Presentation is loading. Please wait.

Presentation is loading. Please wait.

Hygiene of the inhabited places. Soil and health. Problems of protecting the soil. Hygiene of dwelling. Microclimate, heating, ventilation. Hygiene of.

Similar presentations


Presentation on theme: "Hygiene of the inhabited places. Soil and health. Problems of protecting the soil. Hygiene of dwelling. Microclimate, heating, ventilation. Hygiene of."— Presentation transcript:

1 Hygiene of the inhabited places. Soil and health. Problems of protecting the soil. Hygiene of dwelling. Microclimate, heating, ventilation. Hygiene of natural and artificial illumination in apartments. Hygiene of natural and artificial illumination in apartments..

2 1. Introduction. 2. Soil and health. Problems of protecting the soil. 3. Hygiene of dwelling. Microclimate, heating, ventilation. 4. Hygiene of natural and artificial illumination in apartments

3 Soil may be defined as the fine earth covering land surfaces that has the important function of serving as a substratum of plain, animal, and human life. Soil essence of our being. Soil by volume, on the average consists of 45% mineral, 25% water, 25% air and 5% organic matter (both living and dead organisms).

4

5 Soils are composed of mineral matter, air, water, organic matter, and organisms. There are two general types of soils, mineral soils and organic soils. Mineral soils form from decomposed rocks or sediment derived from rocks. Organic soils form from the accumulation of plant material, usually in water-saturated, anaerobic conditions that retard decomposition. Mineral matter is described as texture and comprises half the volume of mineral soils. The other half of the soil volume is composed of voids or holes. These voids fill with water as the soil soaks up rain or flood waters, then are displaced with air as the water drains away, evaporates, or is absorbed by roots. The Composition of Soils

6 Both plants and animals help to create a soil. As they die, organic matter incorporates with the weathered parent material and becomes part of the soil. Living animals such as moles, earthworms, bacteria, fungi and nematodes are all busy moving through or digesting food found in the soil. All of these actions mix and enrich the soil. Here is a creature from each major group of soil organisms. Eastern Mole Night Crawler Nemotode (Round Worm) Root Fungus AmoebaBacteria Beetle Mite

7 There are many functions provided by soil that are important to human beings. Soil is necessary for: dwellings highways airports recreation areas it also provides road fill material for water retention structures and fulfils many other essential functions.

8 S oil pollution is associated mainly with: 1. The use of chemicals, such as fertilizers and growth-regulating agents, in agriculture; 1. The use of chemicals, such as fertilizers and growth-regulating agents, in agriculture; 4. The soil is thus becoming increasingly polluted with chemicals, including heavy metals and products of the petroleum industry, which can reach the food chain, surface water, or ground water, and ultimately be ingested by man. 2. T he dumping on land of large masses of waste materials from the mining of coal and minerals and the smelting of metals. Toxic or harmful substances can be leached out of such materials and enter the soil; 3. The dumping on land of domestic refuse and solids resulting from the treatment of sewage and industrial wastes.

9 MAN AIR MAN water Plants MAN planctone FISHES Animals MAN The following ways of toxic, radioactive and biological agents transmission are possible

10 Biological agents Biological agents animal-soil-man pathogenic organisms of animals, transmitted to man by direct contact with soil contaminated by the wastes of infected animals man-soil-man pathogenic organisms excreted by man and transmitted to man by direct contact with contaminated soil or by the consumption of fruit or vegetables grown in contaminated soil soil-man pathogenic organisms found naturally in soil and transmitted to man by contact with contaminated soil

11 Man-soil-man Enteric bacteria and protozoa can contaminate the soil as a result of: unsanitary excreta disposal practices; the use of night soil or sewage sludge as a fertilizer, the direct irrigation of agricultural crops with sewage. Soil and crops can become contaminated with the bacterial agents of cholera, salmonellas, bacillary dysentery (shigellosis) and typhoid and paratyphoid fever, or with the protozoan agent of amoebiasis. Parasitic worms (helminthes) Soil-transmitted parasitic worms or geo-helminthes are characterized by the fact that their eggs or larvae become infective after a period of incubation in the soil.

