#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#WenchangSpacecraftLaunchCenter #文昌航天發射場 | #July2026 | #长征七号 #ChangZheng7A #LongMarch7A Y29 in Launch readiness after transferred to Launch Complex  to deploy #Satellites.  #ASummary

On CNSA –China National Space Administration    …. ChangZheng  Long March 7A Wenchang, Hainan Province, China, People’s Republic of China, The Long March 7A The Long March 7A Y29 carrier rocket was vertically transported to Launch Pad 201 at the Wenchang Space Launch Site on July 17, 2026. The launch originally scheduled for today has been postponed.

Latest rocket status : On July 15, 2026, the Long March 7A Y29 rocket and satellite assembly was successfully transported from the vertical assembly and testing facility to the launch area. On July 17, 2026, the rocket was vertically transported to Launch Pad 201 at the Wenchang Space Launch Site, ready for launch at an opportune time.

[Long March 7A Y29 Carrier Rocket and Satellite Assembly During Transportation]

The Long March 7A (also known as the Long March 7A-20 or Long March 7A-201) is a medium-lift cryogenic liquid-fueled carrier rocket developed by the First Academy of China Aerospace Science and Technology Corporation (CASC). It is primarily used for launch missions into medium and high Earth orbit. The rocket employs a three-and-a-half-stage configuration, with the core stage consisting of a core stage, a core second stage, and a core third stage connected in series. Four boosters are bundled together with the core first stage.

The latest information regarding the Long March 7A Y29 rocket is as follows:

Latest update: Launch mission postponed…..According to the Wenchang Space Launch Center, the launch of the Long March 7A Y29 rocket, originally scheduled for July 17, 2026, has been postponed..

Rocket background information

The Long March 7A (also known as the Long March 7A-2) is a medium-lift cryogenic liquid-fueled launch vehicle developed by the First Academy of China Aerospace Science and Technology Corporation (CASC). It is primarily used for launch missions into medium and high Earth orbit. The rocket has a three-and-a-half-stage configuration, a height of 60.13 meters (with a 4.2-meter diameter fairing), a lift-off mass of approximately 570 tons, and a lift-off thrust of 727 tons.1

Launch mission expected

Previously, on July 15, 2026, the rocket and satellite assembly had been successfully transferred, leading to speculation that the payload for this launch might be related to the “third-generation Tianlian” satellite. However, the official reasons for the delay and a new launch window have not yet been announced.15

The new launch schedule will be determined after further official announcements.

The Long March 7A Y29 carrier rocket was vertically transported to launch pad 201 at the Wenchang Space Launch Site on July 17, 2026. The launch mission originally scheduled for today has been postponed.

I. Latest status of the rocket

  • On July 15, 2026, the Long March 7A Y29 satellite launch vehicle assembly was successfully transferred from the vertical assembly and testing facility to the launch area.114
  • On July 17, 2026, the rocket was vertically transported to launch pad 201 at the Wenchang Space Launch Site, ready for launch at an opportune time.2
  • On the same day, according to the Wenchang Space Launch Center, the launch mission originally scheduled for that day was postponed, and the new launch time is yet to be determined

II. Basic Rocket Parameters

Parametersnumerical values
Rocket height (equipped with a 4.2-meter fairing)60.13 meters
Core Level 1/Core Level 2 Diameter3.35 meters
booster diameter2.25 meters
Core three-stage diameter3 meters
takeoff massApproximately 570 tons
takeoff thrust727 tons
configurationThree and a half stages (core stage 1 + core stage 2 + core stage 3 + 4 boosters)

The rocket, developed by the First Academy of China Aerospace Science and Technology Corporation, is a medium-sized cryogenic liquid propellant launch vehicle. Its core third stage uses a hydrogen-oxygen engine and has the capability for secondary ignition. It is mainly used for launch missions into medium and high Earth orbit.

III. Key Considerations for the Launch Mission

  • This rocket has been speculated to be used to launch a new generation of “Tianlian” relay satellites, and related discussions have already begun among space enthusiasts.
  • The transfer and launch status has been a major focus of attention for internet users recently, and the official reason for the launch delay has not yet been announced.

Images and visuals are from their Respectives CMS China Manned Space CNSA-China National Space Administration

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#WenchangSpacecraftLaunchCenter #文昌航天發射場 | #July2026 |嫦娥七号 #Change7 #LongMarch5 Y14 #CarrierRocket Safely Arrives at Wenchang Space Launch Site to Carry Out Chang’e-7 Launch Mission. #LunarExplorationMission, #ASummary

On CNSA –China National Space Administration    …. At. Wenchang, Hainan Province, China, People’s Republic of China ……Chang’e7 probe safely arrived at Wenchang Space Launch Site, China# Launch planned for the second half of this year…. As of the evening of April 9, 2026, the probe carrying out the Chang’e7 mission# has been safely transported to the Wenchang Space Launch Site in China via air-land combined transport. Subsequent pre-launch tests and preparations will proceed as planned.

