Sentences with phrase «distribution system infrastructure»

An example is the design of a pilot in New Hampshire to test the use of distributed resources as an alternative to new distribution system infrastructure, she said.

Finding those ingredients — especially in parts of the world with limited infrastructure and poorly developed distribution systems — poses a major challenge.

The next farm bill should facilitate transitioning to organic with improved access to land and capital, investment in distribution systems and infrastructure, and targeted technical assistance.

Environmental water is needed because the Basin's river system is often placed under pressure because the natural movement, distribution, and quality of water is altered due to river regulation and infrastructure that was built to support burgeoning communities and agricultural production.

The village's finance committee approved the water rate hike Monday that members say is necessary for maintenance and infrastructure costs along the water distribution system that brings in Lake Michigan water.

In 2012, the group spearheaded a collaboration with industry and academic scientists to better quantify methane emissions and identify leaky infrastructure, from the wellhead all the way to the urban distribution system.

Rodgers adds: «It's essential to demonstrate that high - performance computing simulations can generate realistic results and our team will work with engineers to evaluate the computed motions, so they can be used to understand the resulting distribution of risk to infrastructure and ultimately to design safer energy systems, buildlings and other infrastructure.»

The crops most widely used in the world for food in many cases depend on particular combinations of soil type, climate, moisture, weather patterns and the infrastructure of equipment, experience and distribution systems.

Payroll Labor Distribution System has incorporated data integrity techniques into its infrastructure.

', together these programmes interrogated the systems and infrastructures embedded in networked communication, and how this affects distribution, flows of information and power, as well as language, community - building and identity formation.

Titled «The Future Is Here, It's Just Not Evenly Distributed» and «At the Backend», together these programmes interrogated the systems and infrastructures embedded in networked communication, and how this affects distribution, flows of information and power, as well as language, community - building and identity formation.

The greatest potential damage caused by space weather in economic terms would be the destruction of infrastructure required for continent - sized power distribution systems.

Leaks occur throughout the system; aging pipelines and distribution infrastructure are a common source of leaks in urban environments.

1 Executive Summary 2 Scope of the Report 3 The Case for Hydrogen 3.1 The Drive for Clean Energy 3.2 The Uniqueness of Hydrogen 3.3 Hydrogen's Safety Record 4 Hydrogen Fuel Cells 4.1 Proton Exchange Membrane Fuel Cell 4.2 Fuel Cells and Batteries 4.3 Fuel Cell Systems Durability 4.4 Fuel Cell Vehicles 5 Hydrogen Fueling Infrastructure 5.1 Hydrogen Station Hardware 5.2 Hydrogen Compression and Storage 5.3 Hydrogen Fueling 5.4 Hydrogen Station Capacity 6 Hydrogen Fueling Station Types 6.1 Retail vs. Non-Retail Stations 6.1.1 Retail Hydrogen Stations 6.1.2 Non-Retail Hydrogen Stations 6.2 Mobile Hydrogen Stations 6.2.1 Honda's Smart Hydrogen Station 6.2.2 Nel Hydrogen's RotoLyzer 6.2.3 Others 7 Hydrogen Fueling Protocols 7.1 SAE J2601 7.2 Related Standards 7.3 Fueling Protocols vs. Vehicle Charging 7.4 SAE J2601 vs. SAE J1772 7.5 Ionic Compression 8 Hydrogen Station Rollout Strategy 8.1 Traditional Approaches 8.2 Current Approach 8.3 Factors Impacting Rollouts 8.4 Production and Distribution Scenarios 8.5 Reliability Issues 9 Sources of Hydrogen 9.1 Fossil Fuels 9.2 Renewable Sources 10 Methods of Hydrogen Production 10.1 Production from Non-Renewable Sources 10.1.1 Steam Reforming of Natural Gas 10.1.2 Coal Gasification 10.2 Production from Renewable Sources 10.2.1 Electrolysis 10.2.2 Biomass Gasification 11 Hydrogen Production Scenarios 11.1 Centralized Hydrogen Production 11.2 On - Site Hydrogen Production 11.2.1 On - site Electrolysis 11.2.2 On - Site Steam Methane Reforming 12 Hydrogen Delivery 12.1 Hydrogen Tube Trailers 12.2 Tanker Trucks 12.3 Pipeline Delivery 12.4 Railcars and Barges 13 Hydrogen Stations Cost Factors 13.1 Capital Expenditures 13.2 Operating Expenditures 14 Hydrogen Station Deployments 14.1 Asia - Pacific 14.1.1 Japan 14.1.2 Korea 14.1.3 China 14.1.4 Rest of Asia - Pacific 14.2 Europe, Middle East & Africa (EMEA) 14.2.1 Germany 14.2.2 The U.K. 14.2.3 Nordic Region 14.2.4 Rest of EMEA 14.3 Americas 14.3.1 U.S. West Coast 14.3.2 U.S. East Coast 14.3.3 Canada 14.3.4 Latin America 15 Selected Vendors 15.1 Air Liquide 15.2 Air Products and Chemicals, Inc. 15.3 Ballard Power Systems 15.4 FirstElement Fuel Inc. 15.5 FuelCell Energy, Inc. 15.6 Hydrogenics Corporation 15.7 The Linde Group 15.8 Nel Hydrogen 15.9 Nuvera Fuel Cells 15.10 Praxair 15.11 Proton OnSite / SunHydro 15.11.1 Proton Onsite 15.11.2 SunHydro 16 Market Forecasts 16.1 Overview 16.2 Global Hydrogen Station Market 16.2.1 Hydrogen Station Deployments 16.2.2 Hydrogen Stations Capacity 16.2.3 Hydrogen Station Costs 16.3 Asia - Pacific Hydrogen Station Market 16.3.1 Hydrogen Station Deployments 16.3.2 Hydrogen Stations Capacity 16.3.3 Hydrogen Station Costs 16.4 Europe, Middle East and Africa 16.4.1 Hydrogen Station Deployments 16.4.2 Hydrogen Station Capacity 16.4.3 Hydrogen Station Costs 16.5 Americas 16.5.1 Hydrogen Station Deployments 16.5.2 Hydrogen Station Capacity 16.5.3 Hydrogen Station Costs 17 Conclusions 17.1 Hydrogen as a Fuel 17.2 Rollout of Fuel Cell Vehicles 17.3 Hydrogen Station Deployments 17.4 Funding Requirements 17.5 Customer Experience 17.6 Other Findings

