References
- Ahn, B.L., C.Y. Jang, S.B. Leigh, S. Yoo, and H. Jeong. 2014. Effect of LED lighting on the cooling and heating loads in office buildings. Applied Energy 113:1484–9.
- ASHRAE. 2005. ASHRAE Guideline, Engineering Analysis of Experimental Data. Atlanta: ASHRAE.
- ASHRAE. 2013a. ASHRAE Handbook-Fundamentals, Chapter 4 Heat Transfer. Atlanta: ASHRAE.
- ASHRAE. 2013b. ASHRAE Handbook-Fundamentals, Chapter 18 Nonresidential Cooling and Heating Load Calculations. Atlanta: ASHRAE.
- ASTM. 2013a. ASTM Standard C1046-95, Standard Practice for in-Situ Measurement of Heat Flux and Temperature on Building Envelope Components. West Conshohocken, PA: ASTM International.
- ASTM. 2013b. ASTM Standard C1155-95, Standard Practice for Determining Thermal Resistance of Building Envelope Components from in-Situ Data. West Conshohocken, PA: ASTM International.
- Bessho, M., and K. Shimizu. 2012. Latest trends in LED lighting. Electronics and Communications in Japan 95(1):1–7.
- Choi, J.H., and M.W. Shin. 2012. Thermal investigation of LED lighting module. Microelectronics Reliability 52(5):830–5.
- Chung, T.S., and D.L. Loveday. 1998. Numerical modeling of lighting/HVAC interaction in enclosures part I: Light and heat transfer in a room. HVAC&R Research 4(1):67–84.
- DOE. 2007. Thermal management of white LEDs. U.S. Department of Energy http://apps1.eere.energy.gov/buildings/publications/pdfs/ssl/thermal_led_feb07_2.pdf.
- DOE. 2014. Solid-State Lighting: LED Basics. Energy Efficiency & Renewable Energy, Building Technologies Office. Washington, DC: U.S. Department of Energy. http://www1.eere.energy.gov/buildings/ssl/sslbasics_whyssl.html
- Dong, T. and N. Narendran. 2009. Understanding heat transfer mechanisms in recessed LED luminaires. Proceedings of the 9th International Conference on Solid State Lighting, San Diego, CA, August 2009,SPIE 7422:74220V-1-10.
- Fisher, D.E., and C. Chantrasrisalai. 2006. Lighting Heat Gain Distribution in Buildings. Report ASHRAE 1282-RP. Atlanta: ASHRAE.
- Gelfo, M. 2013. Energy codes and lighting design. http://www.csemag.com/single-article/energy-codes-and-lighting-design/98ccaa8ffff0b4e042d899698a7f6edd.html
- Hosni, M.H., and B.T. Beck. 2009. Update to Measurements of Office Equipment Heat Gain Data. Report ASHRAE 1482-RP. Atlanta: ASHRAE.
- Hosni, M.H., B.W. Jones, J.M. Sipes, and Y. Xu. 1997. Test Method for Measuring the Heat Gain and Radiant/Convective Split from Equipment in Buildings. Report ASHRAE 822-RP. Atlanta: ASHRAE.
- Hosni, M.H., B.W. Jones, and H. Xu. 1999. Measurement of Heat Gain and Radiant/Convection Split from Equipment in Buildings. Report ASHRAE 1055-RP. Atlanta: ASHRAE.
- Khanna, V.K. 2014. Fundamentals of Solid-State Lighting—Leds, Oleds, and Their Applications in Illumination and Displays. Boca Raton, FL: CRC Press.
- Lin, Z., S. Wang, J. Huo, Y. Hu, J. Chen, W. Zhang, and E. Lee. 2011. Heat transfer characteristics and LED heat sink application of aluminum plate oscillating heat pipes. Applied Thermal Engineering 31:2221–9.
- Liu, R., X. Zhou, S.J. Lochhead, Z. Zhong, C.V. Huynh, and G.M. Maxwell. 2016. Low energy LED lighting heat gain distribution in buildings part II: LED luminaire selection and test results. Science and Technology for the Built Environment.
- Yu, S., K. Lee, and S. Yook. 2011. Optimum design of a radial heat sink under natural convection. International Journal of Heat and Mass Transfer 54:2499–505.