The Effects of Outdoor Source on Pollution Characteristics and Dynamic Changes of Particulate Matter in an Office

+e indoor air quality has a direct impact on human health. Particulate matter is one of the important factors affecting the indoor air quality. +e paper selects an office as the study object and studies the pollution characteristics and dynamic changes of indoor particulate matter in different outdoor pollution levels.+emass concentration of outdoor PM10 is used as the evaluation basis of the outdoor pollution level. +e outdoor PM10 concentration levels are divided into the range of 200–300, 300–400, 400–500, 500–600, 600–700 μg·m, individually. Firstly, the change characteristics of the mass concentration and the number concentration of the particulate matter in the five outdoor conditions are analyzed. Secondly, the maximum increase values and the maximum increase rates of the mass concentrations of different particle sizes in the five conditions are compared. +en, the penetration factors of the particulates in different sizes are compared among the five conditions. Finally, the correlation between indoor particulate matter and outdoor particulate matter is studied. +e study results show that the effect of outdoor infiltration has a great influence on the indoor PM1 mass concentration, and the penetrating factors of the particulate matter between 0.3 μm and 0.5 μm are higher than 0.6; their permeability is the most obvious.


Introduction
With the rapid development of economy and the continuous improvement of living standards, people's requirements for indoor environment are not only confined to indoor thermal comfort but also placed on the indoor particle pollution, namely, indoor air quality.According to the relevant data, a majority of people spend 70∼90% of their time indoors, especially for the elderly people and the disabled man [1][2][3].erefore, indoor air quality is directly related to the health of a human body [4,5].At present, indoor air quality has become an increasing concern topic in architecture, medical hygiene, building environment, real estate, etc. [6].It is also a research frontier of modern architectural science.
Particulate matter is one of the primary pollutants in indoor pollution [7].It is an important index to evaluate the indoor air quality.e size of indoor particles is usually expressed by aerodynamic diameter.A particle whose dynamics diameter is less than or equal to 100 μm is called a total suspended particle, a particle whose dynamics diameter is less than or equal to 10 μm is called an inhalable particle (PM10), a particle whose dynamics diameter is less than or equal to 2.5 μm is called a fine particle (PM2.5), and a particle whose dynamics diameter is less than or equal to 1.0 μm is PM1 [8].Particulate matter, especially PM2.5, which contains a variety of harmful substances, is the carrier of microbial survival.As PM2.5 can enter the deeper part of a human body, it causes great harm to human health [9].
Researches on the relationship between indoor and outdoor particulate matter concentrations show that the mass concentration of the particles entering the indoor environment is in the same order of magnitude as the mass concentration of the outdoor atmospheric particles [10][11][12].And the particles from the outdoor air are more harmful to the human body [9,13].us, the impact of outdoor pollution on indoor particulate matter must be considered.e outdoor particles enter the room through the air infiltration via doors and windows, the fresh air of natural ventilation, and personnel entering, and they will affect the concentration and pollution characteristics of indoor particulate matter.e state of indoor particulate matter is a dynamic process.
e changes are influenced by various factors.However, most of the literatures studied the pollution characteristics in a steady state.Analyzing the indoor particulate matter from the perspective of a dynamic state is more beneficial to understand the pollution characteristics of indoor particulate matter and put forward specific measures to improve the indoor air quality.
is paper takes an office in north China as the research object.Outdoor infiltration experiment and correlation experiment are conducted.
e experiment measures the changes of mass concentration and particle number concentration of indoor particulate matter in various conditions.
en, the pollution characteristics and dynamic changes of indoor particulate matter under different particulate concentrations are studied.e maximum increase values, the maximum increase rates, and the penetration factors are calculated and compared.Finally, the correlation between indoor particulate matter and outdoor particulate matter is studied.

Air Infiltration Experiment.
e experimental subject is an office on the third floor in a university office building in Baoding.
e office building is 100 m away from the trunk road in urban areas.e area of the office is 38.8 m 2 (7.6 m × 5.1 m), the door is 1.8 m 2 (0.9 m × 2.0 m), and the window is 4.2 m 2 (1.2 m × 0.87 m × 4); the floor is covered by the ordinary cement mortar.e landscape of the building is shown in Figure 1(a).e rectangle in Figure 1(a) represents the position of the experiment office, and the layout of the experiment office is shown in Figure 1(b).
According to the diagonal principle, the sampling point in the experiment was set in the center of the room.And it was set at 0.8 m above the floor level [14].e intelligent dust detector and laser particle counter were placed on both sides of the sampling point.
e experimental instruments are shown in Table 1.
ere are three ways for outdoor pollutants to enter the room: air infiltration via gaps of doors and windows, natural ventilation, and personnel entering.is study only considers air infiltration, and the door and windows were closed when the experiment was carried out.us, the outdoor pollution source entered the room through air infiltration.e outdoor wind condition is an important factor affecting the air infiltration.To ensure the unity of the experimental conditions, the experiment was conducted in sunny days and the windless or breezy days; that is, the influence of the wind condition on the experiment was neglected.
In the experiment, the mass concentration of PM10 of the outdoor atmosphere was used as the evaluation basis of the outdoor pollution level.
As the experiment duration is only two hours and the experiment was conducted in sunny days and the windless or breezy days, the outdoor PM10 mass concentration did not greatly change during the experiment duration (two hours).During the experiment of a certain condition of outdoor PM10 concentration, the outdoor PM10 concentration was also measured, and the outdoor PM10 concentration should be in the specific range; otherwise, the experiment at this condition of outdoor PM10 concentration should be reconducted again.
Before the experiment, the air purifier was used to purify the indoor particulate pollution concentration to a lower level.en, the influence of outdoor infiltration on indoor particulate matter was studied, respectively.e experiment time was set as two hours.As the intelligent dust detector requires the experimenter to manually change the cutting head of 1.0 μm, 2.5 μm, and 10 μm, the mass concentrations of PM1, PM2.5, and PM10 were measured every five minutes.Meanwhile, the laser particle counter recorded the particle number concentration of particles of 0.3-0.5 μm, 0.5-1.0μm, 1.0-2.5 μm, 2.5-5.0 μm, 5.0-10.0μm, and more than 10 μm every five minutes.

