logging in or signing up Kiln presentation Renato Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 628 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: February 12, 2008 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Slide1: PROCESS SIMULATIONS LTD. INNOVATIVE EQUIPMENT SOLUTIONS USING STATE OF THE ART PROCESS MODELING TECHNOLOGIESPSL PROCESS MODELING TECHNOLOGIES: PSL PROCESS MODELING TECHNOLOGIES PSL addresses and solves equipment design problems, operational performance, operator training, environmental compliance, and safety issues by applying modeling technologies to provide critical insight and internal views of the process graphical representation of functional relationships between process variables and input to reduce cost and increase profitsBENEFITS OF ADVANCED PROCESS MODELING: BENEFITS OF ADVANCED PROCESS MODELING Reduce operating costs Increase quality and quantity Environmental compliance Increases reliability of equipment Determine the root cause of problems Evaluate success of proposed retrofits Can evaluate “what if” scenariosDIRECT BENEFIT EXAMPLES: DIRECT BENEFIT EXAMPLES Reduced unscheduled shutdowns Recovery boiler: avoid water wash (0.5 million) Achieve environmental compliance Power boiler: reduced emission and particulate Reduce operational costs Lime kiln: avoid brick replacement (1 million) Improve operation Digester: better temperature distribution (more uniform cook)PSL PROCESS TOOLS: PSL PROCESS TOOLS Licensed UBC technology – State of the art 3-D process models Advanced specific sub-models for equipment Interactive viewing tools to show equipment behavior in real-time virtual reality All models developed in-house (source code) PSL LEADER IN 3-D PROCESS MODELING : PSL LEADER IN 3-D PROCESS MODELING Extensive experience in industrial process model development and application Proven ability to optimize equipment, solve complex operating problems, and improve operating training Leaders in real time process visualization Strong focus in industrial equipment in primary sectorUSAGE OF PSL PROCESS MODELING TECHNOLOGIES: USAGE OF PSL PROCESS MODELING TECHNOLOGIES Retrofits and New Equipment reduce capital investment risks testing of design before committing funds Process Engineering determine and solve immediate problems training of operators & reduce variations Corporate Headquarters relate variation of equipment performance for different plants converge faster to optimal usage of capital and human resources among various plantsPSL HISTORY: PSL HISTORY 1986 to present UBC modeling group (pulp and paper applications) 1993 PSL Incorporated Recovery Boilers 1995 Bark boilers, Hydrocyclones 1998 Headboxes, Lime kilns, Wood Kilns, Power Boilers 1999 Digesters, PSL ProcessCam Technology 2000 Gasifiers, Clarifiers, Training3-D PROCESS MODELING: 3-D PROCESS MODELINGPSL CLIENTS PULP & PAPER: PSL CLIENTS PULP & PAPER Weyerhaeuser Canadian Forest Products Anthony-Ross IAE Kværner Georgia Pacific Tasman Pulp Sandwell Weldwood AhlstromEQUIPMENT: EQUIPMENT Recovery Boilers Bark Boilers Power Boilers Lime Kilns Wood Kilns Digesters Headboxes Clarifiers Hydrocyclones Simulators Gasifiers Validation Equipment ScreensLIME KILN: LIME KILN 3-D steady-state lime kiln process model to predict the flow, heat transfer in the lime kiln, and product Use the model to solve problems in kiln operation and design CONCERNING ISSUES: ? CONCERNING ISSUES Kiln efficiency Lower fuel costs Burner characteristics Refractory life Dams and rings Stable operation Flame shape and position Lower residual carbonateWHY USE KILN 3-D MODELING: WHY USE KILN 3-D MODELING Model provides comprehensive information throughout kiln at relatively low cost Can evaluate “what if” scenarios to improve operation Supplements operator knowledge of lime kiln operations Assists mill managers in making