Internal Environment of Buildings PDF

Summary

This document provides an overview of building indoor environments, focusing on the factors affecting occupant well-being. It covers climate control, air quality, and lighting, highlighting how a comfortable and healthy indoor environment is critical to occupant health and reduces stress levels.

Full Transcript

School of Architecture & the Built Environment

**MECHANICAL SERVICES BE6812**

4. **[Internal Environment of Buildings]**

Objectives: This topic provides an overview of the building's indoor (or
internal) environment. It covers the need for a pleasant environment,
the factors that would likely affect the pleasantness of the indoor
environment and the instruments that are used to measure these factors.

**4.1 [Necessity of a Pleasant Indoor Environment]**

Buildings provide an environment for the occupants to perform a desired
task. We spend most of our time indoor working, relaxing or simply
resting. The indoor environment should therefore, be as pleasant and
comfortable as possible.

The indoor environment comprises the physical space itself, it also
include another factor called the ***indoor climate.***

This indoor climate includes:

- the air quality ( ventilation and air movement )

- the thermal conditions ( temperature and relative humidity )

- the acoustic condition (sound level)

- the lighting condition (both quality and quantity)

The indoor environment (especially for buildings that are not totally
enclosed, i.e. naturally ventilated buildings) are affected to a certain
extent by the quality of the external environment, i.e. the type of
climate and quality of the outdoor air.

However, if due considerations are given at the design stage to the
building layout, use of building materials and the incorporation of
mechanical and electrical services, the indoor environment in any
building can be made as pleasant as possible to the occupants.

A good indoor environment enhances:-

- occupant's health.

- occupant's comfort.

- deterioration of occupant's health.

- less satisfied tenant (in a rental property)

- creating negative publicity

Failure to respond promptly and effectively to indoor environmental
problems can lead to :-

- deterioration of the furnishing (eg. carpet, curtain, etc).

- deterioration of the equipment.

- deterioration of occupant's health;

- less satisfied tenant (in a rental property);

- creating negative publicity

To achieve a healthy indoor environment, the building will need to
operate in an environmentally conscious manner throughout the building's
life cycle, i.e. from the initial design to the construction, occupancy
and maintenance of a building.

**4.2 UN SDG 3: Good Health and Well-Being**

UN SDG Goal 3 aims to ensure healthy lives and promote well-being for
all at all ages. This goal encompasses reducing mortality rates,
combating diseases, promoting mental health, and improving health
systems

[The Importance of Indoor Environments]

People spend around 90% of their time indoors, making the quality of
these environments critical to overall health. Poor indoor conditions
can lead to respiratory problems, increased stress levels, and reduced
productivity.

A well-maintained indoor environment can significantly impact physical
and mental health by ensuring good air quality, adequate lighting,
comfortable temperature, and noise control. By addressing these factors,
buildings can help reduce the risk of respiratory issues, stress, and
other health problems, thereby promoting overall well-being.

Poor indoor air quality, often caused by pollutants like mold, dust, and
chemicals, can lead to respiratory issues and other health problems.
Adequate lighting, comfortable temperature, and humidity levels are
essential for physical comfort and mental well-being. Additionally,
minimizing noise pollution can reduce stress and improve sleep quality.
Ensuring a healthy indoor environment involves regular maintenance,
proper ventilation, and the use of non-toxic materials.

- **Indoor Air Quality**: Poor indoor air quality can lead to various
health issues, including respiratory problems, allergies, and even
cardiovascular diseases. Sustainable buildings focus on improving
ventilation, reducing indoor pollutants, and using non-toxic
materials to enhance air quality.

- **Natural Lighting and Ventilation**: Access to natural light and
proper ventilation can significantly impact mental and physical
health. Buildings designed with ample natural light and good airflow
can reduce stress, improve mood, and enhance overall well-being.

- **Thermal Comfort**: Maintaining a comfortable indoor temperature is
crucial for health and productivity. Sustainable buildings often
incorporate energy-efficient heating and cooling systems to ensure a
stable and comfortable indoor climate.