Chang’e-7 has arrived at the launch site. The lunar landing will achieve high-precision landing, legged walking, and leapfrog technologies.

Long March 5 Y14 Rocket Safely Arrives at Wenchang Space Launch Site to Carry Out Chang’e-7 Launch Mission….


According to the China Manned Space Engineering Office, on July 13, 2026, the Long March 5 Y14 carrier rocket, which will carry out the Chang’e-7 mission, safely arrived at the Wenchang Space Launch Site. Subsequently, the rocket will undergo final assembly and testing at the launch site together with the Chang’e-7 probe, which arrived earlier. Currently, all participating systems at the launch site are carrying out preparations for the Chang’e-7 mission as planned. Both the Chang’e-7 probe and the Long March 5 rocket were developed by the China Aerospace Science and Technology Corporation. (Source: Xinhua News Agency, China Manned Space Engineering Office

 The Long March 5 Y14 rocket, destined for the Chang’e 7 mission, arrived safely at the Wenchang Space Launch Site on July 13, 2026. It will subsequently undergo assembly and testing at the launch site along with the Chang’e 7 probe, which arrived earlier. Currently , all participating systems at the launch site are carrying out preparations for the Chang’e 7 mission as planned.

On July 13, 2026, the Long March 5 Y14 carrier rocket, which will carry out the Chang’e 7 mission, will safely arrive at the Wenchang Space Launch Site and will be combined with the probe that is already in place to enter the final assembly and testing phase

 

 

. Delivery and Assembly Progress

  • Rocket status : The Long March 5 Y14 rocket has safely arrived at the launch site and will subsequently undergo final assembly and testing at the launch site together with the Chang’e 7 probe, which arrived earlier.
  • The Chang’e-7 probe arrived safely in Wenchang in April 2026 via air-land combined transport.
  • Launch window : Launch is planned for the second half of 2026.

II. Mission Objectives and Detection Methods

  • A new stage in lunar exploration : Chang’e-7 is China’s first probe planned to land on the lunar south pole, marking the transformation of deep space exploration from a detection-oriented to a scientific research-oriented approach
  • Composition : The probe consists of four parts: an orbiter, a lander, a rover, and a flyby.
  • Core exploration : The mission focuses on exploring the environment and resources of the lunar south pole and searching for water ice
  • 1. Breakthrough in key technologies
  • High-precision landing : Breakthrough in high-precision fixed-point soft landing technology for complex terrain.
  • A new way of walking : mastering legged walking and lunar flyby techniques.
  • Shadowed crater detection : Master the technology for detecting permanently shadowed craters on the lunar surface.

III. Current Preparation Status

  • System integration test : All participating systems at the launch site are carrying out preparations for the Chang’e-7 mission as planned.
  • Escort mission : The Yuanwang 21, which was carrying out maritime transport missions, may have participated in rocket transport.

Images and visuals are from their Respectives CMS China Manned SpaceCNSA-China National Space Administration

#CNSA #ChinaNationalSpaceAdministration #国家航天局 #July2026 |#天宫#Tiangong #ChinaSpaceStation the # Shenzhou23  Takionaut crew looked back at this beautiful blue planet from the space station, feeling the warmth of home amidst their busy work. assignments #ASummary .

On CNSA –China National Space Administration神舟二十三号Shenzhou23  Takionaut crew Embark On July 12th , 2026, the Shenzhou-23 crew (Zhu Yangzhu, Zhang Zhiyuan, and Li Jiaying) successfully After nearly 50 days of “business trips to space,” the Takionauts looked back at this beautiful blue planet from the space station, feeling the warmth of home amidst their busy work.

 

The Shenzhou-23 crew has been in orbit for nearly 50 days, and the experimental list is constantly being updated, focusing on testing the physiological effects of human resistance to weightlessness, a variety of space science and application projects, and the installation of new extravehicular payloads

I. Space Life Science and Human Research Experiments

  • Plantar pressure measurement: Studying the effects of weightlessness on gait and balance by using plantar pressure distribution data…
  • Lower limb biomechanical testing: Collecting lower limb movement parameters of astronauts under microgravity to assess changes in muscle coordination patterns.17
  • Muscle and tendon characteristic measurement: Using equipment such as ultrasound to monitor muscle atrophy and tendon stiffness changes, providing a basis for countermeasures.17
  • One-year human adaptation study: Conducting a follow-up study on the physiological, psychological and metabolic adaptation of humans during long-term residence…

