
Water and Energy Engineering for Sustainable Buildings Mihouse Project
By Varios AutoresLength2h 24m
About this audiobook
The Mihouse project is the result of an interinstitutional and interdisciplinary work developed by professors and students from the faculties of engineering, economic sciences and social communication of the Universidad Autónoma de Occidente (UAO) and architecture at the Universidad de San Buenaventura (USB) both located in Cali, Colombia. Within the framework of this project, students from the UAO Renewable Energy and lntegrated Water Resource Management research groups participated in this project, both in charge of the UAO professors. As a result of this project, two publications have been developed; the first one focused on sustainable architecture and bioclimatic architecture and the second one focused on water and energy engineering for sustainable buildings.
Audiobook details
GenreTechnology, Business and Economics
Length2 hrs 24 mins
Narrated byListen with 1,000+ voices
FormateBook with Audio
Publish dateJul 31, 2020
LanguageSpanish
Table of contents
1Introduction
28Lightweight Concrete
2Chapter 1 - Construction Design
29Thermal Conductivity
3Urban Scale
30Water Use Reduction
4Prototype Scale
31Innovation in Energy Efficiency
5Chapter 2 - Water Management System
32Innovation Through Energy Efficiency.
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6System Design
33Benefits of efficient selection of components of the electrical and photovoltaic system equipment.
7Design Criteria
34Benefits of deployment of control sensors step.
8Storage
35Use of Natural Light
9Rainwater Volume Calculation
36Use of Led Lighting
10Ground Water System
37Chapter 5 - Sustainability
11Drinking Water Tanks
38Introduction
12Plumbing System
39Water Strategies
13Water Budget
40Water Cycle
14Chapter 3 - Energy Management System
41Catchment
15Electrical System Design
42Distribution and use
16Solar Energy Resource
43Reuse
17Energy Efficiency Design Narrative
44Outputs
18Technical Project Manual
45Solid Waste Management
19Project Dimensions:
46Rainwater
20AC Systems
47Greywater
21Domestic Hot Water
48Solid waste
22Electrical Energy production
49Materials
23Energy Consumption
50Lightweight Concrete with Addition of Stone Coal (PC)
24Energy Balance
51Calculation of Ecological Footprint
25List of singular and innovative materials and systems
52Life Cycle Stage Analysis
26Chapter 4 - Innovation
53Making of materials
27Innovation in Engineering and Construction
54Solar Facilities