Daylight Hours Auckland

Summertime | NZ Government

Summertide begins when the watches are brought forward by 1 hours at 2 a.m. on 30 September 2018. Summer begins every year on the last Sunday in September and ends on the first Sunday in April. In the summer we are on "New Zealand Summer Time", one hours before New Zealand default setting.

This data and the date of the changes will be made widely known in advance through TV and wireless advertising, community web sites and supra-regional papers. There are 2 laws governing our timezones, daylight savings and what happens when you work when the watches are changing.

In 1927 New Zealand launched daylight savings for the first people. A 2008 poll showed that 82% of New Zealanders agreed to the 2007 summer holiday prolongation.

Tides and Tides Table for Auckland

The next HIGH HIDE in Auckland is at, that's in from now on. The next LOW LIDE in Auckland is on, that's in from now on. Auckland' s locale is . Refer to the Auckland tides map and tides below. Tides are NZST (UTC +12.0hrs).

The last Spring High Time in Auckland was on Sat 30 Jun (height: 3.07m 10.1ft). The next high Spring Time in Auckland will be on Mon 16 Jul (height:3.58m 11.7ft). Tidal zero point: mean value of low-water. The Auckland Tidal Map Key: Above table shows the high and low and high tides for Auckland, New Zealand.

A blinking point in the middle indicates the current tides. Auckland' s golden shade represents the hours of daylight between dawn and dusk. This is Auckland tendon table:

Analysis of solar radiation on a construction site

Through analysis of the influence of the solar radiation on a site, the position of the structure, the layout, direction, window layout, daylight entry and other characteristics, the planner can fully exploit the advantages of active sunlight designs and enhance the buildings in terms of economic value, convenience and sustainability.

Sunpath charts offer a wider view of the solar system at one location by mapping the sun's course across the skies at different hours of the year. These can help to measure the solar elevation in relation to a location and to measure the effect of shade thrown by structures, tree and land forms on and around the location.

NIWA's SolarView on-line tools can deliver information quickly and precisely. The elevation at dawn and dusk is zero, and in the south of the globe the maximal elevation of the star at a certain place is December 21/22 (longest day of the year). Concerning photovoltaic systems, sunlight is the most important source of power.

Quantity of available sunshine at a location is dependent on the width and hours of sunshine it receives. Ultraviolet rays affect the shelf life of many substrates. Paints are fading, plastic-based material can become fragile, wood is moving and twisting, and thermal and acoustic growth and shrinkage affect many building types, so the effect of ultraviolet rays must be taken into account throughout the life of a building.

Obstacles on a construction site can obstruct entry to solar light if necessary. The effects of obstacles in the present and the present should be evaluated when looking at solar light and architectural work. A small arboreal on an adjoining property, for example, can become a large one that is blocking the solar radiation, a structure can be built on an open area, or an old one can be torn down and substituted by a new one.

Inclined locations oriented to the southeast and the southwest have restricted sunscreens. It' s hard to use efficient active photovoltaic characteristics at these locations and they should generally be averted. If it is not possible to bypass the site or the site is otherwise preferable (e.g. in good visibility), a thorough inspection of the planning process can maximize the advantages of sunlight, as well as the position of the property (e.g. as high as possible on the site), as well as the direction and use of skylights/glazing.

NIWA (National Institute of Water and Atmospheric Research) provides climatic information for its 30 climatic research institutes across New Zealand, providing information on hours of sunlight and average temperature. Air photos can give information about the building and flora on adjoining properties and can give some restricted information about the influence of the solar radiation on a property.

Information on solar radiation is also available: through an on-site consultation to determine the level of the adjoining building and site characteristics.