II. Frontier Science and Application Projects

  • Zebrafish embryo and artificial embryo experiments: Using zebrafish and aquatic organism models to study the impact of space environment on early development.
  • Mouse experiments: Conducting research on the mechanisms of in-orbit reproduction, behavior, and bone loss in mammals.
  • High-performance rare-earth permanent magnet alloys: verifying the preparation and performance changes of rare-earth materials under microgravity in space.
  • Verification of novel energy storage batteries: Testing the on-orbit charge-discharge cycle life and safety of high-energy-density batteries.
  • Space radiation biology exposure experiment: After completing the fourth extravehicular activity (EVA) installation, a five-month on-orbit exposure study was conducted using three samples: nanozymes, actinomycetes, and plant seeds.

III. External Loads and Equipment Installation

  • The Tianyun camera: It traveled aboard the Tianzhou-10 spacecraft and completed its assembly, testing, and extravehicular installation. As the first Hong Kong scientific payload to be deployed to the space station, it can monitor the concentrations of carbon dioxide and methane in the mid-to-low latitudes of the world with high precision.
  • Space protection device installation: Proceed with the extravehicular installation of protective materials for the space station as planned to enhance its ability to resist micrometeoroids and space debris.

IV. On-orbit daily and health management

  • Combined cabin care and health management: Regularly clean the cabin environment, inspect supplies, and maintain emergency supplies.
  • In-orbit physical examination: Complete the entire system’s stress emergency drill, physiological indicator collection, and physical examination items.
  • Space Baking: Crew members engage in food baking experiences during their free time to enrich their life in orbit

Images and visuals are from their Respectives CMS China Manned SpaceCNSA-China National Space Administration

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#WenchangSpacecraftLaunchCenter #文昌航天發射場Hainan Commercial Space Launch Center | #july2026  | #长征十号#LongMarch10B Yao 1  #LunarCarrierRocket #ReusableCarrierRocket Rocket Successfully Launched and  Recovered #China Successfully Implements Controlled Recovery of Rocket First Stage..  #ASummary …

At  7th July , 2026 Beijing time, the Long March 10B Yao 1 carrier rocket began erection at Launch Complex 2 of the CNSA – China National Space Administration-  Hainan Commercial Space Launch Center, Hainan Province, China, People’s Republic of China. . At midnight on July 7, the Long March 10B Y1 carrier rocket was successfully transferred to Launch Pad 2 at the Hainan Commercial Space Launch Site.

China Achieves First Controlled Rocket Recovery -Long March 10B Rocket Successfully Achieves Controlled Recovery of First Stage

At 12:15 PM on July 10, 2026, the Long March 10B carrier rocket launched from the Hainan Commercial Space Launch Site. Approximately six minutes after the first and second stages separated, the first stage returned vertically and was successfully recovered on a sea-based recovery platform.


This marks China’s first successful controlled recovery of a carrier rocket’s first stage, and also the world’s first network-based recovery of a carrier rocket. [Long March 10B Rocket Successfully Achieves Controlled Recovery of First Stage] At 12:15 PM on July 10, 2026, the Long March 10B carrier rocket launched from the Hainan Commercial Space Launch Site. Approximately six minutes after the first and second stages separated, the first stage returned vertically and was successfully recovered on a sea-based recovery platform.

This marks China’s first successful controlled recovery of a carrier rocket’s first stage, and also the world’s first network-based recovery of a carrier rocket.

At 12:15 on July 10, 2026, the Long March 10B carrier rocket successfully completed the world’s first net-system recovery of a carrier rocket at the Hainan Commercial Space Launch Site. The first stage landed vertically and was precisely captured by the sea platform.

 

 

I. Task Overview

  • Launch time : Approximately 12:10 to 12:15 PM on July 10, 2026.
  •  Launch site : Launch pad 2 at the Hainan Commercial Space Launch Site.1
  • Recovery time : Approximately 6 minutes after the first and second stages of the rocket separated, the first stage was successfully recovered on the sea recovery platform
  • Technological breakthrough : China has successfully implemented the first-stage controlled recovery of a carrier rocket for the first time, and it is also the world’s first verification of a carrier rocket’s net-system recovery

II. Highlights of Grid-Based Recycling Technology

  • Capture method : The first stage of the rocket does not have landing legs installed. Instead, it has four sets of folding hooks at the bottom. When it descends to the airspace above the recovery ship, it is captured in the air by a high-strength flexible barrier net.
  • Weight reduction advantages : It eliminates approximately 2 tons of dead weight on the landing legs, and the near-Earth orbit carrying capacity in the recovered state is still no less than 16 tons.
  • Fault-tolerant design : The fault-tolerant window for recovery is widened to ±50 meters, and the requirement for engine thrust adjustment accuracy is relaxed from 1% to 5%.
  • Specifications of the recovery vessel : The dedicated recovery vessel “Navigator” is 144 meters long and 50 meters wide, with a full load displacement of 25,000 tons, and is equipped with a DP2 dynamic positioning system.

