FIVE LOW COST METHODS TO IMPROVE ENERGY EFFICIENCY ON REVERBERATORY FURNACES

被引:0
|
作者
Belt, Cynthia K. [1 ]
Peterson, Ray D. [2 ]
Bequette, David [1 ]
机构
[1] Super Ind Int, 1901 Borick Dr, Fayetteville, AR 72701 USA
[2] Aleris Int, Rockwood, TN 37854 USA
来源
ENERGY TECHNOLOGY 2010: CONSERVATION, GREENHOUSE GAS REDUCTION AND MANAGEMENT, ALTERNATIVE ENERGY SOURCES | 2010年
关键词
Energy; Furnace;
D O I
暂无
中图分类号
X [环境科学、安全科学];
学科分类号
08 ; 0830 ;
摘要
With a need to cut production costs in the metals industry, cost savings from energy efficiency improvements are critical. Opportunities can be found by reviewing furnace systems and practices so that the melting and holding processes operate at the highest energy efficiency. Many of the changes can be implemented with a minimum of expense or capital investment. This paper will review several low cost methods to optimize energy efficiency on reverberatory melting or holding furnaces. These five methods (furnace utilization, idle procedures, fire rate, controls, furnace pressure) will be explained and information given to implement these changes. Included are several rules-of-thumb and benchmarks for aluminum reverb furnaces.
引用
收藏
页码:71 / 79
页数:9
相关论文
共 50 条
  • [21] ENERGY EFFICIENCY OF ULTRA-LOW-COST HOUSING
    MATHEWS, EH
    RICHARDS, PG
    VANWYK, SL
    BUILDING AND ENVIRONMENT, 1995, 30 (03) : 427 - 432
  • [22] State-of-the-Art Methods to Improve Energy Efficiency of Ships
    Hueffmeier, Johannes
    Johanson, Mathias
    JOURNAL OF MARINE SCIENCE AND ENGINEERING, 2021, 9 (04)
  • [23] Hybridization and energy storage high efficiency and low cost
    Saadaoui, Khalil
    Rhazi, Kaoutar Senhaji
    Aboudou, Abderraouf
    2020 6TH IEEE CONGRESS ON INFORMATION SCIENCE AND TECHNOLOGY (IEEE CIST'20), 2020, : 33 - 41
  • [24] ENERGY EFFICIENCY OF FORMAL LOW-COST HOUSING
    MATHEWS, EH
    VANWYK, SL
    RICHARDS, PG
    ROUSSEAU, PG
    RENEWABLE ENERGY, 1994, 5 (5-8) : 1231 - 1234
  • [25] Methods for Industry to Measure and Improve the Energy Efficiency of Utility Systems
    Hippinen, Ilkka
    Ruohonen, Pekka
    Sivill, Leena
    Federley, Jaana
    Hakala, Juha
    Manninen, Jussi
    Ahtila, Pekka
    PRES 2010: 13TH INTERNATIONAL CONFERENCE ON PROCESS INTEGRATION, MODELLING AND OPTIMISATION FOR ENERGY SAVING AND POLLUTION REDUCTION, 2010, 21 : 349 - 354
  • [26] A survey on software methods to improve the energy efficiency of parallel computing
    Jin, Chao
    de Supinski, Bronis R.
    Abramson, David
    Poxon, Heidi
    DeRose, Luiz
    Dinh, Minh Ngoc
    Endrei, Mark
    Jessup, Elizabeth R.
    INTERNATIONAL JOURNAL OF HIGH PERFORMANCE COMPUTING APPLICATIONS, 2017, 31 (06): : 517 - 549
  • [27] Additional methods to improve the energy efficiency of oil pipeline transportation
    Lukmanov, Marat R.
    Semin, Sergey L.
    Fedorov, Pavel, V
    NAUKA I TEHNOLOGII TRUBOPROVODNOGO TRANSPORTA NEFTI I NEFTEPRODUKTOV-SCIENCE & TECHNOLOGIES-OIL AND OIL PRODUCTS PIPELINE TRANSPORTATION, 2020, 10 (05): : 558 - 565
  • [28] STUDIES ON A COST-EFFICIENT TECHNIQUE FOR INCREASING FURNACES ENERGY EFFICIENCY. ENVIRONMENTAL ASPECTS
    Minea, Alina Adriana
    METALURGIA INTERNATIONAL, 2009, 15 (10): : 53 - 57
  • [29] Life-cycle cost analysis of energy efficiency design options for residential furnaces and boilers
    Lutz, J
    Lekov, A
    Chan, P
    Whitehead, CD
    Meyers, S
    McMahon, J
    ENERGY, 2006, 31 (2-3) : 311 - 329
  • [30] Energy efficiency in an era of low cost energy time for a new paradigm?
    Des Rosiers, JP
    Schipper, L
    EXPERIMENTING WITH FREER MARKETS: LESSONS FROM THE LAST 20 YEARS AND PROSPECTS FOR THE FUTURE - VOL 1, CONFERENCE PROCEEDINGS, 1998, : 77 - 84
12345