- **Noise Reduction**: Excessive noise can lead to stress, sleep
disturbances, and other health issues. Sustainable building designs
often include soundproofing measures to create a quieter and more
peaceful indoor environment.

- **Access to Clean Water**: Ensuring access to clean and safe water
within buildings is essential for health. Sustainable buildings
often incorporate water purification systems and efficient water
management practices.

By addressing these aspects, sustainable buildings contribute to
achieving SDG 3 by creating healthier indoor environments that promote
the well-being of occupants.

**4.3 [Factors Affecting the Indoor Climate]**

\(a) [Ventilation]

Ventilation is the process of providing
\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ and the \_\_\_\_\_\_\_\_\_\_\_\_

of stale air from a building. The amount of ventilation depends on the
indoor air

movement and the air change rate. Ventilation is required to maintain
good

\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_.

\(b) [Thermal Condition]

The human body needs to lose heat to the surrounding environment in
order to keep the

body at a constant temperature. The rate of heat loss will depend on the
\_\_\_\_\_\_\_\_\_\_\_\_

and the \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ of the
surrounding air.

\(c) [Acoustic Condition]

Excessive exposure to high sound levels in an indoor environment may
affect the

occupants of a building.

\(d) [Lighting Condition]

Indoor lighting comes from both natural daylight and artificial
lighting. Poor quality of

light may produce colour distortion. Excessive or insufficient lighting
levels may

result in \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ and
\_\_\_\_\_\_\_\_\_\_\_\_\_\_.

**4.4 [Instruments Used to Determine These Factors]**

+-----------------+-----------------+-----------------+-----------------+
| S/No. | Factor | Unit | Instrument |
+=================+=================+=================+=================+
| 1. | Air Movement. | m/s | ![hot |
| | | | wire](media/ima |
| | *The rate of | | ge2.png) |
| | air flow in a | | |
| | room. It helps | | imagesCAS41N58 |
| | to increase the | | |
| | heat loss from | | |
| | the body by | | |
| | convection.* | | |
+-----------------+-----------------+-----------------+-----------------+
| 2. | Air | °C | ![digital |
| | Temperature. | | thermometer](me |
| | | | dia/image4.png) |
| | *The air | | |
| | temperature | | |
| | refers to the | | |
| | average | | |
| | temperature of | | |
| | the air inside | | |
| | a room.* | | |
+-----------------+-----------------+-----------------+-----------------+
| 3. | Mean Radiant | °C | Description: |
| | Temperature | | globe |
| | (MRT) | | thermometer.jpg |
| | | | |
| | *The MRT is the | | |
| | average effect | | |
| | of radiation | | |
| | from the | | |
| | surrounding | | |
| | surfaces inside | | |
| | a room.* | | |
+-----------------+-----------------+-----------------+-----------------+
| 4. | Relative | \% | ![whirling |
| | Humidity (RH) | | hygro2](media/i |
| | | | mage6.png) |
| | *The RH of a | | |
| | sample of air | | |
| | is the ratio of | | |
| | the actual | | |
| | amount of | | |
| | moisture in the | | |
| | air compared to | | |
| | the maximum | | |
| | amount of | | |
| | moisture the | | |
| | air can hold at | | |
| | that | | |
| | temperature.* | | |
+-----------------+-----------------+-----------------+-----------------+
| 5. | Sound Level | Decibel (dB) | slm2 |
| | | | |
| | *Sound is the | | |
| | pressure | | |
| | variation in a | | |
| | medium and is | | |
| | measured by the | | |
| | Sound Pressure | | |
| | Level (SPL)* | | |
+-----------------+-----------------+-----------------+-----------------+
| 6. | Lighting Level | lux (lx) | ![luxmeter2](me |
| | | | dia/image8.png) |
| | *It is | | |
| | determined by | | |
| | measuring the | | |
| | illumination | | |
| | level.* | | |
+-----------------+-----------------+-----------------+-----------------+