs.
MoDS also enables you to further speed up the workflow with computational features such as automated tasks, scheduling, & multi-processor support (via MPI) as well as our technical support and experience with integration example applications.
The SRM Engine Suite
The SRM Engine Suite is a virtual engineering design tool for simulating the performance and exhaust gas emissions from internal combustion engines. Example applications have included motorcycle, passenger car, motor sport, truck, locomotive, marine and power generation.
Nevertheless these Through integrating the srm engine suite, our growing customer base has benefited by adding a well validated, robust and state-of-the-art library of sub-models to their design process enabling unrivaled optimisation of fuel characteristics and engine design and control parameters.
All projects & post-processing is handled through the use of CMCL Innovations newly improved SRM Engine Suite GUI, offering intuitive and user friendly methods to setup your simulations , export/visualise data, and run advanced post-processing analysis tools.
Through our on-going product development program and through customer feedback and projects, the tool has the following new capabilities.
º More reactors: Iso-thermal, liquid fuel injection, cetane test, octane test, oil droplet ignition engine, engine breathing, dual fuel engine.
º More fuel models: Hydrogen, toluene reference fuel, ethanol, dual fuel (natural gas & diesel).
º Fast solvers: Chemistry solvers (5-15 times speed-up), mixing and chemistry sub-model flexibility.
º Advanced fuels, combustion and emissions simulations using the srm engine suite
º Improved visualisations: Plot line, scatter, bar, pie, and raw tabular data, save custom charts, modify titles and colours, import *.csv files and compare with your simulations.
º Improved sensitivity analysis: Easy configuration, customisation and post processing.
º Advanced turbulence models: Accounting for swirl, tumble, injection and squish effects.
º More accurate particulate matter (PM) prediction: New wall impingement sub-model.
º Ignition delay matrix calculator including validation and error checking
º Improved work flow: batch running, parameter, case handling and error checking with support menus and visualisation.
º Reduced computational times compared to equivalent conventional CFD approach
º More robust predictive performance compared to conventional 1D thermodynamic simulation tools
º Fuel flexible with full intergration with the kinetics toolkit
º Applicable to applications of any size, from smallest utility engine to largest marine application
º Fully flexible to enable robust analysis of advanced and unconventional combustion concepts
º Full technical support, training and documentation.
º Full library of customisable in-cylinder sub-models for application to your engine.
º Predictive combustion and emissions simulations using detailed chemical kinetics.
º Accurate diesel combustion models with multiple direct injection events.
º Turbulent SI combustion and knock models (fully predictive and semi- empirical modes).
º Homogeneous Charge Compression Ignition (HCCI) / Low Temp Combustion (LTC) / Partially Premixed Compression Ignition (PPCI).
º Predictive turbulent mixing models for all combustion modes.
º Simulator accounts directly for in-cylinder stratification (injection events, heat transfer, emissions formation).
º Crank angle resolved combustion characteristics (heat release rate, combustion phasing and duration, and in-cylinder pressure).
º Advanced chemistry solvers enable the solution of detailed chemical kinetics.
º State-of-the-art models with validation published in well over twenty-five peer-reviewed journal articles.
º Thermal analysis Predictions of exhaust gas temperatures.
º Market-leading solution in identifying sources of exhaust gas emissions (CO, HC, NOx and PM).
º Analysis of chemical species including intermediates (OH, formaldehyde).
º Empirical models for simulation of PM emissions.
º Integrated detailed soot model: Detailed population balance soot model enables calculation of soot morphology, composition and detailed particle size distribution.
Advanced Chemical Kinetics
ºCarry out detailed analysis of in-cylinder composition distributions
ºFlexible fuels all sub models retain predictive capability through simultaneous solution of chemical kinetics.
ºCapable of simulating user-provided fuel models. e.g. conventional (diesel and gasoline) as well as alternative (natural gas, ethanol, biodiesel) fuels.
ºDefine your fuel composition and analyse the influence of multi-component blending.
ºSimulations of different fuel grades (CN, RON/MON) in context with engine performance.
ºUser our advanced diesel and gasoline fuel models, or import your own.
ºExtend your simulations to include engine gas exchange and breathing.
ºAccount for external EGR and see its impact on combustion and emissions.
ºSee the impact of combustion and emissions on typical engine performance metrics such as BMEP, IMEP, brake torque/power etc.