Overview
Buildings standing today were designed for a climate that no longer exists. For decades, engineers relied on historical weather data, standard safety factors, and design conditions that were considered conservative and reliable. Cooling plants were sized for peak summer days that rarely occurred. Mechanical rooms were safely placed in basements. Electrical systems were assumed to operate within predictable temperature limits. Flood events were considered rare. Heatwaves were temporary inconveniences. Those assumptions are now failing. Across the world, hospitals, data centers, commercial towers, hotels, laboratories, and residential buildings are experiencing something their designers never anticipated: sustained extreme heat, repeated heatwaves, unprecedented humidity, urban heat island amplification, and sudden flooding events that directly attack the heart of MEP systems. Chillers trip. Cooling towers lose capacity. AHUs cannot maintain supply air conditions. Generators overheat during blackouts. Basement mechanical rooms fill with water. BMS sensors give false readings in extreme humidity. Pumps cavitate. Electrical rooms become thermal traps. Buildings that were once considered robust are now fragile under new environmental stress. This book is not about sustainability. It is not about net-zero targets, energy savings, or green design philosophies. This book is about survival engineering. It addresses the uncomfortable reality that most existing buildings - especially in dense urban centers - cannot be demolished and rebuilt. They must be retrofitted to survive a climate that is changing faster than codes, standards, and design guides can adapt. The concept explored in these pages is Resilience Retrofitting: the practical engineering approach to hardening existing MEP systems against extreme weather events that are becoming the new normal. You will not find theory here. You will find practical engineering methods to: Re-evaluate outdated design temperatures Increase cooling capacity without replacing entire plants Retrofit air systems that collapse under extreme heat Flood-proof mechanical and electrical rooms Protect hydronic systems, pumps, and pipework under stress Reinforce electrical and BMS systems during climate events Prioritize retrofit actions for maximum resilience This book is written for engineers and facility professionals who are already seeing these failures in real buildings and are asking: ""How do we make this building survive the next heatwave or flood?"" Because the next one is coming sooner than expected.
Full Product Details
Author: Charles Nehme
Publisher: Independently Published
Imprint: Independently Published
Dimensions:
Width: 15.20cm
, Height: 0.90cm
, Length: 22.90cm
Weight: 0.231kg
ISBN: 9798247424383
Pages: 168
Publication Date: 08 February 2026
Audience:
General/trade
,
General
Format: Paperback
Publisher's Status: Active
Availability: Available To Order
We have confirmation that this item is in stock with the supplier. It will be ordered in for you and dispatched immediately.