decisions regarding kiln refits/replacements Assists manufactures in optimizing burner and kiln designsMODEL PREDICTIONS: MODEL PREDICTIONS Gas flow velocity fields Temperature distributions and heat transfer to wall surfaces and mud Gas species (e.g. H2, O2, N2, CO, CO2, H2O, CH4) distributions Pollutant emissions (e.g. NOx, TRS) Oil or solid fuel (tires, coke, coal) combustion and droplet trajectory Particulate emissionsMODEL PREDICTIONS: MODEL PREDICTIONS Burner type/settings influence Flame shape (with thermal buoyancy effects) Aerodynamic and thermal influence of NCG Chemical species distribution Heat release profile to product Field calculations at >100,000 interior points Detailed gas flow mixing and aerodynamics Hood shape and secondary air ports influence Primary/Secondary/Fuel ratio influenceVALUE AND BENEFITS: VALUE AND BENEFITS Validated and coupled combustion, convection, diffusion, and radiation models provide significantly more realistic solutions than non-thermal physical or mathematical models. Resulting predictions are used to: Identify and eliminate poor combustion conditions. Reduce fuel consumption by optimizing kiln efficiency Adjust Primary/Secondary/Fuel ratio and burner settings to maximize kiln efficiencyVALUE AND BENEFITS: VALUE AND BENEFITS Identify and eliminate thermal hot spots that lead to reduced brick liner lifetime Use results to develop strategies for reducing ring formation Identify and fix problems with kiln performance due to hood shape and secondary air ports location/size Evaluate NCG injection alternatives - optimize injection VALUE AND BENEFITS: VALUE AND BENEFITS Evaluate alternative fuels Minimize Emissions Optimize heat transfer to mud Couple to PSL’s user-friendly simulator technology to provide excellent technology transfer and training for operatorsEXCESS AIR, WALL HEAT, AND FUME HOOD: EXCESS AIR, WALL HEAT, AND FUME HOOD Normal Excess Air Low Excess Air Wall Heat Transfer Particle AnimationSlide21: TEMPERATURE PROFILESSlide22: VELOCITY PROFILESSlide23: FLAME PROFILESlide24: BURNER ANGLE 0º -5ºSlide25: NCG INJECTION No NCG With NCG Reduced HeatINFLUENCE OF BURNER ANGLE AND EXCESS AIR: INFLUENCE OF BURNER ANGLE AND EXCESS AIRSlide27: SIMULATION AND TRAININGSlide28: PROCESSCAM TECHNOLOGY Simulator Core Physical Model Measurements Operator experience Process knowledge Operational Simulators Training Simulators Virtual CamerasPROCESSCAM TECHNOLOGY: PROCESSCAM TECHNOLOGYPROCESSCAM BENEFITS: PROCESSCAM BENEFITS Simplified technology transfer Reduce equipment operating costs Provide more rapid solutions Improve operator training and safety Modeling available in “real time” “What If” mode of operator interaction Reduce variability in operationsVIRTUAL CAMERA: VIRTUAL CAMERA 3-D view of process occurring Immediate and easy way to see effect of input variations on flow, temperatures, chemical species, combustion Compliments, enhances, and challenges ways to view process TRAINING TOOL: TRAINING TOOL Operators can understand why some modes of operation are better than others Provide insight that would be impossible to obtain with traditional methods Enable realistic training outside the envelope of parameters characterizing normal operation New training scenarios can be programmed remotely Shorten startupsINPUT CONTROLS & 3D VIEWER: INPUT CONTROLS & 3D VIEWERCONCLUSIONS: CONCLUSIONS Process modelling can significantly improve industrial processes reduce cost; increase profits More opportunities than those currently being pursued Increased reliance in process modelling technologies for equipment design and operationFOR INFORMATION, SERVICE REQUESTS, OR PRODUCTS: FOR INFORMATION, SERVICE REQUESTS, OR PRODUCTS www.psl.bc.ca Brochures, Movies, Presentations Services and ProcessCam Products Email to info@psl.bc.ca Tel: (604) 822-1940 You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