Correlation Experiment.
In order to further study the influence of outdoor infiltration on indoor particulate matter, the outdoor pollution concentration and the indoor pollution concentration were simultaneously measured in different days both in summer and in winter.In the experiment days, the window and door were kept closed for 12 hours.Both indoor and outdoor mass concentrations of PM1, PM2.5, and PM10 were measured by the intelligent dust detector.
One hundred thirty-six sets of data in summer and 75 sets of data in winter were collected.

Variation Characteristics of Indoor Particulate Matter
Concentration.Figures 2-6 show the curves of the indoor particulate matter concentrations changing with time when the outdoor mass concentrations of PM10 were 200-300, 300-400, 400-500, 500-600, and 600-700 μg•m −3 , respectively.From the figures, it is shown that the changing trends of the indoor particles in different outdoor pollution levels are similar.e changing trends of the indoor particle concentrations in 200-300 and 600-700 μg•m −3 are selected and analyzed in the paper.
Figure 2(a) shows the curves of the mass concentrations of the indoor particles changing with time when the outdoor mass concentration of PM10 is 200-300 μg•m −3 .e mass concentration of PM1 steadily increases.At the end of the experiment, its maximum value reaches 172 μg•m −3 , which is 80 μg•m −3 higher than its initial value.e mass concentrations of PM1-2.5 and PM2.5-10 fluctuate with time in a small range.At the end of the experiment, the mass 2 Advances in Civil Engineering concentration of PM1-2.5 is 9 μg•m −3 higher than its initial value.However, there is no signi cant increase for the mass concentration of PM2.5-10.Further analysis of experimental data shows that the particle number concentrations in the range of 0.5-1.0μm, 1.0-2.5 μm, and 2.5-5.0 μm all show a small increase.At the end of the experiment, their values are 1.2 × 10 7 , 1.5 × 10 5 , and 8.5 × 10 3 particles • m −3 higher than their initial values, respectively.
e number concentrations in the is may be due to the increase of particles in other size crowds out the space of larger particles.It can be seen that the effect of outdoor infiltration on the number concentration of particles in the range of 0.3-0.5 μm is the most significant.

Effects of Outdoor Source Penetration on the Indoor
Particulate Matter Concentration.In order to further compare the influence of outdoor pollution level on the indoor concentrations of different particle sizes, the maximum increase values and maximum increase rates of the mass concentrations of different particle sizes in different outdoor pollution levels are analyzed.e results are shown in Table 2.
As shown in Table 2, the penetration of outdoor particulate matter has significant influences on indoor concentration without indoor pollution sources.For PM1, the higher the concentration of outdoor particulate matter is, the greater the increase value of the indoor concentration is.However, for PM1-2.5 and PM2.5-10, the maximum increase values fluctuate.It indicates that the outdoor pollution level do not significantly affect the indoor concentrations of PM1-2.5 and PM2.5-10.
e penetration of suspended particles in the atmosphere to the building envelope is usually expressed by the penetration factor P, which is defined as the ratio of concentration before and after penetration through the building envelope [15].Table 3 compares the penetration factors of particles in different particle sizes at different outdoor particle concentrations.It can be seen that the penetration factor of particles in each particle size does not gradually increase with the increase of the outdoor particle concentration.
is is mainly because of the different physical characteristics of particles in different outdoor concentrations.In addition, it can be seen from Table 3 that even though the door and the windows are closed, the penetration factors of 0.3-1.0μm particles are greater than 0.5, and the penetration factors of 0.3-0.5 μm particles are greater than 0.6.

