Proactive energy management saves money and time.Building owners and managers are increasingly challenged to operate their buildings in a cost-effective manner, more so as the power market moves toward real-time pricing. When operating in a deregulated market, it is essential to take every opportunity to manage electricity consumption in order to avoid short-term spikes spikes see peplomer. during peak-demand periods. Seizing these opportunities requires proactive management and an effectively designed and well-maintained mechanical system. Here are some steps that can reduce energy costs. Adjust space temperature set points. Energy Conservation Construction Codes typically call for daytime set points of 68 degrees F during the heating season and 78 degrees F during the cooling season, yet many buildings typically maintain daytime space temperatures of 72 to 75 degrees F year-round. That additional level of comfort requires more power consumption. Facility managers should educate and seek the buy-in of tenants to gradually adjust set points to code, especially during periods of peak demand. For example, a setting of 78 degrees at 50-percent RH should provide acceptable comfort when the outside temperature is 90. Make sure the mechanical system operates on setback setback In architecture, a steplike recession in the profile of a high-rise building. Usually dictated by building codes to allow sunlight to reach streets and lower floors, the building must take another step back from the street for every specified added height interval. control in unoccupied zones to the greatest extent possible. Use preventive maintenance The routine checking of hardware that is performed by a field engineer on a regularly scheduled basis. See remedial maintenance. preventive maintenance - (PM) To bring down a machine for inspection or test purposes. See provocative maintenance, scratch monkey. . As mechanical equipment and control devices age, performance declines. Review operation of existing systems, implement preventive maintenance programs, and repair or replace components in a timely manner to assure continued reliability and efficiency of systems. In extreme cases, in which no regular maintenance has been performed, a system overhaul can generate a payback Payback The length of time it takes to recover the initial cost of a project, without regard to the time value of money. in three years or less. Seek energy independence. Utilize heating and cooling equipment that can use multiple fuels--electricity, gas, or fuel oil--to allow operational flexibility and manage utility costs during periods of energy price volatility. Consider installing or retrofitting with combination gas/oil-fired boilers and electric/gas/steam-driven chillers. With proper planning, alternate energy sources can be cost-effectively implemented in plant equipment to provide the greatest flexibility. Consider on-site generation of electric and thermal energy--via gas or steam turbines Steam turbine A machine for generating mechanical power in rotary motion from the energy of steam at temperature and pressure above that of an available sink. By far the most widely used and most powerful turbines are those driven by steam. , engine generators, fuel cells, or micro turbines--not only to reduce electrical peaks and better manage power purchases, but to reduce thermal energy thermal energy Internal energy of a system in thermodynamic equilibrium (see thermodynamics) by virtue of its temperature. A hot body has more thermal energy than a similar cold body, but a large tub of cold water may have more thermal energy than a cup of boiling purchases. Viable facilities typically have at least one of the following operating conditions: (1) lower-cost fuel source compared to electricity, (2) a need for improved power quality and/ or reliability, (3) opportunity for waste heat recovery, and/or (4) extended hours of operation. Consider thermal storage to shift plant operations to off-peak utility hours, producing chilled water or ice during the night and drawing off that stored capacity during the day to meet the load. Optimize optimize - optimisation System Efficiency. Facility managers should review the comparative energy consumption of their heating and cooling systems cooling systems for housed animals include spraying of roofs with water, evaporative pads with fans, foggers and misters; for pastured animals shelter from the sun by trees or artificial shade devices and cooling ponds are used. . Reductions in energy consumption of up to 40% can be potentially achieved through proper design and operation of energy efficient equipment. Negotiate better prices. Facilities that can manage their consumption profiles to minimize short-term peaks can more aggressively negotiate reduced energy costs. Multiple properties can also use bulk purchases to improve unit pricing unit pricing n. The pricing of goods on the basis of cost per unit of measure. . Prepare to seize emerging opportunities. Older building management control systems look for operating alarms and maintain set points, and that's about it. Predictive or real-time system controls, available today, measure actual operating conditions as a function of time-of-day and ambient Surrounding. For example, ambient temperature and humidity are atmospheric conditions that exist at the moment. See ambient lighting. conditions. These controllers can then determine optimal operation of plant equipment based on equipment efficiency, cost of fuels, and predictive load changes. Similarly, systems with remote monitoring (protocol) remote monitoring - (RMON) A network management protocol that allows network information to be gathered at a single computer. Whereas SNMP gathers network data from a single type of Management Information Base (MIB), RMON 1 defines nine additional MIBs that provide a and control capabilities enable the building manager to benchmark one facility against similar buildings in the owner's real estate portfolio and make operational adjustments or diagnose diagnose /di·ag·nose/ (di´ag-nos) to identify or recognize a disease. di·ag·nose v. 1. To distinguish or identify a disease by diagnosis. 2. system problems in a timely manner. In the near future, wireless instrumentation will significantly reduce the cost of installation both for new construction and retrofits. Given the changes in the power industry, it is more important now than ever before to consider the demand-and supply-side opportunities to effectively manage building operations. BY JOHN HETTINGER ASSOCIATE PATRNER SYSKA HENNESSY GROUP |
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