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Paper is proposed a method of technical-economic assessment of integration of PV elements into energy efficient buildings in connection with requirements of LEED certification.Two options of installation in 9 locations in Russia are considered- on the roof and façade-integrated installation. To propose method of increase points of LEED certification in realized certified project by integration of PV modules. Economical advisability of integration of renewable energy systems in energy efficiency building under LEED certification was proved.
В данной работе изложена методика технико-экономической оценки интеграции фотоэлектрических элементов в энергоэффективные здания согласно требованиям LEED сертификации. Рассмотрено два варианта установки солнечных фотоэлектрических модулей в 9 городах России – на крыше и фасадно-интегрированная установка. Предложен способ увеличения баллов LEED сертификации существующего сертифицированного здания, путем интеграции фотоэлектрических модулей. Обоснована экономическая целесообразность интеграции ВИЭ в энергоэффективные коммерческие здания, проходящие сертификацию LEED.
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Table of Contents
- INTRODUCTION
- 1 ASSESSMENT OF METHODS OF INTEGRATE RENEWABLE ENERGY SYSTEMS INTO THE BUILDING WITH REQUIREMENTS OF LEED CERTIFICATION
- 1.1 Renewable energy in «Leadership in Energy and Environmental Design»
- 1.2 Photovoltaics in theory
- 1.2.1 Shadowing effect on solar cells
- 1.2.2 Temperature effect
- 1.3 Inverters for photovoltaic applications
- 1.4 Performance Requirements of PV Inverters
- 1.5 Integration renewable energy systems into building
- 1.5.1 Building-integrated photovoltaic (BIPV)
- 1.5.2 Building applied photovoltaic (BAPV)
- 1.5.3 PV systems in the built environment
- 1.5.4 BIPV and architectural aspects
- 1.6 Benefits providing of installation of renewable systems
- 1.7 Problems of renewable systems in existing building
- 1.8 Classification of office building
- 1.9 Conclusion to Chapter 1
- 2 TECHNICAL JUSTIFICATION OF INTEGRATION OF PV SYSTEMS INTO THE ENERGY EFFICIENT BUILDINGS TO GET POINT OF LEED CERTIFICATION
- 2.1 Daily summary amount of solar radiation
- 2.2 Description of the power consumers of the energy efficient building
- 2.3 Determination of solar system’s parameters
- 2.3.1 Selection of PV modules
- 2.3.2 Installation of solar panels taking shading into account
- 2.3.3 Calculation of the percentages of building energy use produced by solar systems
- 2.3.3.1 Calculation of the installation mounted on roof
- 2.3.3.2 Calculation of the installation mounted on facade
- 2.4 Receiving points of LEED certification
- 2.4.1 Roof installation
- 2.4.2 Façade installation
- 2.5 Influence of parameters on the generated energy
- 2.6 Raising level of LEED certification
- 2.7 Conclusion to Chapter 2
- 3 ECONOMICAL EFFICIENCY ASSESSMENT OF THE PROJECT
- 3.1 Assessment of capital costs of the installation of PV system
- 3.2 Confrontation of revenue parameters
- 3.3 Conclusion to Chapter 3
- CONCLUSION
- LIST OF REFERENCES
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