Activity

  • Identifying Energy Saving Opportunities

    Jim Cahill
    Last week in a post, Reducing Demand Charges in Energy Bills , we highlighted the opportunity for process manufacturers and producers to optimize energy costs. Today, we’ll look at how to better identify these opportunities for energy savings. Emerson’s Bill Thackston explained to me that even in these current times of low energy prices that it is worth another look at your bill, comparing your year on year demand…

  • Identifying Energy Saving Opportunities

    Jim Cahill
    Last week in a post, Reducing Demand Charges in Energy Bills , we highlighted the opportunity for process manufacturers and producers to optimize energy costs. Today, we’ll look at how to better identify these opportunities for energy savings. Emerson’s Bill Thackston explained to me that even in these current times of low energy prices that it is worth another look at your bill, comparing your year on year demand…

  • Reducing Demand Charges in Energy Bills

    Jim Cahill
    The cost of electrical power has grown more complex over time. It used to be that your kilowatt-hours (kwh) consumed were tallied to arrive at the cost. As the metering has grown more sophisticated, variable rates have emerged based on peak energy usage, time of day, usage thresholds and more. I connected with Emerson’s Bill Thackston to learn about a meeting he recently attended on energy management information systems…

  • Reducing Demand Charges in Energy Bills

    Jim Cahill
    The cost of electrical power has grown more complex over time. It used to be that your kilowatt-hours (kwh) consumed were tallied to arrive at the cost. As the metering has grown more sophisticated, variable rates have emerged based on peak energy usage, time of day, usage thresholds and more. I connected with Emerson’s Bill Thackston to learn about a meeting he recently attended on energy management information systems…

  • Reducing Demand Charges in Energy Bills

    Jim Cahill
    The cost of electrical power has grown more complex over time. It used to be that your kilowatt-hours (kwh) consumed were tallied to arrive at the cost. As the metering has grown more sophisticated, variable rates have emerged based on peak energy usage, time of day, usage thresholds and more. I connected with Emerson’s Bill Thackston to learn about a meeting he recently attended on energy management information systems…

  • Reducing Demand Charges in Energy Bills

    Jim Cahill
    The cost of electrical power has grown more complex over time. It used to be that your kilowatt-hours (kwh) consumed were tallied to arrive at the cost. As the metering has grown more sophisticated, variable rates have emerged based on peak energy usage, time of day, usage thresholds and more. I connected with Emerson’s Bill Thackston to learn about a meeting he recently attended on energy management information systems…

  • Reducing Demand Charges in Energy Bills

    Jim Cahill
    The cost of electrical power has grown more complex over time. It used to be that your kilowatt-hours (kwh) consumed were tallied to arrive at the cost. As the metering has grown more sophisticated, variable rates have emerged based on peak energy usage, time of day, usage thresholds and more. I connected with Emerson’s Bill Thackston to learn about a meeting he recently attended on energy management information systems…

  • Reducing Demand Charges in Energy Bills

    Jim Cahill
    The cost of electrical power has grown more complex over time. It used to be that your kilowatt-hours (kwh) consumed were tallied to arrive at the cost. As the metering has grown more sophisticated, variable rates have emerged based on peak energy usage, time of day, usage thresholds and more. I connected with Emerson’s Bill Thackston to learn about a meeting he recently attended on energy management information systems…

  • Reducing Demand Charges in Energy Bills

    Jim Cahill
    The cost of electrical power has grown more complex over time. It used to be that your kilowatt-hours (kwh) consumed were tallied to arrive at the cost. As the metering has grown more sophisticated, variable rates have emerged based on peak energy usage, time of day, usage thresholds and more. I connected with Emerson’s Bill Thackston to learn about a meeting he recently attended on energy management information systems…

  • Clean Energy Smart Manufacturing Innovation Institute

    Jim Cahill
    Process manufacturers and producers are under constant pressure to improve performance to remain competitive and maintain ongoing profitability. Technology can help play a large role in increasing performance through reliability, production availability, energy and emissions reductions, improved safety and security, and overall production optimization. Advancements in technologies and work processes not only come from…

  • Clean Energy Smart Manufacturing Innovation Institute

    Jim Cahill
    Process manufacturers and producers are under constant pressure to improve performance to remain competitive and maintain ongoing profitability. Technology can help play a large role in increasing performance through reliability, production availability, energy and emissions reductions, improved safety and security, and overall production optimization. Advancements in technologies and work processes not only come from…

  • Clean Energy Smart Manufacturing Innovation Institute

    Jim Cahill
    Process manufacturers and producers are under constant pressure to improve performance to remain competitive and maintain ongoing profitability. Technology can help play a large role in increasing performance through reliability, production availability, energy and emissions reductions, improved safety and security, and overall production optimization. Advancements in technologies and work processes not only come from…

  • Clean Energy Smart Manufacturing Innovation Institute

    Jim Cahill
    Process manufacturers and producers are under constant pressure to improve performance to remain competitive and maintain ongoing profitability. Technology can help play a large role in increasing performance through reliability, production availability, energy and emissions reductions, improved safety and security, and overall production optimization. Advancements in technologies and work processes not only come from…