Kiln presentation Renato Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 628 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: February 12, 2008 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Slide1: PROCESS SIMULATIONS LTD. INNOVATIVE EQUIPMENT SOLUTIONS USING STATE OF THE ART PROCESS MODELING TECHNOLOGIESPSL PROCESS MODELING TECHNOLOGIES: PSL PROCESS MODELING TECHNOLOGIES PSL addresses and solves equipment design problems, operational performance, operator training, environmental compliance, and safety issues by applying modeling technologies to provide critical insight and internal views of the process graphical representation of functional relationships between process variables and input to reduce cost and increase profitsBENEFITS OF ADVANCED PROCESS MODELING: BENEFITS OF ADVANCED PROCESS MODELING Reduce operating costs Increase quality and quantity Environmental compliance Increases reliability of equipment Determine the root cause of problems Evaluate success of proposed retrofits Can evaluate “what if” scenariosDIRECT BENEFIT EXAMPLES: DIRECT BENEFIT EXAMPLES Reduced unscheduled shutdowns Recovery boiler: avoid water wash (0.5 million) Achieve environmental compliance Power boiler: reduced emission and particulate Reduce operational costs Lime kiln: avoid brick replacement (1 million) Improve operation Digester: better temperature distribution (more uniform cook)PSL PROCESS TOOLS: PSL PROCESS TOOLS Licensed UBC technology – State of the art 3-D process models Advanced specific sub-models for equipment Interactive viewing tools to show equipment behavior in real-time virtual reality All models developed in-house (source code) PSL LEADER IN 3-D PROCESS MODELING : PSL LEADER IN 3-D PROCESS MODELING Extensive experience in industrial process model development and application Proven ability to optimize equipment, solve complex operating problems, and improve operating training Leaders in real time process visualization Strong focus in industrial equipment in primary sectorUSAGE OF PSL PROCESS MODELING TECHNOLOGIES: USAGE OF PSL PROCESS MODELING TECHNOLOGIES Retrofits and New Equipment reduce capital investment risks testing of design before committing funds Process Engineering determine and solve immediate problems training of operators & reduce variations Corporate Headquarters relate variation of equipment performance for different plants converge faster to optimal usage of capital and human resources among various plantsPSL HISTORY: PSL HISTORY 1986 to present UBC modeling group (pulp and paper applications) 1993 PSL Incorporated Recovery Boilers 1995 Bark boilers, Hydrocyclones 1998 Headboxes, Lime kilns, Wood Kilns, Power Boilers 1999 Digesters, PSL ProcessCam Technology 2000 Gasifiers, Clarifiers, Training3-D PROCESS MODELING: 3-D PROCESS MODELINGPSL CLIENTS PULP & PAPER: PSL CLIENTS PULP & PAPER Weyerhaeuser Canadian Forest Products Anthony-Ross IAE Kværner Georgia Pacific Tasman Pulp Sandwell Weldwood AhlstromEQUIPMENT: EQUIPMENT Recovery Boilers Bark Boilers Power Boilers Lime Kilns Wood Kilns Digesters Headboxes Clarifiers Hydrocyclones Simulators Gasifiers Validation Equipment ScreensLIME KILN: LIME KILN 3-D steady-state lime kiln process model to predict the flow, heat transfer in the lime kiln, and product Use the model to solve problems in kiln operation and design CONCERNING ISSUES: ? CONCERNING ISSUES Kiln efficiency Lower fuel costs Burner characteristics Refractory life Dams and rings Stable operation Flame shape and position Lower residual carbonateWHY USE KILN 3-D MODELING: WHY USE KILN 3-D MODELING Model provides comprehensive information throughout kiln at relatively low cost Can evaluate “what if” scenarios to improve operation Supplements operator knowledge of lime kiln operations Assists mill