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Conclusions under chapter 1

As a result of the spent analysis of the literature and studying of modern position of a question of increase of environmental safety of objects stroiyotelstva at the expense of passive solar heating it is possible to make the following vyyovody:

1.

The housing sector possesses a decrease more potential energopoyotreblenija. Domestic buildings make 40 % of a global anthropogenic load. Thus, for needs of heating in the different countries 30-60 % from potrebyoljaemoj energy domestic buildings are necessary. If to consider, that global annual vyyobrosy СО2 make approximately 35 ГтСО2/год from them at the expense of domestic buildings it has been thrown out 13-14 ГтСО2/год, and at the expense of heating of domestic buildings 4-8 ГтСО2/год.

2. Energopotreblenie immediate impact on an environment condition, and energy consumption decrease makes on heating and building cooling, i.e. its increase energoeffektivnosti, is one of the basic ways of increase of environmental safety urbanised territoyory.

3. The Is standard-legal base of all world in the field of ecology and power is directed on decrease energopotreblenija, for the purpose of extirpation with global poyotepleniem and improvement of an ecological condition of an inhabitancy of the person.

4. From all ways of increase energoeffektivnosti, passive solnechyonyj heating is a pollution-free, effective method which should be obligatory for the objects of the building which have been had in southern regiyoonah where the quantity of solar energy makes 2000-2500 solntsechasov in a year.

5. Kinds UPSN most simple and extended all over the world is a direct solar heating, solar space and teploakkumulirujushchaja the Blood clot wall.

6. World practice of building energoeffektivnyh buildings with primeneyoniem UPSN confirms their efficiency. But UPSN are always considered
In a complex of actions for increase power and ecological efyofektivnosti buildings, therefore it is difficult to allocate and understand their role in thermal bayolanse buildings.

7. In the works devoted to application of passive solar heating in energoeffektivnyh buildings, it is considered one-two kind UPSN, thus, at the best, the power indicator of their efficiency which communicates with decrease in emissions СО2 pays off, but comparison of various kinds UPSN is not spent, not considered their aesthetic indicators and pokayozateli comforts. At designing again under construction and reconstruction of existing buildings for the purpose of their increase power and environmental safety, arise questions: which kind UPSN is the most effective? How to make a choice applied further UPSN at designing and building of buildings? How stroyoitelstva the district influences efficiency and work UPSN?

Following heads of the dissertation are devoted search of answers to these questions, working out of a technique of increase of environmental safety of objects stroiyotelstva at the expense of application of devices of passive solar heating, formuyolirovke algorithm of a predesign estimation of a site of building on it gelioyopotentsialu, a complex estimation power, ecological and ekonomicheyoskoj to efficiency of objects of building with application most populjaryonyh kinds UPSN, and also working out of the toolkit simplifying procedure of a preliminary predesign estimation and choice UPSN.

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A source: KLEVETS XENIA NIKOLAEVNA. INCREASE of ENVIRONMENTAL SAFETY of OBJECTS of BUILDING AT the STAGE of THEIR DESIGNING AT THE EXPENSE OF PASSIVE SOLAR HEATING. The DISSERTATION on competition of a scientific degree of a Cand.Tech.Sci. Simferopol - 2019. 2019

More on topic Conclusions under chapter 1:

  1. Conclusions under chapter 2
  2. Conclusions under Chapter 1.
  3. Conclusions under chapter 1
  4. Conclusions under chapter 2
  5. Conclusions under the chapter II
  6. CONCLUSIONS ON THE SECOND CHAPTER
  7. Conclusions on chapter 1
  8. CONCLUSIONS ON CHAPTER 1
  9. Conclusions under chapter 1
  10. Conclusions under chapter 2
  11. Conclusions on the third chapter
  12. Conclusions under chapter 3
  13. CONCLUSIONS ON CHAPTER 1
  14. Conclusions under chapter 2