It is completely logical for policy makers today to support the building of infrastructure (dams, sewers, electrical distribution systems, etc.) that will provide for adequate fresh water retention and for flood control in the event that future weather conditions are somewhat more severe that are being experienced today.

Smart grid communication infrastructure is basically the Internet for electricity transmission and distribution systems, with information technologies embedded throughout the system such as digital meters, remote sensors and data communications devices.

The Productivity Commission produces figures that show each 2kW air conditioning systems requires around $ 7,000 of added infrastructure investment — made up for $ 4,000 in distribution (in neighbourhoods), $ 1,400 in transmission (from the central coal fired power station), and $ 1,600 in generation costs (gas fired peakers).

A fairly broad set of potential expenditures exists for these funds, including: conservation, efficiency, eligible renewable energy, low carbon fuel advancement, renewable natural gas, electric vehicle (EV) infrastructure, EV sales incentives, demand response, transmission and distribution systems to support smart and distributed grids, and others.

This transformation will touch every aspect of city services and infrastructure including energy generation and distribution, heating and cooling systems, building energy efficiency, transportation, water and waste management, and the efficiency of city services such as street lighting.

Increasing investment in repairing old water infrastructure and improvement in water distribution systems are also driving the market for smart water grid.

With 7 billion people all needing water, yet all at varying degrees of proximity to sustainable water sources, technologies, infrastructure systems and income levels for affording clean water, the issue of reasonable pricing will be ranked up there with installing appropriate technologies for distribution.

HIGHLIGHTS OF QUALIFICATIONS • Expert in maintaining data acquisition systems and metering equipment • Track record of providing technical assistance to cooperatives regarding automated meter reading infrastructure and network environments • Adept at designing and tweaking electrical systems to improve and enhance power distribution • Competent at running tests on new systems for industrial launch

Coordinated regional efforts with adjoining governmental entities to include Native American tribes relative to regional public transit systems, water distribution / consumptive use matters pertaining to the Clean Water Act, waste water treatment infrastructure, economic development initiatives and legislative appropriation efforts

Transportation, Distribution, and Logistics Facility and Mobile Equipment Maintenance Health, Safety and Environmental Management Logistics Planning and Management Services Sales and Service Transportation Operations Transportation Systems / Infrastructure Planning, Management and Regulation Warehousing and Distribution Center Operations

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Tags for this Online Resume: Professional Services, SAN (Storage Area Network), Scheduling, Services, Structured Query Language, Support, Technical Support, Automation, Computer Analyst, Distribution, Infrastructure Planning, Service Recovery, Based Omaha, NE, World - Wide Travel from Omaha, NE, Relationship Management, Client Loyalty, Technical Project Management, Quality Assurance, Process Improvements, Risk Management, Mitigation, System Security, Data Integrity, Information Assurance, Staff Development, Mentoring, Employee Engagement, Cost - Containment, Streamlining Operations, Continuous Quality Improvement, Benchmarking, Emerging Technologies, Management Information Systems, Network Administration, Project Life Cycle, Software Development Life Cycle, Agile, Scrum, Real Time Data, Remote Systems Access, Microsoft Project, Visio, LAN, Networking, Cisco Routers / Switches, wireless, SSIS, Microsoft IIS web applications, SSL certificates, XSLT template Modification, SQL Tracing, Power Shell, Data Warehousing, Team builder

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