Relationships of the Indoor and Outdoor Particulate
Matter under Outdoor Infiltration.Based on the 136 sets of data in summer and 75 sets of data in winter obtained from the correlation experiment, the influence of outdoor infiltration on indoor particulate matter is further analyzed.
Figures 7(a) and 7(b) show the relationships between the mass concentrations of indoor PM1 and outdoor PM1 in summer and winter, respectively.According to linear regression on the indoor and outdoor data, the relationships between indoor and outdoor mass concentrations of PM1 in summer and winter are linear fitted by Origin8.5, respectively: Summer: C in � 21.44 + 0.56796C out (r � 0.71). ( Winter: where C in is the indoor particulate matter concentration (μg•m −3 ) and C out is the outdoor particulate matter concentration (μg•m −3 ).Figures 8(a) and 8(b) show the relationships between the mass concentrations of indoor PM2.5 and outdoor PM2.5 in summer and winter, respectively.e relationships between indoor and outdoor PM2.5 concentrations in summer and winter are obtained as follows: Summer: Winter: Figures 9(a) and 9(b) show the relationships between the mass concentrations of indoor PM10 and outdoor PM10 in summer and winter, respectively.And the relationships between indoor and outdoor PM10 concentrations in summer and winter are obtained. Summer: Winter: C in � 22.90 + 0.75315C out (r � 0.74).
As the experiment was conducted in sunny days and the windless or breezy days, Equations ( 1)-( 6) can be only applied in the conditions of sunny days and the windless or breezy days.However, similar equations can be obtained by the above methods.
From Equations ( 1)-( 6), it can be seen that, in summer, the indoor PM1 is more affected by the outdoor particle concentration; in winter, the indoor PM10 is more affected by the outdoor particle concentration.In addition, indoor particulate matter is more affected by outdoor particulate matter in winter.
To sum up, the outdoor infiltration has the most significant effect on the indoor PM1 concentration.e penetration factors of 0.3-0.5 μm particle are greater than 0.6, and its penetration is the most obvious.e pollution sources of outdoor particulate matter are various, and many heavy metals and bacteria are attached on the particles, which cause great harm to human health.erefore, the tightness of building envelopes, doors, and windows should be paid enough attention.For new buildings, doors and windows must be designed and installed according to the specifications.Especially in some heavily polluted areas, double doors and windows can be used.

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Conclusion
is study takes an office as the research object.Air infiltration experiment and correction experiment are carried out.Firstly, the variation characteristics of mass concentration and number concentration of indoor particles under five outdoor pollution levels are analyzed.Secondly, the maximum increase values and the maximum increase rates of the mass concentrations with different sizes are analyzed.Furthermore, the penetration factors of the particulate matter in different particle sizes are compared.Finally, the correlation between indoor and outdoor particulate matter concentration is studied in summer and winter.is paper can provide a basis for proposing measures to improve indoor air quality.Specifically, the following conclusions are obtained: (1) e effect of outdoor infiltration on indoor particulate matter concentration is significant.And the greater the outdoor particle concentration is, the greater the impact on indoor particulate matter is.e outdoor infiltration has the most significant effect on the indoor PM1 concentration.e mass concentrations of PM1-2.5 and PM2.5-10 fluctuate with time in a small range, and there is no obvious increase.Moreover, indoor particulate matter is more affected by outdoor particulate matter in winter.(4) e tightness of building envelopes, doors, and windows should be paid enough attention.Especially in some heavily polluted areas, double doors and windows can be used.

Data Availability
e data used to support the findings of this study are available from the corresponding author upon request.Advances in Civil Engineering

Figure 2 (
b) shows the curve of the number concentrations of the indoor particles changing with time when the outdoor mass concentration of PM10 is 200-300 μg•m −3 .e number concentration of the particles in the range of 0.3-0.5 μm gently rises.At the end of the experiment, its value increases from 1.5 × 10 8 particles • m −3 to 2.6 × 10 8 particles • m −3 , which increases by 1.1 × 10 8 particles • m −3 .

Figure 6 (Figure 5 :
Figure 6(b) shows the curve of the number concentrations of the indoor particles changing with time when the outdoor mass concentration of PM10 is 600-700 μg•m −3 .e number concentration of particles in the range of 0.3-0.5 μm increases slowly, and its value increases from the initial value of 3.0 × 10 8 particles • m −3 to 4.4 × 10 8 particles

Figure 7 :
Figure 7: e relationships between the indoor PM1 concentrations and the outdoor PM1 concentrations: (a) summer; (b) winter.

( 2 )
Due to different physical characteristics of particulate matter under different outdoor concentrations, the penetration factor of particles in each particle size does not increase with the increase of outdoor particle concentration.e penetration factors of 0.3-1.0μm particles are greater than 0.5, and the penetration factors of 0.3-0.5 μm particles are greater than 0.6.(3)e mass concentration of indoor PM1 is more affected by the outdoor particulate matter in summer.e mass concentration of PM10 is more affected by the outdoor particulate matter in winter.

Figure 9 :
Figure 9: e relationships between the PM10 concentrations and the outdoor PM10 concentrations: (a) summer; (b) winter.

Table 3 :
Penetration factor of particles with different particle sizes under each outdoor condition.

Table 2 :
e variation of particles in different sizes under different conditions.