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  • New York University Cogeneration Plant, New York City
    NYU needed to repower its decades-old cogeneration system and cut emissions at its main campus in Lower Manhattan. The new gas turbine-based system cut the university's energy bills by $5 million a year and kept it going when Hurricane Sandy walloped the East Coast.
  • Pacific Klamath Energy Utilizes V-Cone Flow Meter to Solve Problem in Co-Generation Plant
    McCrometer matched both ends of the flow meter to the existing steam system piping dimensions and provided multiple taps for flow readings. With the aid of their sales and engineering departments we were guaranteed a flow accuracy of ±0.5 percent that included equations to assist in the setup and
  • Wastewater Plant Relies on Thermal Flow Meter for Co-Gen Power Gas Blending Process
    The Rahway Valley Sewerage Authority (RVSA),. which operates a large wastewater treatment plant in New Jersey, embarked on a green co-generation waste-to-energy project to power a portion of its operations. The plant performs primary, secondary, tertiary and sludge treatment processes in serving
  • Power Plant SCR Units and Ammonia Safety Measures
    boilers, co-generation, and combined cycle plants already use SCR or SNCR systems to comply with current and future NOx emission standards. An SCR system is installed in the flue work, often between the economizer and the air heater. An ammonia injection area is followed by a reactor section downstream
  • Energy Efficiency: The Gift that Keeps on Giving
    By Bill Swichtenberg, Senior Editor As a result, funding is available to help facilities based in New Jersey improve their energy efficiency. Both Merck and Roche availed themselves of this funding. At Merck s Rahway/Linden, N.J. plant, for example, the company leveraged support from the New
  • Wastewater Treatment Digester BioGas Flow Measurement
    of the co-generation engine system and to prevent the release of the potentially hazardous gas that might threaten plant personnel or send high levels of obnoxious odors into areas outside the plant. Such digester gas bag systems are designed as dome-shaped, engineered membrane stations to hold methane biogas
  • Energy Efficiency: The Gift that Keeps on Giving
    Operational Excellence & Lean Six Sigma When looking at programs from the site level, says John Parodi, the former senior manager of engineering at Roche s Nutley, N.J. plant and current director of energy, without corporate management buy-in, you are going nowhere. Clear and achievable
  • P.2) The 2005 Fuel Cell Seminar, Palm Springs, California, USA, November 14-18, 2005 | by Dennis Sieminski, P.E. | F C T | January 2006 | 7MS.com
    The 2005 Fuel Cell Seminar, Palm Springs, California, USA, November 14-18, 2005 UTC. A long-time leader and market presence in fuel cells, UTC has a wealth of experience in the DG space with its 200kW phosphoric acid fuel cell (PAFC) with up to 900K BTU/hr of heat for cogeneration applications

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  • Cogeneration: A user's guide
    6.3 Identifying an appropriate output for a cogeneration plant 74 .
  • Micro Cogeneration
    In this chapter, we will look at the different technical components of a micro cogeneration plant as well as the technologies available for micro cogeneration purposes.
  • http://dspace.mit.edu/bitstream/handle/1721.1/60603/EL_TR_1982_015.pdf?sequence=1
    This approach reflects the long-term uncertainties in the fuel and electric prices affecting those customer choices and the short-run uncertainties influencing cogeneration plant performance.
  • http://dspace.mit.edu/bitstream/handle/1721.1/35230/MIT-EL-78-039-04946737.pdf?sequence=1
    Engineering production and cost functions are developed for a simple cogeneration plant design, offering insights into the economies of scale and joint production problems involved in the choice between cogeneration and se- parated production alternatives.
  • Force-heat-coupling
    … 2 Aufstellungsverhältnisse/Gesamtanlagenumfang.................139 5.3.2.1 Dampfturbinentechnik....................................................141 5.3.2.2 steam boiler plants for steam-turbines-HKW .............144 5.3.3 designs and technical framework conditions Emissionen/Verbrennungsrückstände...................................158 for the Konzeptionierung of thermal power stations with Dampfturbinen..154 5 …
  • Power generation after Novellierung of the EEG
    Thermal power stations on base of gas turbines (5-10 MWel) ..................103 5.5 .
  • Practice book energy industry
    9.1 content, objective and conclusions .............................407 9.2 The principle of the force-heat-coupling ..................................408 9.2.1 designs of force-heat-coupling installations ................410 9.2.2 structure and driving manner of thermal power stations ....................410 9.2.3 …
  • Applied Industrial Energy and Environmental Management
    6.3 Types of Industrial Cogeneration Plants 398 .