+603-2779 1479
general@cream.my
English
|
Malay
Home
About Us
Objectives & Our Story
Our People
Board of Trustee
Top Management
Organisation Structure
Directory
Product & Services
Research & Development
Double Tax Deduction
Industry Consultancy and Engagement
Assessment
Certification
CREAM Certification Services
CREAM SustainBuild Mark
Lab Testing
Forensic
Inspection & Sampling
Certificate of Approval
CPA/Technical Opinion
Journal Publication
MCRJ
Contractor's Quality Management System
Publication
Research & Development
Manual/Guidelines
Quality, Safety & Professionalism
Productivity
Building Information Modelling (BIM)
Industrialised Building System (IBS)
International Research Grant
Malaysian Construction Research Journal (MCRJ)
CREAM E-Magazine
Seminar & Workshop Materials
Technical Opinion Report
Construction 4.0 Strategic Plan (2021-2025)
Events & Activities
Calendar 2024
CIC 2024
CREAM Webinar Series 2024
Bulletin
News & Announcements
Integrity & Governance
Gallery
Contact Us
Contact Information
Enquiry
Career
home
>
Publication
>
Publication
>
Malaysian Construction Research Journal (MCRJ)
>
Regular Issues
>
MCRJ Volume 25 No. 2 2018
MCRJ Volume 25 No. 2 2018
Format
Hardback / 117 pages
ISSN Number
1985 - 3807
eISSN Number
2590 - 4140
Download PDF
Please enter valid quantity.
Email
Product Description
Welcome to the twenty-fifth (25 ) issue of Malaysian Construction Research Journal (MCRJ). In this issue, we are pleased to include eight papers that cover wide range of research area in construction industry. The editorial team would like to express our sincere gratitude to all contributing authors and reviewers for their contributions, continuous support and comments. In this issue: As sustainability has become a vital element in building development, Muhammad Syukri Imran et al., investigated the applicability of hydronic radiant cooling system charged with night cooled water in combination with Earth Tube Heat Exchanger (ETHE) to cool down a residential building in Malaysia. The hybrid system is found to meet the thermal comfort that building occupants desire and improve the indoor operative temperature by using natural heat sink sources such as the night sky and cooler ground. This allows the hybrid system to save 95% energy, as shown in a simulation. The results of the study are further explained in this paper.
Frequently Purchase Together
MCRJ Volume 29 No. 3 2019
MCRJ Volume 21 No. 1 2017
MCRJ Volume 4 No. 1 2009
MCRJ Volume 42 No.1 2024
MCRJ Volume 8 No. 1 2011
MCRJ Volume 26 No. 3 2018