Volume 7, Issue 5 (Suppl)

J Fundam Renewable Energy Appl, an open access journal

ISSN: 2090-4541

Renewable Energy 2017

July 24-25, 2017

Page 23

Notes:

conference

series

.com

July 24-25, 2017 Vancouver, Canada

International Conference on

Renewable Energy and Resources

Building integrated active and passive solar design

T

he interest in zero carbon building developments is increasing year by year. This makes it important to maximize the

renewable power outputs and thus favors the use of hybrid generating systems. Combined active and passive solar design

is an evolving science in building technology. Traditionally, building facade is one crucial element in architecture. Nowadays,

it has escalating importance in services engineering owning to its significant influence on the engineering system performance

and energy use. Building integrated solar devices may be installed either at the building facade or on the roof. The system can

be designed as invisible, aesthetically appealing or appearing as an architectural concept. Advances in the development of

multi-functional photovoltaic/thermal (PV/T) facades may provide an important stimulus for architectural expression. On the

other hand, the design of extensively-glazed building is a worldwide architectural trend. At this end, the PV ventilated glazing

technology offers substantial energy saving opportunities through air conditioning load reduction, more favorable daylight

penetration and solar energy utilization. On the other hand in the liquid-flow window option, a thermosyphon-induced liquid

stream flows within the cavity to the heat exchanger for feed water pre-heating. The building integrated active and passive

solar designs then ask for the consideration of all building components and services systems at one shot, well at the project

commencement stage. In other words, site planning, aesthetic design, system equipment and construction material selection,

financing, construction, commissioning and long term operation and maintenance have to be well coordinated. These become

alternative challenges to be overcome.

Biography

Tin-Tai Chow has received his PhD from the University of Strathclyde in Scotland. He is currently the Associate Professor and Director of the Building Energy and

Environmental Technology Research Unit at the City University of Hong Kong. He has 400 academic publications, including over 130 SCI journal articles and with

over 4,000 Scopus citations. His Scopus H-index reaches 35. He has been serving as a Member of many Journal Editorial Boards, such as the

Journal of Building

Performance Simulation

. He also contributed many reputable international conferences as committee member and invited speakers. He holds Fellow Membership

in many professional institutions, such as FASHRAE and FCIBSE.

bsttchow@cityu.edu.hk

Tin-Tai Chow

City University of Hong Kong, Hong Kong

Tin-Tai Chow, J Fundam Renewable Energy Appl 2017, 7:5 (Suppl)

DOI: 10.4172/2090-4541-C1-031