Presentation for the INCOSE Symposium 2011 Denver, CO USA1 Systems Practices for Sustainability Walter Sobkiw.

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Presentation transcript:

Presentation for the INCOSE Symposium 2011 Denver, CO USA1 Systems Practices for Sustainability Walter Sobkiw

Presentation for the INCOSE Symposium 2011 Denver, CO USA2 Quadrennial Defense Review (QDR) Report February 2010 From Crafting a Strategic Approach to Climate and Energy The U.S. Global Change Research Program –Composed of 13 federal agencies, reported in 2009 Climate-related changes being observed in every region of world, including US and its coastal waters Among physical changes are increases in –heavy downpours, rising temperature and sea level –rapidly retreating glaciers, thawing permafrost –lengthening growing seasons, lengthening ice-free seasons in oceans and on lakes and rivers, earlier snowmelt –alterations in river flows

Presentation for the INCOSE Symposium 2011 Denver, CO USA3 Quadrennial Defense Review (QDR) Report February 2010 Fort Carson, Colorado Army partnered with local energy provider Photovoltaic solar array on top of a closed landfill Provides energy to 540 homes

Presentation for the INCOSE Symposium 2011 Denver, CO USA4 Take Away What can systems engineering do to facilitate sustainable development and the policy and goals in this report

Presentation for the INCOSE Symposium 2011 Denver, CO USA5 Sustainability Brundtland Commission Meets the needs of the present without compromising the ability of future generations to meet their own needs

Presentation for the INCOSE Symposium 2011 Denver, CO USA6 Approaches Product driven –Products are a perfect fit in a particular niche of sustainability Technology driven –Magic technology solving a challenging sustainability issue Financial driven –Tax incentives or virtual markets will spur innovation and let business rise to the occasion of various sustainability needs Systems driven –Systems engineering to start to chip away at this problem Challenge - who will do the systems engineering?

Presentation for the INCOSE Symposium 2011 Denver, CO USA7 Systems Practices for Sustainability Sustainable V Diagram Community Sustainability Concept & Accountability Sustainable Requirements Technology Assessment, Innovation, and Stability Modeling and Prototyping Maintainability, Logistics, Safety, Reliability, Quality Life Cycle Cost Architecture Identification Tradeoffs and Selection The Context Diagram

Presentation for the INCOSE Symposium 2011 Denver, CO USA8 Traditional V Diagram System Requirements Component Requirements Implementation System Verification Unit Verification Traceability Concept of Operations System Validation Traceability Decomposition and Traceability Recombination and Integration Time When you look up it s requirements When you look down it s design Delivery Subsystem Requirements Subsystem Verification

Presentation for the INCOSE Symposium 2011 Denver, CO USA9 Sustainable V Diagram System Requirements Component Requirements Implementation System Verification Unit Verification Traceability Concept of Operations System Validation Traceability Decomposition and Traceability Recombination and Integration Time When you look up it s requirements When you look down it s design Delivery Operations Shutdown Disposal Community Sustainability Accountability Subsystem Requirements Subsystem Verification

Presentation for the INCOSE Symposium 2011 Denver, CO USA10 Community Sustainability Concept is not new Environmental impact studies –Ref: National Airspace System Engineering Manual, Federal Aviation Administration, V 3.1, Army Installation Sustainability Plans (ISPs) –Ref: Developing Headquarters Guidance for Army Installation Sustainability Plans in RAND Corporation –Army installations in early 2000s started to develop ISPs –RAND reviewed these plans and suggested a common template for moving forward Ref: Systems Practices as Common Sense, Walter Sobkiw, July 2011.

Presentation for the INCOSE Symposium 2011 Denver, CO USA11 Community Sustainability Proposed Content - stakeholders –Who are the stakeholders –What are the stakeholder needs –What are the key sustainability issues in this system –What are the sustainability goals in this system –What are the key sustainability and stakeholder requirements –What is the accountability path for poor sustainability Proposed Content - practices –Sustainable Requirements –Technology Assessment, Innovation, and Stability –Modeling and Prototyping –Maintainability, Logistics, Safety, Reliability, Quality –Life Cycle Cost –Architecture Identification, Tradeoff, and Selection

Presentation for the INCOSE Symposium 2011 Denver, CO USA12 Sustainable Requirements What new functional and more importantly performance requirements are needed moving forward? Perform literature searches, vendor searches and vendor assessments in alternative energy sources, transportation vehicles, fuels, etc. Find discriminators between various offerings Discriminators are new requirements categories For example in a wind farm –Minimum maximum useful wind speed –Watts per footprint area, linear height, unit of weight

Presentation for the INCOSE Symposium 2011 Denver, CO USA13 Possible General Sustainable Performance Requirements Packaging Carbon Footprint (PCF) Transport Carbon Footprint (TCF) Content Carbon Footprint (CCF) Packaging / Content Carbon Ratio (PCCR) Transport / Content Carbon Ratio (TCCR) Goal is to minimize total loads and ratios in system –If total load of PCF + TCF + CCF is minimized and yet packaging is so small that content is less than package, then question must be asked - is system violating basic common sense related to sustainability Ref: Systems Practices as Common Sense, Walter Sobkiw, July 2011.