III. Rocket Core Parameters

Parametersindex
configurationThe arrow has a two-stage, smooth shaft design, a body diameter of 5 meters, and a total height of nearly 70 meters.
Core Level 1 PowerSeven YF-100N liquid oxygen/kerosene engines (reusable), with a takeoff thrust of approximately 892 tons.
Secondary powerYF-219 Liquid Oxygen Methane Engine
Recovery status capacityLow Earth orbit ≥16 tons, 900 km SSO orbit ≥11 tons
Reuse TargetThe first stage has been reused more than 10 times, and the rocket body has a turnover time of approximately 72 hours.

IV. Recycling Process

  • Primary and secondary separation.
  • The grid rudder adjusts the attitude.
  • High-altitude reverse thrust deceleration.
  • Atmospheric reentry.
  • Low-altitude depth throttling.
  • Dynamic alignment of ship and rocket.
  • Hook-lock cable flexible capture.

Images and visuals are from their Respectives CMS China Manned SpaceCNSA-China National Space Administration

#CNSA #ChinaNationalSpaceAdministration #国家航天局 #July2026 |#天宫#Tiangong #ChinaSpaceStation the # Shenzhou23  Takionaut crew performs Baking Cakes In Space  Also other mission weekly assignments #ASummary .

On CNSA –China National Space Administration神舟二十三号Shenzhou23  Takionaut crew Embark On July 5, 2026, the Shenzhou-23 crew (Zhu Yangzhu, Zhang Zhiyuan, and Li Jiaying) successfully baked a cake on the space station using a specially designed hot air baking machine. This marks the second time this year that Chinese astronauts have completed baking in orbit, signifying that the “freshly baked era” in space has become the norm.

Takionauts Baking Cake In Space

I. Latest News: Shenzhou-23 Crew Baking Cake in Space

  • Date : July 5, 2026, the China Manned Space Agency released the latest episode of “Tiangong TV”.
  • Crew : Shenzhou-23 astronauts Zhu Yangzhu and Zhang Zhiyuan, and the first Hong Kong payload specialist, Li Jiaying.13
  • Results : Using China’s unique “space oven,” a cake was successfully baked, and Li Jiaying showed the finished product to the camera.
  • Background : The crew had previously used the same equipment to bake pumpkins, and this time they were baking cakes, which updated the “Tiangong menu” once again

II. Core Technology: How is Microgravity Baking Achieved?

Key difficultiesTechnical solutionsRemark
thermal convection failureThe forced hot air circulation system, with its built-in fan, allows hot air to envelop the food in a three-dimensional manner.Temperature can rise to 190℃
Oil fume pollutionHigh-temperature catalytic decomposition and multi-layer filtration purification system enable smokeless cooking.Emission cleanliness is better than cabin standards
Food driftSealed baking pans, residue collectors, heating racks, etc., lock in the food.Prevent debris from damaging the equipment
Heating efficiencyThe cake took 28 minutes to bake, compared to 120 minutes for cookies to bake on the International Space Station in 2019.Chinese ovens are far more efficient than their competitors.

III. Development Stages: From Initial Breakthrough to Regular Operation

  • New Year’s Eve debut (February 16, 2026) : The Shenzhou-21 crew completed the first-ever baking of a cake in space on New Year’s Eve, using a hot air baking machine sent by Shenzhou-21, which weighs about 5.8 kilograms.
  • Technical significance : It realizes the Maillard reaction (caramelization and browning) under microgravity, truly achieving “cooking” rather than simple heating.
  • Dietary evolution : This marks the transition of China’s space station’s food support from “survival-oriented” to “life-oriented,” allowing astronauts to enjoy freshly baked hot meals. The menu has been expanded to more than 190 dishes, with no repetition for 10 days.

IV. Crew and Mission Highlights

  • The Shenzhou-23 crew consisted of the third and fourth batches of astronauts, with Lai Ka-ying being the first astronaut from Hong Kong.
  • Mission Background : This cake-baking activity took place after completing demanding tasks such as installing the “Tianyun Camera” outside the cabin, and served as a way to relax during a work break.3
  • Lifelike Presentation : The latest Tiangong TV footage juxtaposes baking cakes with daily routines such as cleaning and medical checkups, showing that life in space is becoming.

Images and visuals are from their Respectives CMS China Manned SpaceCNSA-China National Space Administration