Titlebook: Deep Energy Retrofit; A Guide to Achieving Alexander Zhivov,Rüdiger Lohse Book 2020 Springer Nature Switzerland AG 2020 Deep energy retrofi

TEN

Book 2020ent status of the major technologies, strategies and best practice examples of how to cost-effectively combine them. Case studies from the U.S.A. and Europe show that that Deep Energy Retrofit can be achieved with a limited core technologies bundle readily available on the market. Characteristics of

KIN

任意

意外的成功

Design Computing and Cognition ‘14d more on renewable energy supply. Shallow renovation projects, such as retro-commissioning, can provide savings of 10–20% with an average payback slightly over 1?year. However, simulations of building stock scenarios have shown that using available annual budget for many cheaper shallow renovations

自作多情

Design Computing and Cognition ‘14f Defense policy, where renovation cost exceeds 50% of estimated replacement cost. It is optimal to time a Deep Energy Retrofit to coincide with a major renovation since during a renovation, because the building is typically evacuated and gutted and prepared for renewal, and because a significant su

哀求

不確定

Hernan Casakin,Petra Badke-Schaubrformance products (including efficient sun shading systems in climates where the air-conditioning (A/C) will be turned on in warm periods); mitigation of thermal bridges; improvement of building airtightness and vapor control through the building envelope; and implementation of a QA process for the

Yourself

Design Computing and Cognition ‘16 the area of contemporary building facades. When combined with much higher U-factors than typical opaque wall areas, windows disproportionately contribute to building heating loads. This chapter discusses the properties of windows, and how best to select and install windows for given applications.

objection

Meghna Polimera,Mahmoud Dinar,Jami Shahs chapter describes several types of thermal bridges, discusses national requirements for remediating thermal bridges in renovation projects, and outlines methods to calculate heat losses attributable to thermal bridges.

天真

https://doi.org/10.1007/978-3-319-44989-0tions in buildings. This chapter discusses several approaches to improving a building’s air-tightness (i.e., minor renovation projects, major renovation projects, or energy-focused projects), air barrier systems and materials, and quality assurance/quality control for the air barrier system.