Presentation for the INCOSE Symposium 2011 Denver, CO USA14 Technology Assessment, Innovation, Stability Technology assessment includes –Identifying technology maturity levels [Rogers 1962] –Determining Technology Readiness Levels (TRL) [NASA 2007, DOD TRA 2009] of various system elements When vendor solutions are identified and characterized –Performance requirements become candidates for improvement At this point systems integrator moves from commercial product consumer to technology developer while attempting to push technology development and growth

Presentation for the INCOSE Symposium 2011 Denver, CO USA15 Modeling and Prototyping Evaluate different architectures and technologies HOMER [NREL 2011] –Energy modeling for hybrid renewable energy systems –Conventional generators, co-generation, wind turbines, solar photo voltaic, hydropower, batteries, fuel cells, biomass, and other inputs –National Renewable Energy Lab (NREL) The Solar System Test and Engineering Site (SolSTES) –Integrate and test solar technologies and materials –Field test-bed in Moorestown, New Jersey at Lockheed Martin

Presentation for the INCOSE Symposium 2011 Denver, CO USA16 Maintainability, Logistics, Safety, Reliability, Quality Current systems are extremely maintainable, supportable, safe, reliable, and of high quality –Decades of evolution bought them to this state New systems based on displacement technology do not have luxury of decades of evolution –Must also be highly maintainable, supportable, safe, reliable, and of high quality This is a challenge

Presentation for the INCOSE Symposium 2011 Denver, CO USA17 Life Cycle Costs LCC = R+D+P+O+M+W+S+T Where: –R = Research –D = Development –P = Production –O = Operation –M = Maintenance –W = Waste –S = Shut Down and Decommissioning –T = Disposal Who pays for the Indirect Costs?

Presentation for the INCOSE Symposium 2011 Denver, CO USA18 Sustainability Architecture Tradeoff Criteria Air, land, water, sea, space, outer atmosphere environmental impact Water, land, air, noise, visual pollution Fuel and carbon sustainability Internal and external sustainability, regeneration Cost shifting (to other stakeholders) Technology maturity, stability, growth potential Model results, maintainability, produceability, supportability, quality Aesthetics, form, user acceptability Population growth, standard of living, social mobility, quality of life, happiness, survivability

Presentation for the INCOSE Symposium 2011 Denver, CO USA19 Architecture Depiction 1 Coal Gas Power Houses Solar Power OfficesRetail Wind Power Industry Hydro Power Nuclear Power Geo thermal Tidal Power Storage DISTRIBUTION Power Gas Vehicles Houses Solar Power OfficesRetail Wind Power Industry Propane Vehicles Electric Vehicles Geo thermal Tidal Power Storage DISTRIBUTION Vehicles Oil Gas Mining

Presentation for the INCOSE Symposium 2011 Denver, CO USA20 Architecture Depiction 2 Coal Gas Power Houses Solar Power OfficesRetail Wind Power Industry Hydro Power Nuclear Power Geo thermal Tidal Power Storage Power Gas Vehicles Propane Vehicles Electric Vehicles DISTRIBUTION Vehicles Oil Gas Mining Batteries Flywheels Pumped Storage Weights

Presentation for the INCOSE Symposium 2011 Denver, CO USA21 Architecture Tradeoff Value Systems –Financial value systems (e.g. lowest cost, greatest return on investment, highest profit, etc) –Some value a day at the beach more than at the mountains Tradeoff Criteria –Starts with advantages disadvantages lists Costs –Initial, life cycle costs, indirect costs, direct costs, cost shifting Measure of Effectiveness (MOE) = sum of tradeoff criteria / life cycle costs

Presentation for the INCOSE Symposium 2011 Denver, CO USA22 Sustainable City Context Diagram Wind Soil Biomass Water Sun City Bad Waste Minerals Imports Exports Recyclable Waste Is there a set of patterns that can be used to establish the context of a system when addressing sustainability?

Presentation for the INCOSE Symposium 2011 Denver, CO USA23 Links Books on amazon.com: –Sustainable Development Possible with Creative System Engineering, Walter Sobkiw, –System Practices as Common Sense, Walter Sobkiw, July 2011.