  • Energy Management-Plan Do Check Act

    Jim Cahill
    Plan. Do. Check. Act. From Wikipedia : PDCA ( plan–do–check–act or plan–do–check–adjust ) is an iterative four-step management method used in business for the control and continual improvement of processes and products. It is also known as the Deming circle/cycle/wheel , Shewhart cycle , control circle/cycle , or plan–do–study–act ( PDSA ). The ISO 50001:2011 global energy management standard , modeled after…

  • Energy Management-Plan Do Check Act

    Jim Cahill
    Plan. Do. Check. Act. From Wikipedia : PDCA ( plan–do–check–act or plan–do–check–adjust ) is an iterative four-step management method used in business for the control and continual improvement of processes and products. It is also known as the Deming circle/cycle/wheel , Shewhart cycle , control circle/cycle , or plan–do–study–act ( PDSA ). The ISO 50001:2011 global energy management standard , modeled after…

  • Energy Management-Plan Do Check Act

    Jim Cahill
    Plan. Do. Check. Act. From Wikipedia : PDCA ( plan–do–check–act or plan–do–check–adjust ) is an iterative four-step management method used in business for the control and continual improvement of processes and products. It is also known as the Deming circle/cycle/wheel , Shewhart cycle , control circle/cycle , or plan–do–study–act ( PDSA ). The ISO 50001:2011 global energy management standard , modeled after the…

  • Energy Management-Plan Do Check Act

    Jim Cahill
    Plan. Do. Check. Act. From Wikipedia : PDCA ( plan–do–check–act or plan–do–check–adjust ) is an iterative four-step management method used in business for the control and continual improvement of processes and products. It is also known as the Deming circle/cycle/wheel , Shewhart cycle , control circle/cycle , or plan–do–study–act ( PDSA ). The ISO 50001:2011 global energy management standard , modeled after the ISO…

  • Energy Management-Plan Do Check Act

    Jim Cahill
    Plan. Do. Check. Act. From Wikipedia : PDCA ( plan–do–check–act or plan–do–check–adjust ) is an iterative four-step management method used in business for the control and continual improvement of processes and products. It is also known as the Deming circle/cycle/wheel , Shewhart cycle , control circle/cycle , or plan–do–study–act ( PDSA ). The ISO 50001:2011 global energy management standard , modeled after the ISO…

  • Energy Management-Plan Do Check Act

    Jim Cahill
    Plan. Do. Check. Act. From Wikipedia : PDCA ( plan–do–check–act or plan–do–check–adjust ) is an iterative four-step management method used in business for the control and continual improvement of processes and products. It is also known as the Deming circle/cycle/wheel , Shewhart cycle , control circle/cycle , or plan–do–study–act ( PDSA ). The ISO 50001:2011 global energy management standard , modeled after the ISO…

  • Energy Management-Plan Do Check Act

    Jim Cahill
    Plan. Do. Check. Act. From Wikipedia : PDCA ( plan–do–check–act or plan–do–check–adjust ) is an iterative four-step management method used in business for the control and continual improvement of processes and products. It is also known as the Deming circle/cycle/wheel , Shewhart cycle , control circle/cycle , or plan–do–study–act ( PDSA ). The ISO 50001:2011 global energy management standard , modeled after the ISO…

  • Optimizing Sugar Mill Boiler Performance

    Jim Cahill
    Steam boilers are used in sugar mills to generate electricity and for heat in various stages of production, such as crystallization process . This process converts the sugar syrup into sugar crystals. Optimizing the performance of the boilers improves energy efficiency and reliability for this required heat and electricity. I caught up with Emerson’s Scott Pettigrew when he was in town last week and he shared the story…

  • Optimizing Sugar Mill Boiler Performance

    Jim Cahill
    Steam boilers are used in sugar mills to generate electricity and for heat in various stages of production, such as crystallization process . This process converts the sugar syrup into sugar crystals. Optimizing the performance of the boilers improves energy efficiency and reliability for this required heat and electricity. I caught up with Emerson’s Scott Pettigrew when he was in town last week and he shared the story…

  • Optimizing Sugar Mill Boiler Performance

    Jim Cahill
    Steam boilers are used in sugar mills to generate electricity and for heat in various stages of production, such as crystallization process . This process converts the sugar syrup into sugar crystals. Optimizing the performance of the boilers improves energy efficiency and reliability for this required heat and electricity. I caught up with Emerson’s Scott Pettigrew when he was in town last week and he shared the story…

  • Optimizing Sugar Mill Boiler Performance

    Jim Cahill
    Steam boilers are used in sugar mills to generate electricity and for heat in various stages of production, such as crystallization process . This process converts the sugar syrup into sugar crystals. Optimizing the performance of the boilers improves energy efficiency and reliability for this required heat and electricity. I caught up with Emerson’s Scott Pettigrew when he was in town last week and he shared the story…

  • Optimizing Sugar Mill Boiler Performance

    Jim Cahill
    Steam boilers are used in sugar mills to generate electricity and for heat in various stages of production, such as crystallization process . This process converts the sugar syrup into sugar crystals. Optimizing the performance of the boilers improves energy efficiency and reliability for this required heat and electricity. I caught up with Emerson’s Scott Pettigrew when he was in town last week and he shared the story…

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