12 Leptospirosis Other diseases lymphocytic choriomeningi tis visceral larva migrans listeriosis, South American types of haemorrhagic fever, tuberculosis, salmonellosis, and tularemia Clostridium perfringens infections Animal-soil-man In a number of zoonoses (diseases of animals transmissible to man), the soil may play a major part in transmitting the infective agent from animal to man. Anthrax

13 Soil-man Soil-man Tetanus Tetanus is an acute disease of man induced by the toxin of the tetanus bacillus growing an aerobically at the site of an injury. The infectious agent, clostridium tetani, is excreted by infected animals, especially horses. The immediate source of infection may be soil, dust, or animal and human faces. is an acute disease of man induced by the toxin of the tetanus bacillus growing an aerobically at the site of an injury. The infectious agent, clostridium tetani, is excreted by infected animals, especially horses. The immediate source of infection may be soil, dust, or animal and human faces. Mycoses Fungi and actinomycetes that grow normally as saprophytes in soil or vegetation cause most of the serious subcutaneous, deep-seated and systemic mycoses. Botulism a frequently fatal type of poisoning caused by bacterial toxins produced by Clostridium botulinum. The reservoir of the organism is soil and the intestinal tract of animals. The toxin is formed by the anaerobic growth of spores in food, which is the immediate source of poisoning.

14 Mechanic content of soil and its hygienic meaning Sanitary condition of soil depends greatly on its structure. Mechanic analysis data make available the following divisions of soils: stony, gravel, cartilage, sandy (>80% sand and <10% of clay); sandy loam soil (50-80% of clay), lesser loamy soil (30-50% of clay), loamy soils (50-80% of clay), clay soils (>80% of clay), lime soils (>80% of clay), chalk soils, lessic soils (mixture of small sand particles with lime clay), black earth (>20% of humus), turf soils etc.

15 According to cleanness the soil is divided on Clean Low polluted Polluted Heavily polluted According to cleanness the soil is divided on Clean Low polluted Polluted Heavily polluted

16 Sewage

17

18

19

20 Dwelling influences a mans health by volume area microclimate other indexes The dwelling includes the work place, the place for rest and sleep. Absences of necessary sanitary-hygienic standards in apartment are negatively reflected on such physiological organism functions Breathing Heat exchange Higher nervous activity.

21 Th e death rate among inhabitants of apartments with a great number of people is in 1,5 - 2 times higher than among people residing spacious apartments. Pulmonary tuberculosis is the most typical illness of very small apartments. Very easily can spread such infections as: grippe measles scarlet fever diphtheria coughing chicken pox

22 The dwelling, which corresponds to hygienic norms, is : ought to be sufficiently spacious, dry, to have a favorable microclimate, clean air, to be well lighted by sunrays.

23 The dwelling functions for people are : satisfaction of physiological needs (sleeping, personal hygiene, eating, physical training and sport) communication and cultural activity (rest, entertainments, communication of family members) education and bringing up of children housekeeping (cooking, cleaning, washing) professional activity, self-education, amateur activities.

24 Microclimate of dwelling places Temperature In winter temperature in apartment has to be 18-20 0 C (for moderate latitude). Relative humidity (with air temperature 18-20 0 С) has to be 40-60 %. Speed of air has to be not more then 0,2-0,3 m/s Acceptable microclimate - person can wear light clothes and shoes, stay for a long time without many moves and have no unpleasant feelings such as freezing or overheating.

25 Chemical structure of air The most important part of air for man is Oxygen.

26 Carbon dioxide Contents of carbon dioxide gas in atmospheric air is relatively permanent - 0,03-0,04 %. СО 2 does not congest in air and excludes from it with rainfalls (1l of rain-water contains about 1-2 ml СО 2 ), reacts with seawater, forming carbon dioxide salts and, usually, collapses by chlorophyll plants. A concentration of СО 2 in air in closed, badly ventilated dwellings rises up because of peoples breathing.

27 Change of content and properties of air while breathing Atmospheric air Breathed out air Oxygen 21 % 21 % 15,5-16 % СО 2 0,03-0,04 % 2,5-5 % Temperaturedifferent 35-37 0

28 Maximum admissible concentration of СО 2 in dwelling air is 0,1%. Air ventilation can be considered: good if the concentration of СО 2 in air is lesser than 0,07 %; satisfactory when concentration of СО 2 in air is 0,1 % the concentration of 0,15 % is admissible only for short time staying (for example, in cinemas).

29 Carbon Monoxide (CO) Carbon monoxide is an odorless, colorless and toxic gas. At lower levels of exposure, CO causes mild effects that are often mistaken for the flu. These symptoms include: headaches, dizziness, disorientation, nausea fatigue.

30 Levels CO in Homes Admissible concentration of carbon oxide gas in house is 0,002 mg per liter of air. Admissible concentration of carbon oxide gas in house is 0,002 mg per liter of air. Middle amount of carbon oxide gas in air attached to yellow flame is 0,045 mg per litre of air. Middle amount of carbon oxide gas in air attached to blue flame is 0,001 mg per litre of air. Middle amount of carbon oxide gas in air attached to yellow flame is 0,045 mg per litre of air. Middle amount of carbon oxide gas in air attached to blue flame is 0,001 mg per litre of air.