managers in making decisions regarding kiln refits/replacements Assists manufactures in optimizing burner and kiln designsMODEL PREDICTIONS: MODEL PREDICTIONS Gas flow velocity fields Temperature distributions and heat transfer to wall surfaces and mud Gas species (e.g. H2, O2, N2, CO, CO2, H2O, CH4) distributions Pollutant emissions (e.g. NOx, TRS) Oil or solid fuel (tires, coke, coal) combustion and droplet trajectory Particulate emissionsMODEL PREDICTIONS: MODEL PREDICTIONS Burner type/settings influence Flame shape (with thermal buoyancy effects) Aerodynamic and thermal influence of NCG Chemical species distribution Heat release profile to product Field calculations at >100,000 interior points Detailed gas flow mixing and aerodynamics Hood shape and secondary air ports influence Primary/Secondary/Fuel ratio influenceVALUE AND BENEFITS: VALUE AND BENEFITS Validated and coupled combustion, convection, diffusion, and radiation models provide significantly more realistic solutions than non-thermal physical or mathematical models. Resulting predictions are used to: Identify and eliminate poor combustion conditions. Reduce fuel consumption by optimizing kiln efficiency Adjust Primary/Secondary/Fuel ratio and burner settings to maximize kiln efficiencyVALUE AND BENEFITS: VALUE AND BENEFITS Identify and eliminate thermal hot spots that lead to reduced brick liner lifetime Use results to develop strategies for reducing ring formation Identify and fix problems with kiln performance due to hood shape and secondary air ports location/size Evaluate NCG injection alternatives - optimize injection VALUE AND BENEFITS: VALUE AND BENEFITS Evaluate alternative fuels Minimize Emissions Optimize heat transfer to mud Couple to PSL’s user-friendly simulator technology to provide excellent technology transfer and training for operatorsEXCESS AIR, WALL HEAT, AND FUME HOOD: EXCESS AIR, WALL HEAT, AND FUME HOOD Normal Excess Air Low Excess Air Wall Heat Transfer Particle AnimationSlide21: TEMPERATURE PROFILESSlide22: VELOCITY PROFILESSlide23: FLAME PROFILESlide24: BURNER ANGLE 0º -5ºSlide25: NCG INJECTION No NCG With NCG Reduced HeatINFLUENCE OF BURNER ANGLE AND EXCESS AIR: INFLUENCE OF BURNER ANGLE AND EXCESS AIRSlide27: SIMULATION AND TRAININGSlide28: PROCESSCAM TECHNOLOGY Simulator Core Physical Model Measurements Operator experience Process knowledge Operational Simulators Training Simulators Virtual CamerasPROCESSCAM TECHNOLOGY: PROCESSCAM TECHNOLOGYPROCESSCAM BENEFITS: PROCESSCAM BENEFITS Simplified technology transfer Reduce equipment operating costs Provide more rapid solutions Improve operator training and safety Modeling available in “real time” “What If” mode of operator interaction Reduce variability in operationsVIRTUAL CAMERA: VIRTUAL CAMERA 3-D view of process occurring Immediate and easy way to see effect of input variations on flow, temperatures, chemical species, combustion Compliments, enhances, and challenges ways to view process TRAINING TOOL: TRAINING TOOL Operators can understand why some modes of operation are better than others Provide insight that would be impossible to obtain with traditional methods Enable realistic training outside the envelope of parameters characterizing normal operation New training scenarios can be programmed remotely Shorten startupsINPUT CONTROLS & 3D VIEWER: INPUT CONTROLS & 3D VIEWERCONCLUSIONS: CONCLUSIONS Process modelling can significantly improve industrial processes reduce cost; increase profits More opportunities than those currently being pursued Increased reliance in process modelling technologies for equipment design and operationFOR INFORMATION, SERVICE REQUESTS, OR PRODUCTS: FOR INFORMATION, SERVICE REQUESTS, OR PRODUCTS www.psl.bc.ca Brochures, Movies, Presentations Services and ProcessCam Products Email to info@psl.bc.ca Tel: (604) 822-1940