31 Natural and artificial lighting

32

33 This phenomenon depends upon percentage of light absorption by walls of different coloring. white wallpapers absorb only 8% of light, yellow – 10%; blue – 15% dark brown from 87% to 96%.T The white color and light tone are mirrored by sun rays on 70-90 of %, yellow color - on 50 %, green - on 50-60 of %, blue, violet - on 10-11 of %, black - on 1 %.

34 Types of insolation mode of locations Types of insolation mode of locations Insolar mode Orientation windows on the world sides Time of insolation (hour) % insolation square in room Maximum South-East South-EastSouth-West5-680 ModerateSouth,East3-540-50 Minimum North-East North-West < 3 < 30

35 Curves of light climate

36 Insolation control scale

37 Orientation of the windows on the world sides in some rooms: Orientation of the windows on the world sides in some rooms: hospital wards (patient room) - on the South or South-East ; hospital wards (patient room) - on the South or South-East ; operation room - on the North; operation room - on the North; reanimation room - on the North, North -West, North-East; reanimation room - on the North, North -West, North-East; classroom -on the South, South- East or East classroom -on the South, South- East or East

38 The day lighting in room depends on: distance between buildings height of the building proximity of green plantations height of green plantations

39 Factors that influences on intensity and duration of daylight of rooms are: 1. The size of the windows, 2. Form of the windows, 3. Disposition of the windows. The upper edge of windows is necessary to be as higher as it is possible.

40 Diagram for determination of the angle of incidence and the angle of opening The angle of opening calculation: tg =BC/AB (see table of tangents), - the angle of incidence; tg =BD/AB (see table of tangents), - the angle of shading;, is the angle of opening.

41 Description of natural illumination of dwellingIndexRates Coefficient of day lighting (DLC) not less 0,75 % Light coefficient (LC) not less 1/6-1/8 Angle of incidence of light rays not less 27 0 Angle of opening not less 5 0 Depth Coefficient (DC) Depth Coefficient (DC) not greater 2

42 The sources of artificial lighting. incandescent bulb luminescent lamp

43 Incandescent Lamp

44 Components of a Fluorescent Lamp A fluorescent lamp consists of a phosphor-coated tube, starter, and ballast.

45 luminescence lamps

46 There are 3 types of luminescence lamp: daylight luminescence lamp white-light luminescence lamp warm-white-light luminescence lamp

47 Important advantages of Fluorescent lamps The light from such lamps can be made to approximate the quality of daylight The efficiency of the fluorescent lamp is high Fluorescent tube taking 40 watts of energy produces as much light as a 150-watt incandescent bulb. Fluorescent lamps produce less heat than incandescent bulbs for comparable light production

48 The defect of luminescence lamp cyanotic skin evening effect stroboscopic effect

49 Fluorescent lamps

50 The defect of the daylight luminescence lamp is that human skin in this light looks unhealthy, cyanotic That`s why they are not used in hospital and school rooms. Comparing with daylight lamps the spectrum of white-light luminescence lamps is richer with yellow rays. During lighting with such lamps high workability of an eye is kept and skin looks better. Used at schools, apartments, hospitals. Spectrum of warm-white-light lamps is rich with yellow and pink rays and decreases eye`s workability, but considerably improves colour of skin. Used for illumination of stations, cinemes, underground

51 Description of artificial light for dwelling Living place Level of least illumination (lux) By incandescence lamps By luminescent lamps Dwelling room 75100 Kitchen100100 Closet, bathroom 3050 Hall5050 Stairs1050

52 Mеthods of determination artificial illumination Instrumental method Calculation method (method Watt)

53 LUXMETR

54 Standards of general artificial illumination Premises The Smallest illumination, lx Luminescent lampsIncandescent lamps Rooms and kitchens of dwelling7530 Classrooms300150 Rooms for technical drawing500300 School workshops300150 Public reading halls300150 Operating room400200 Divery room, manipulation room500200 Pre-operative room300150 Surgeon`s, gynecologist`s, pediatrician`s, dentist`s room500200 Functional diagnostics room-150 X-ray room-150 Patient room15075

55 Thank you for your attention!


Download ppt "Hygiene of the inhabited places. Soil and health. Problems of protecting the soil. Hygiene of dwelling. Microclimate, heating, ventilation. Hygiene of."

Similar presentations


Ads by Google